Tag Archive for: Fred Hutchinson Cancer Center

How Long Is CAR T-Cell Therapy Effective in Myeloma? An Expert Explains

Is CAR T-cell therapy a cure for myeloma? Dr. Rahul Banerjee, a myeloma specialist and researcher, discusses the reasons that CAR T-cell therapy may lose effectiveness and the potential impact of undergoing another round CAR T-cell therapy.

Dr. Rahul Banerjee is a physician and researcher specializing in multiple myeloma and an assistant professor in the Clinical Research Division at the University of Washington Fred Hutchinson Cancer Center in Seattle, WA. Learn more about Dr. Banerjee.

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Related Resources:

Myeloma CAR T-Cell Therapy | How Is Success Measured?

Myeloma CAR T-Cell Therapy | How Is Success Measured?

Evolve | What You Should Know About Advances in CAR T-Cell Therapy for Myeloma

Evolve | What You Should Know About Advances in CAR T-Cell Therapy for Myeloma 

Understanding Myeloma Therapy Targets BCMA and GPRC5D

Understanding Myeloma Therapy Targets BCMA and GPRC5D 

Transcript:

Katherine Banwell:

This one is from Jennifer. Why do CAR T-cell transplants not last longer? Is it possible to do a second transplant if the first CAR T transplant stops working? 

Dr. Rahul Banerjee:

It’s a great question. So, it’s an excellent question. So, the only thing I would say semantically is, right, in my head, CAR T cells are not transplants per se, because I’m not changing the bone marrow. So, I would transplant a stem cell transplantation, separate from CAR T.  

Why do CAR T cells stop working? So, the short answer is we can speculate. We don’t know for sure for any individual patient. Three different buckets are involved. Three different things can happen. One, the T cells can stop working or disappear from circulation. So, that’s possible. CAR T cells don’t last forever. That’s actually okay, right? People often wonder like, “Man, I wish the CAR  
T cells could last forever.” I don’t know that I’d want that because as I alluded to, for as long as the CAR T cells are there, patients are immunocompromised, and so that can certainly interfere with the quality of life.  

So, it’s not necessarily true that the CAR T cells need to be there forever, but if they’re not there, or if they’re exhausted, which is actually a true scientific word for them not being able to activate and kill that cell when they recognized a protein, the BCMA, that’s one problem.  

The second problem is the myeloma cells can mutate. I alluded to this briefly earlier, where the cells can learn to shut off the protein, BCMA, or they can mutate the protein in just a way that the  
CAR T is no longer able to bind.  

And the third is something called the tumor microenvironment. And this is a little bit more complicated, kind of a grab bag of different things here. The idea is that myeloma cells have a lot of tricks, and they can use all of the cells around them to make it hard for the CAR T cells to get in, to get into the bone marrow and kill them all. And the T cells can be shut off before they even get there.  

So, it’s one of those three things in general. Which one is it for an individual patient? Hard to say. And so hopefully in the future, we’ll have better diagnostic tests to be able to identify who is a patient where another BCMA targeted therapy would work well versus, “Oh no, these myeloma cells are no longer expressing BCMA, let’s move on to a different target like GPRC5D.” We’re not there yet. We’ll get there hopefully in a couple of years, is my goal.  

Then, you know, Jennifer, that’s a good question. Well, can we do a second CAR T? And that’s very practical. What I would say is if the first CAR T therapy did what we expected it to do, if it lasted for as many years as I would expect for Abecma, that’s typically 12 to 18 months. For Carvykti, that’s typically over 24 months.  

If it worked and then it stopped working, and then probably the T cells are long gone, it’s reasonable to try CAR T therapy again. In general, I would recommend, I strongly recommend a different CAR T-cell therapy, even if it’s targeting the same class, like BCMA, it’s going from ide-cel (Abecma) to cilta-cel (Carvykti) or vice versa. 

The risk with giving the same CAR T-cell product again is that even though the T cells are a patient’s own T cells, the protein is slightly foreign. Abecma was derived from decades of mouse research. Carvykti was made from decades of llama research, believe it or not. Again, there’s no mouse or llama involved with the actual products nowadays, but in making the sequence years ago that came to them, they are foreign. There are foreign sequences on them, and so everyone’s host immune system eventually recognizes these cells as foreign.  

And so if you were to give the exact same product again, immediately the body would reject it the second time around, because it recognizes them and has learned to recognize it as foreign. But changing to a different CAR T cell is very reasonable. 

And again, for these newer GPRC5D targeted CAR T cells that, again, don’t target BCMA the way that Abecma, ide-cel or cilta-cel, Carvykti do, but target a different protein entirely, for those patients generally there’s no restriction on whether they’d received a prior CAR T cells. Ideally, it should be at least several months away, at least like a year or so, but if that’s happened and they stopped working, very reasonable. In fact, some of the trials actually require that patients going on to the study of a GPRC5D product have had a prior BCMA therapy of some sort before, and so they’re kind of built into the architecture of things. So, I think it’s very reasonable.  

Obviously, there are some unknown unknowns, right? What do you do if the T cells are being manipulated twice, so to speak. Patients ask me about that. I will say just to put that fear to rest, in general, by the time that someone’s had myeloma come back after the first CAR T cells, I alluded to this, the CAR T cells are long gone. So, there’s nothing left.  

But again, every case is different, and future research will help us kind of figure out how best to do this. 

Myeloma Research | Updates in CAR T-Cell Therapy

 What is the latest in myeloma CAR T-cell therapy research? Dr. Rahul Banerjee, a myeloma specialist and researcher, discusses advances in the field including progress in improving the CAR T manufacturing process and the role of clinical trial participation in developing new myeloma treatments.

Dr. Rahul Banerjee is a physician and researcher specializing in multiple myeloma and an assistant professor in the Clinical Research Division at the University of Washington Fred Hutchinson Cancer Center in Seattle, WA. Learn more about Dr. Banerjee.

Download Resource Guide

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How Can Myeloma Patients Access CAR T-Cell Therapy Clinical Trials?

How Can Myeloma Patients Access CAR T-Cell Therapy Clinical Trials?

How Is CAR T-Cell Therapy Research Advancing Myeloma Care?

How Is CAR T-Cell Therapy Research Advancing Myeloma Care?

Advice for Inquiring About Myeloma CAR T-Cell Therapy Clinical Trials

Advice for Inquiring About Myeloma CAR T-Cell Therapy Clinical Trials 

Transcript:

Katherine Banwell:

Can you share any updates in CAR T-cell therapy research? 

Dr. Rahul Banerjee:

Sure. So, several. I would say the first was how do we make that vein-to-vein time shorter? So, the vein-to-vein is, again, from the moment that the T cells are collected to when they’re put back into the patient.  

And so a lot of research is how do we make that better? We have rapid manufacturing protocols that, again, where the T cells are taken out and manufactured within a couple of days and brought back into the patient. They’re still testing for safety and sterility and everything that needs to be done, so it’s not overnight, but still, one or two weeks’ worth of vein-to-vein time is way better than one to two months. 

The allogeneic CAR T cells that are coming from a healthy donor, those are fascinating, right? Because if the cells are pre-manufactured, there’s no risk of them not manufacturing or manufacturing in an odd manner, what we call auto-specification. They’re ready from a healthy donor, ready to go. 

And one of the studies that was presented last month at our International Myeloma Society meeting in Brazil, the time, the median time from when the patient went on the study to when they started that lympho-depleting pre-CAR T therapy was one day, and that means they got CAR T therapy within one week of going on the study. That’s phenomenal. And so I think that research is ongoing.  

There are some side effects about allogeneic, healthy donor CAR T cells in terms of making sure the T cells stick around and don’t cause other issues. Sorry, for another day. I think that’s one area of research.  

 I think the other big area of research is how do we make CAR T cells work for longer for more people? There are easy ways, and there are controversial ways to do that. So, I think the easy way is can we use MRD negativity or other tests to identify who is at very low risk of relapse and monitoring them appropriately.  

There are patients where, in the future, we may talk about doing some form of post-CAR T maintenance therapy.  

Again, the bar for that should be set pretty high, and it is set pretty high because as I mentioned earlier, many patients prefer CAR T therapy, not just because of the deeper remissions and longer remissions, but because it truly is time away from treatment. But they’re still coming in for the IVIg and the blood work and seeing a doctor, et cetera, but they’re not getting daily treatment with lenalidomide, which is Revlimid, or pomalidomide, or Pomalyst, or something like that. And that’s wonderful. 

However, there may be some patients where some form of strategy will use one of those medications or experimental medications. There’s a newer class of the lenalidomide, Revlimid, pomalidomide, Pomalyst called CELMoDs.  

They’re not approved yet, but drugs like iberdomide or mezigdomide that work better, and not just against the myeloma. They actually make T cells stronger, believe it or not. 

And so in the future, there may be scenarios where we recommend for certain patients that, hey, in your particular case, after CAR T therapy, to keep the myeloma away, I’d recommend using this form of maintenance, a pill or something like that, just low dose to, again, keep the myeloma at bay and keep the T cells, in this case, the CAR T cells strong. So, I think those are all areas of exciting research.  

And then the last thing I would say is, we have several novel CAR T therapies that are being studied that may work better and safer than the existing products. Some of them, which are in early phase studies, actually target two proteins at once. The idea, going back to one of the earlier topics I mentioned, is that if the CAR T cells see that protein BCMA, they immediately destroy the cell that’s holding that. But what if the cell learns to turn off BCMA? All of a sudden, it’s invisible to the CAR T cells, and you’re right back to starting square one again. 

And so the idea is that there are CAR T cells that are being developed that target two proteins at once, kind of what’s called origating, where if it sees this or this, it’s immediately able to attach and bind that cell.  

The idea being that it’s easy for a myeloma cell – not easy. It’s possible for a myeloma cell, just by dumb luck, bad luck for the patient, to mutate in a way that shuts off that one protein. For it to simultaneously be able to do that for two separate proteins at once, the odds are much lower.  

And so the idea with dual targeting is you may be able to knock out more cells more durably, or even knock out the myeloma precursor cells that aren’t quite myeloma cells, but are there, what we call stem cells under the hood that are still malignant? So, a lot of those areas, I think, are really fascinating. Obviously, we need a lot more research in those particular areas before they’re ready for prime time.  

Katherine Banwell:

Patient participation is essential in advancing myeloma research. How do clinical trials impact care? 

Dr. Rahul Banerjee:

Absolutely. So, phenomenally and importantly, I think it’s a short answer. It’s worth noting that clinical trials come in all shapes and sizes. People often assume that clinical trial means, by default, a Phase I study, first time in human being, a quote-unquote “guinea pig.” That’s true for a minority of studies, and that’s very important for us to understand how best to make the drug work better. I would say the vast majority of trials that I put my patients on are not like that. They’re often bigger Phase II or Phase III studies. 

As an example, you know, both ide-cel (Abecma) and cilta-cel (Carvykti), those were already approved in later lines, but to get them approved in earlier lines, we had to run a study of using them earlier versus not using them earlier. So, that’s a good example where the drug is FDA-approved, it’s just the sequencing of it that’s new.  

There are trials of supportive care. We’ll be opening a study, I alluded to this, the side effects of GPRC5D targeted therapies with taquetamab (Talvey).  

We’ll be opening a study that randomizes patients to one of four different supportive care strategies to figure out which one actually works to make the taste issues better. Because we don’t know until we try, right? If we don’t do a rigorous study, and we just go by, “Oh, I had one patient once where this worked, and one patient once where this worked,” that’s not a scientific way of answering questions, and we’re not really able to advance the field to help all patients.  

So, that’s where I think clinical trials come in handy. That, and I alluded to all these newer investigational CAR T therapies that might actually work better and be safer than the existing one. They’re all coming through investigational trials.  

So, trials is kind of how we get these drugs, one, these newer ones to market, but also how we learn to make them better. And we have trials, all sorts of trials, looking at all sorts of, again, not just new drugs, but also where to put the drugs, right? Where to sequence the CAR T therapies, or what supportive care strategies do we use? And the trials are kind of the linchpin of making the field work better. Again, not just for some patients who happen to do well, but for all patients. The only reason we’ve found out what works for all patients is by doing clinical trials.   

Advances in CAR T-Cell Therapy Side Effect Management

Are there new ways to manage the potential side effects of CAR T-cell therapy? Dr. Rahul Banerjee, a myeloma specialist and researcher, reviews common side effects of this treatment option and discusses new ways that providers are approaching the management of both short-term and long-term issues. 

Dr. Rahul Banerjee is a physician and researcher specializing in multiple myeloma and an assistant professor in the Clinical Research Division at the University of Washington Fred Hutchinson Cancer Center in Seattle, WA. Learn more about Dr. Banerjee.

Download Resource Guide

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CAR T-Cell Therapy for Myeloma | Challenges and Unmet Needs

CAR T-Cell Therapy for Myeloma | Challenges and Unmet Needs

Myeloma Research | Updates in CAR T-Cell Therapy

Myeloma Research | Updates in CAR T-Cell Therapy

How Long Is CAR T-Cell Therapy Effective in Myeloma? An Expert Explains

How Long Is CAR T-Cell Therapy Effective in Myeloma? An Expert Explains

Transcript:

Katherine Banwell:

Well, let’s talk about side effects of CAR T-cell therapy. What advances are being made in managing them?  

Dr. Rahul Banerjee:

Excellent question. So, I break the toxicities into short-term and long-term toxicity of CAR T therapy.  

And this is actually fairly similar for both, regardless of the underlying disease, whereas lymphoma, leukemia, or myeloma, very similar. Just so everyone, just to reorient the audience, short-term toxicities, people often talk about the big two. I’m going to say the big three, actually. The first one is cytokine release syndrome, or CRS, which is inflammation, typically causing fever, sometimes low blood pressure. 

The second is neurotoxicity, or ICANS. For reasons that aren’t entirely understood, sometimes all those chemicals from inflammation can cause people to feel a bit off mentally or cognitively. Sometimes people might not be able to talk, or might not talk correctly, or sometimes have issues along those lines. 

And the third, I would say, is low blood counts or infections. Both the lymphoma, leukemia CAR Ts and the myeloma CAR Ts very rapidly deplete the good plasma cells or the good lymphocytes, the good cells in the bone marrow, and so immediately you see patients at risk of infections. 

And for a complicated number of reasons, one of which being cytokine release syndrome, CRS inflammation within the bone marrow, where all these cancer cells are hiding, the stem cells in the bone marrow hide away, right? They kind of go into a bunker to stay away from all of this. And so patients often have low blood counts for significant amounts of time after CAR T therapy, something called hematotoxicity. 

Those are short-term toxicities. Long-term, very briefly, that risk of infection and low blood counts is still there, I would say, for up to a year after CAR T therapy, sometimes longer for some patients. There is a risk, obviously, of the original cancer coming back, in this case the myeloma, particularly myeloma. 

And three, there are rare delayed toxicities to be on the lookout for. So, one of them, for example, with cilta-cel or Carvykti, the numbers are hard to see what the rate is prospectively because it’s been going down with time.  

But rarely, I would truly in my heart say 1 percent of the time, if not less, patients can get Parkinsonism, where they’re not able to move as rapidly, they’re not able to, they’re kind of shuffling gait, having tremors, et cetera. Not the same as normal Parkinson’s disease, because the normal meds don’t work, just time is often the only thing that really makes a big difference. 

Technically, there’s a box warning on all CAR T therapies now about a risk of second cancers. That risk is not new to anyone who’s ever received any treatment for myeloma because from the very beginning, we tell people that these drugs have been linked to a potential risk of second cancers in the future.  

In terms of strides that are being made to improve that, I think we’re making a lot of improvement. So, I think the biggest thing that we’ve learned, and I remember when I was a trainee, for example, when I was in my medical training, the early days of CAR T therapy – actually out in Philadelphia, I trained at Penn – and there, we were scared about trying to tone down the inflammation.  

When these side effects happen in the short term, the goal is if the patient’s obviously having side effects, and the question is, “Can we not kill the T cells? Can we just dial that down?” Say, “Look, I’m happy the T cells are angry. I’m happy they’re killing the cancer, the myeloma in this case. But can you just dial it down a little bit with a medication called tocilizumab (Actemra), or corticosteroids like dex?” 

We used to be very nervous about doing that because we said, look, the patient’s put all this blood, soil, sweat, and tears right into this CAR T therapy, and we don’t want to do anything that can hinder the T cells from working.  

Now we know that that level of inflammation is not doing anyone any favors at all, and so we’re able to really start these medications to just dial down the immune system faster. As soon as someone has a fever, for example, at many centers, we do consider, within an hour or two, giving one of those medications. Don’t wait till they’re in the ICU, give it then.  So, I think just tweaking our algorithms has made probably the biggest difference, in my mind, to make CAR T safer.  

Other things that have helped, I think, are better understanding of why patients have these other toxicities and strategies to prevent it. And so, for example, the neurotoxicity risk, some of it is part of disease burden. We think that patients who have a lot of disease going into CAR T therapy may have more toxicities. So, giving better treatments as, quote-unquote, “bridging treatment” before CAR T therapy that we have better, newer treatments now, have sometimes helped to really debulk the disease before going to CAR T.  

That’s helped a lot with side effect management. In terms of long-term risk, the third thing that I really encourage all my patients and all my oncologist partners in the community to really push for is the infection risk and how do we prevent it? So, I think probably the biggest thing that we’ve recognized is intravenous immunoglobulin, which is IVIg, which is basically an antibody transfusion.  

When people donate blood, they also donate plasma, often, and the plasma contains antibodies against whatever they themselves have fought off circulating in the area – viruses, colds, et cetera. 

You can take all those antibodies, put them all together into a sterile bag, and give it to the patient who’s gotten CAR T therapy. Because the patient’s gotten CAR T therapy, assuming it’s working, which it normally does for several months, right, to knock out all cells, good and bad immune cells, that patient is not making any antibodies at all. They’re a sitting duck for infections. And so I would say IVIg, using that routinely now is not just the exception once they’re having infections, but even in the absence of infections, just giving it.  

Insurance companies are not happy with me when I suggest that because it’s expensive, but that’s the right thing to do for patients, and I think that has helped a lot, in my experience, for all of these immunotherapies, both CAR T and bispecific antibodies, to lower the risk of infections. 

Myeloma CAR T-Cell Therapy | How Is Success Measured?

 

How do you know if CAR T-cell therapy is working? Dr. Rahul Banerjee, a myeloma specialist, discusses how a patient’s response to CAR T-cell therapy is monitored and the role of measurable residual disease (MRD) in patient care. 

Dr. Rahul Banerjee is a physician and researcher specializing in multiple myeloma and an assistant professor in the Clinical Research Division at the University of Washington Fred Hutchinson Cancer Center in Seattle, WA. Learn more about Dr. Rahul Banerjee.

Related Resources:

Advances in CAR T-Cell Therapy Side Effect Management

Advances in CAR T-Cell Therapy Side Effect Management

Myeloma Research | Updates in CAR T-Cell Therapy

Myeloma Research | Updates in CAR T-Cell Therapy

How Long Is CAR T-Cell Therapy Effective in Myeloma? An Expert Explains

How Long Is CAR T-Cell Therapy Effective in Myeloma? An Expert Explains

Transcript:

Katherine Banwell:

Well, how is success measured for CAR T-cell therapy? 

Dr. Rahul Banerjee:

It’s a great question. So, traditionally, the metric in multiple myeloma has been achieving a complete response. So, having the M-spike, the antibodies that are produced by the myeloma cells, come down to zero. 

So, either the M-spike, or for some patients, that may be the kappa or the lambda, which are fragments called light chains of antibodies, coming down to the normal range. The hard thing about those is that they take time. I’ve had patients who get CAR T therapy, and their bone marrow is completely clear, including MRD, measurable residual disease, as I’ll talk about in a second, but the M-spike takes months. 

I had one patient where it took a year and a half for the M-spike to finally come down to zero. And it’s frustrating because I would say that, look, in my heart, you’re in remission, but if I were a lawyer, I wouldn’t be able to say that, because technically the M-spike is not quite zero yet. Your body’s just recycling that antibody. It’s not all the way down to zero, and that makes things tough. So, I don’t think that’s a great barometer to use.  

I think MRD, which is again, a bone marrow test that we can spend more time talking about another day, is helpful. And at the one-month mark, achieving MRD negativity.  

So, if you look in the bone marrow, by all the best tests available in the United States in the year 2024, and you can’t even find one out of a million cells that are myeloma, that’s obviously great to see.  

That doesn’t mean that if it doesn’t happen, the patients are going to do poorly. There’s a lot more to CAR T than that. So, I think MRD negativity is probably the best short-term barometer. I think the best long-term barometer would be progression-free survival, which is, again, the medical word of saying how long is someone alive and in remission for. 

CAR T-Cell Therapy for Myeloma | Challenges and Unmet Needs

CAR T-cell therapy is transforming care for people with myeloma, but what are the challenges facing this treatment option? Dr. Rahul Banerjee, a myeloma specialist and researcher, discusses how access to CAR T-cell therapy as well as the timeline for the manufacturing process may impact patient care. 

Dr. Rahul Banerjee is a physician and researcher specializing in multiple myeloma and an assistant professor in the Clinical Research Division at the University of Washington Fred Hutchinson Cancer Center in Seattle, WA. Learn more about Dr. Rahul Banerjee.

Related Resources:

Advances in CAR T-Cell Therapy Side Effect Management

Advances in CAR T-Cell Therapy Side Effect Management

How Long Is CAR T-Cell Therapy Effective in Myeloma? An Expert Explains

How Long Is CAR T-Cell Therapy Effective in Myeloma? An Expert Explains

Will CAR T-Cell Therapy Be Approved for Earlier Lines of Myeloma Treatment

Will CAR T-Cell Therapy Be Approved for Earlier Lines of Myeloma Treatment? 

Transcript:

Katherine Banwell:

CAR T therapies have been in use for several years now. As a clinician, what challenges are you facing with this treatment option? 

Dr. Rahul Banerjee:

Absolutely. So, I would say threefold, is the best way to describe it. So, I think the first and most practical, like the most important one is obviously access. It’s very easy for me to talk about CAR T therapy. I had the privilege of working at a big center, where I was just last week attending on our CAR T service. We’re big enough to have a CAR T service. 

Most patients are treated in the community, and they don’t have access to a doctor who’s personally familiar with CAR T. And so for them to get to CAR T requires a move to a big academic center, a big tertiary care center. Obviously, I think this talk is geared more towards the U.S. audience, but most of the world has no access to CAR T, period, except for research protocols, and that makes things really tough. So, I think that’s one unmet need in general, where those patients who cannot get to CAR T never see me, and that’s a big disparity in the field.  

Two, I would say that the autologous CAR T products we have, autologous is the word that we use for the T cells that are coming from the patient themselves. Both ide-cel (Abecma) and cilta-cel (Carvykti), again, it’s the patient’s own cells that are being taken out, turned into CAR T cells, and put back. That manufacturing process takes time. Typically, I tell patients to expect about one to two months, closer to two months often, between the day that the T cells are taken out and the day they’re put back in again, what we often call the quote unquote “vein-to-vein interval.” And that’s hard because for some patients that’s not practical. 

The myeloma is, you know, so aggressive, behaving aggressively, that they cannot wait. There’s no drug I can give them where I can wait two months for the T cells to be manufactured. We’re getting better at it. The drug company is working better at it. There are a lot of investigational products that are not FDA approved yet that are looking at rapid manufacturing, where can you grow these T cells and the CAR T cells in two days or one day, instead of several weeks? I think that’s really interesting. 

There are studies of allogeneic CAR T cells, where the T cells are pre-manufactured from a healthy donor and manipulated so they won’t cause any other problems, but will attack the myeloma. So, a lot of research happening there, but that’s the problem for patients where they cannot get to CAR T therapy.  

And then the third unmet need would be – I’m seeing more of this, unfortunately, right? CAR T therapy is not considered curative for myeloma. Have I met people who are doing great years out from myeloma? Yes, from CAR T therapy, and I love that. In the original LEGEND-2 study, the study that led to the CARTITUDE-1 study that led to the approval of cilta-cel, which is Carvykti. 

If I recall correctly, about 20 percent of patients on that first Chinese study years ago are alive and disease-free five years later. That’s not enough, right? I don’t want it to be 20 percent, I want it to be 100 percent. And so we have work to be done there in terms of what do we do when the myeloma, the CAR T cells stop working, or they’re out of the system and are no longer there to fight back. What do we do next? And I think that’s another unmet need still.  

CAR T-Cell Therapy | Transforming Myeloma Patient Care

Dr. Rahul Banerjee, a myeloma specialist and researcher, describes how CAR T-cell therapy has revolutionized care for people with myeloma. Dr. Banerjee discusses recent advances in research, citing specific studies that are having an impact, and goes on to review the currently FDA-approved CAR T-cell therapies.

Dr. Rahul Banerjee is a physician and researcher specializing in multiple myeloma and an assistant professor in the Clinical Research Division at the University of Washington Fred Hutchinson Cancer Center in Seattle, WA. Learn more about Dr. Rahul Banerjee.

Related Resources:

Myeloma CAR T-Cell Therapy | How Is Success Measured?

Myeloma CAR T-Cell Therapy | How Is Success Measured?

Myeloma Research | Updates in CAR T-Cell Therapy

Myeloma Research | Updates in CAR T-Cell Therapy

Will CAR T-Cell Therapy Be Approved for Earlier Lines of Myeloma Treatment

Will CAR T-Cell Therapy Be Approved for Earlier Lines of Myeloma Treatment? 

Transcript:

Katherine Banwell:

We’ve been talking about CAR T-cell therapy for a number of years now. How has this treatment revolutionized care for patients? 

Dr. Rahul Banerjee:

Absolutely. So, the biggest benefit of CAR T therapy, I think, is how well it works. So, I’ll predominantly focus on multiple myeloma, but of course there are CAR T therapies that are approved for different kinds of lymphoma, and B-cell leukemia as well. But in brief, CAR T therapy, we train the immune system to fight back against the myeloma, against the cancer that’s there. And it’s phenomenal, because it’s the only living drug we have, really, in our toolbox. Everything else is dependent on the dose, right? As soon as the drug is out of your system, it stops working. CAR T cells don’t work that way. They can live and expand and proliferate to get rid of the threat within. 

And at least in myeloma, for example, CAR T therapies regularly have response rates, meaning complete response rates, how quickly they knock all the myeloma parameters down to zero basically in the 70, 80, 90 percent range. Many patients achieve measurable residual disease, or MRD negativity, meaning by all the best tools available in 2024, no sign of the myeloma anywhere.  

That doesn’t mean cure, to be fair, but that’s wonderful. With other conventional therapies, to have one drug with one infusion have that big of an impact on the myeloma is phenomenal.  

The other benefit of CAR T therapy is that it is a one-time infusion. It doesn’t mean that patients can get one-time CAR T and never have to see a cancer doctor again because again, at least in myeloma, I don’t consider CAR T to be uniformly curative for patients. However, if you look at the studies, and there’ve been two randomized studies in myeloma of CAR T therapy versus standard therapies. One was a KarMMa-3 trial with a drug called ide-cel, a CAR T drug also known as Abecma. And the other one was CARTITUDE-4, which was a study of cilta-cel versus standard treatment. And cilta-cel is a kind of CAR T also known as Carvykti.  

Both studies saw improvements, dramatic improvements in the response rate, how many patients had the myeloma numbers come down, but also durations of response and progression-free survival. How long patients were alive and disease-free for.  

Literally just a month ago, we found out officially that the cilta-cel trial and the CARTITUDE-4 study, CAR T actually prolonged overall survival compared to standard therapies, which is what patients are looking for.  

But for me, what I love about CAR T the most is not just that you’re in remission for longer, or with cilta-cel you live longer, but that you live better. Both studies, and I’m very happy to see this incorporated, what we call patient-reported outcomes, which is an area of research of mine. Patient-reported outcomes are, as you can imagine, outcomes that are reported by the patient. Not the blood test for the myeloma, but how are patients feeling in terms of their quality of life, in terms of their fatigue, in terms of their pain.  

And in both studies, off the charts. CAR T does way better and way faster in terms of improving quality of life than standard treatments, to the point where the studies, for example, often for both of them, if I recall correctly, the first time point where they looked and compared the two arms was three months after CAR T. And already by then, night and day difference.  

The patients who got CAR T, the first month a little bit rocky, but after the first month or two, they’re doing better, because they’re not on myeloma treatments continuously. They’re still getting blood work checked and so forth, but they’re not on treatment. It’s a one-time infusion and monitoring thereafter.  

And I love that about it, and I think that explains a lot of the quality of life benefits that we see.  

For my other patients with myeloma, outside of CAR T, there is never a scenario where they’re observed. The vast majority of patients because myeloma is considered incurable, we keep them on some form of maintenance treatment, and those come with side effects. Those come with financial toxicity. That’s the word we use for high out-of-pocket costs. They come with what I would call time toxicity. That’s time spent on the phone coordinating shipments or coming in for this infusion or that infusion. 

CAR T has much less of that, and I think that’s phenomenal. So, I would say that it’s revolutionized the field, not just scientifically from the things that you’d expect a researcher to care the most about – for how long, you know, how deep are their remissions and how durable are their remissions, but also for the things that I care about. The art of oncology is how our patients are living, and that’s why I think CAR T is revolutionary. 

Katherine Banwell:

Dr. Banerjee, would you walk us through the currently approved CAR T-cell therapies for myeloma and share how these treatments work to combat myeloma? 

Dr. Rahul Banerjee:

Absolutely so. So, there’s two FDA-approved CAR T therapies right now for multiple myeloma. One is ide-cel, also known as Abecma. One is cilta-cel, also known as Carvykti. The mechanics of them are pretty similar. Both involve T cells being collected from the patient and then turned into CAR T cells, cancer fighting cells in a lab, then put back into the patient after a small dose, what we call lympho-depleting chemotherapy, that creates a void and makes room for the T cells. 

And then the T cells come in and are able to activate and proliferate and respond and kill off the myeloma. In terms of the two drugs, the differences between them, we might come back to that a bit in terms of just how they’re approved. Cilta-cel is currently approved as early as first relapse. So, second line treatment onwards in myeloma for patients who have disease that is refractory to lenalidomide (Revlimid) or a similar class of drugs.  

So, lenalidomide is Revlimid. So, if someone’s been on Revlimid and it stopped working, they could technically go to cilta-cel, which is Carvykti, as soon as second line. 

Ide-cel or Abecma is approved for third line treatment, meaning at least two prior relapses or two types of therapy that were stopped unexpectedly because of not working or toxicities or so forth. And those patients would have had to have received both an iMiD, like Revlimid, which is lenalidomide, a proteasome inhibitor, which is like Velcade or bortezomib, and a CD38 directed monoclonal antibody like daratumumab, which is also called Darzalex or Darzalex Faspro. 

Evolve | What You Should Know About Advances in CAR T-Cell Therapy for Myeloma

How is CAR T-cell therapy revolutionizing care for people with myeloma? Dr. Rahul Banerjee, a myeloma expert and researcher, shares an overview of how CAR T-cell therapy is evolving, important factors to consider when choosing to undergo this treatment, and how advances in research are impacting myeloma care. 

Dr. Rahul Banerjee is a physician and researcher specializing in multiple myeloma and an assistant professor in the Clinical Research Division at the University of Washington Fred Hutchinson Cancer Center in Seattle, WA. Learn more about Dr. Banerjee.

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Related Resources:

How Can Myeloma Patients Access CAR T-Cell Therapy Clinical Trials?

How Can Myeloma Patients Access CAR T-Cell Therapy Clinical Trials?

Will CAR T-Cell Therapy Be Approved for Earlier Lines of Myeloma Treatment

Will CAR T-Cell Therapy Be Approved for Earlier Lines of Myeloma Treatment?

How Is CAR T-Cell Therapy Research Advancing Myeloma Care?

How Is CAR T-Cell Therapy Research Advancing Myeloma Care? 

Transcript:

Katherine Banwell:

Hello and welcome. I’m your host, Katherine Banwell. Today’s program is part of the Patient Empowerment Network’s Evolve series, which was developed to provide you with the latest treatment information and research, helping you to feel empowered and confident during conversations about your care. In today’s program, we’re going to hear from an expert in the field discussing CAR T-cell therapy and the evolving treatment landscape. 

Before before we get into the discussion, please remember that this program is not a substitute for medical advice. Please refer to your healthcare team about what might be best for you. Joining us today is Dr. Rahul Banerjee. Dr. Banerjee, it’s so good to see you. Welcome. Would you please introduce yourself? 

Dr. Rahul Banerjee:

Of course. Thank you, Katherine, for taking the time to interview me. Thank you to everyone who’s listening. My name is Dr. Rahul Banerjee. I’m an Assistant Professor of Medicine at the Fred Hutchinson Cancer Center in Seattle, Washington.  

I specialize in multiple myeloma, which is a form of blood cancer that we’ll talk about, and other precursor conditions, for example, smoldering myeloma and AL amyloidosis. I have a heavy interest in CAR T therapy and bispecific antibodies and other types of immunotherapy for blood cancers, and I’m sure we’ll be speaking about that as well. It’s great to be here. 

Katherine Banwell:

And thank you so much for taking time out of your busy day. I’d like to start by talking about your role as a researcher. You’re on the front lines for advancements in the myeloma field. What led you here, and why is it important to you? 

Dr. Rahul Banerjee:

Absolutely. So, the short answer is that I love the art and the science of oncology, of cancer care. I feel like it really gives us a great chance to work with patients and really help them through the difficult chapter of their life. And the science, particularly in malignant hematology, is a word we use for blood cancers like myeloma, lymphoma, et cetera. There’s a lot of fascinating science about how do we train the immune system to overcome cancers of immune cells? 

In terms of why myeloma, you’ll probably hear this from many physicians who speak on this program. Part of it is the patients, and I love treating my patients with myeloma. They have the most interesting stories for me. Many of them are older and have been through a lot, and I worked with them for years for diagnosing myeloma, treating them through myeloma, monitoring for relapses, and so forth. 

And also the mentors whom I had. So, when I was a trainee in fellowship, I was not sure where I would go. I knew it was somewhere within blood cancers, but I had a mentor, Dr. Nina Shah, who is phenomenal, and she did a lot of work in multiple myeloma in particular, including around CAR T therapy, and I kind of molded myself, imprinted myself on her. And now several years later, here I am kind of working in this similar space, focusing again at the intersection of multiple myeloma and these immunotherapies, like CAR T therapy. 

Katherine Banwell:

We’ve been talking about CAR T-cell therapy for a number of years now. How has this treatment revolutionized care for patients? 

Dr. Rahul Banerjee:

Absolutely. So, the biggest benefit of CAR T therapy, I think, is how well it works. So, I’ll predominantly focus on multiple myeloma, but of course there are CAR T therapies that are approved for different kinds of lymphoma, and B-cell leukemia as well. But in brief, CAR T therapy, we train the immune system to fight back against the myeloma, against the cancer that’s there. And it’s phenomenal, because it’s the only living drug we have, really, in our toolbox. Everything else is dependent on the dose, right? As soon as the drug is out of your system, it stops working. CAR T-cells don’t work that way. They can live and expand and proliferate to get rid of the threat within. 

And at least in myeloma, for example, CAR T therapies regularly have response rates, meaning complete response rates, how quickly they knock all the myeloma parameters down to zero basically in the 70, 80, 90 percent range. Many patients achieve measurable residual disease, or MRD negativity, meaning by all the best tools available in 2024, no sign of the myeloma anywhere.  

That doesn’t mean cure, to be fair, but that’s wonderful. With other conventional therapies, to have one drug with one infusion have that big of an impact on the myeloma is phenomenal.  

The other benefit of CAR T therapy is that it is a one-time infusion. It doesn’t mean that patients can get one-time CAR T and never have to see a cancer doctor again because again, at least in myeloma, I don’t consider CAR T to be uniformly curative for patients. However, if you look at the studies, and there’ve been two randomized studies in myeloma of CAR T therapy versus standard therapies. One was a KarMMa-3 trial with a drug called ide-cel, a CAR T drug also known as Abecma. And the other one was CARTITUDE-4, which was a study of cilta-cel versus standard treatment. And cilta-cel is a kind of CAR T also known as Carvykti.  

Both studies saw improvements, dramatic improvements in the response rate, how many patients had the myeloma numbers come down, but also durations of response and progression-free survival. How long patients were alive and disease-free for.  

Literally just a month ago, we found out officially that the cilta-cel trial and the CARTITUDE-4 study, CAR T actually prolonged overall survival compared to standard therapies, which is what patients are looking for.  

But for me, what I love about CAR T the most is not just that you’re in remission for longer, or with cilta-cel you live longer, but that you live better. Both studies, and I’m very happy to see this incorporated, what we call patient-reported outcomes, which is an area of research of mine. Patient-reported outcomes are, as you can imagine, outcomes that are reported by the patient. Not the blood test for the myeloma, but how are patients feeling in terms of their quality of life, in terms of their fatigue, in terms of their pain.  

And in both studies, off the charts. CAR T does way better and way faster in terms of improving quality of life than standard treatments, to the point where the studies, for example, often for both of them, if I recall correctly, the first time point where they looked and compared the two arms was three months after CAR T. And already by then, night and day difference.  

The patients who got CAR T, the first month a little bit rocky, but after the first month or two, they’re doing better, because they’re not on myeloma treatments continuously. They’re still getting blood work checked and so forth, but they’re not on treatment. It’s a one-time infusion and monitoring thereafter. 

And I love that about it, and I think that explains a lot of the quality of life benefits that we see.  

For my other patients with myeloma, outside of CAR T, there is never a scenario where they’re observed. The vast majority of patients because myeloma is considered incurable, we keep them on some form of maintenance treatment, and those come with side effects. Those come with financial toxicity. That’s the word we use for high out-of-pocket costs. They come with what I would call time toxicity. That’s time spent on the phone coordinating shipments or coming in for this infusion or that infusion. 

CAR T has much less of that, and I think that’s phenomenal. So, I would say that it’s revolutionized the field, not just scientifically from the things that you’d expect a researcher to care the most about – for how long, you know, how deep are their remissions and how durable are their remissions, but also for the things that I care about. The art of oncology is how our patients are living, and that’s why I think CAR T is revolutionary. 

Katherine Banwell:

Dr. Banerjee, would you walk us through the currently approved CAR T-cell therapies for myeloma and share how these treatments work to combat myeloma? 

Dr. Rahul Banerjee:

Absolutely so. So, there’s two FDA-approved CAR T therapies right now for multiple myeloma. One is ide-cel, also known as Abecma. One is cilta-cel, also known as Carvykti. The mechanics of them are pretty similar. Both involve T-cells being collected from the patient and then turned into CAR T-cells, cancer fighting cells in a lab, then put back into the patient after a small dose, what we call lympho-depleting chemotherapy, that creates a void and makes room for the T cells. 

And then the T cells come in and are able to activate and proliferate and respond and kill off the myeloma. In terms of the two drugs, the differences between them, we might come back to that a bit in terms of just how they’re approved. Cilta-cel is currently approved as early as first relapse. So, second line treatment onwards in myeloma for patients who have disease that is refractory to lenalidomide (Revlimid) or a similar class of drugs.  

So, lenalidomide is Revlimid. So, if someone’s been on Revlimid and it stopped working, they could technically go to cilta-cel, which is Carvykti, as soon as second line. 

Ide-cel or Abecma is approved for third line treatment, meaning at least two prior relapses or two types of therapy that were stopped unexpectedly because of not working or toxicities or so forth. And those patients would have had to have received both an iMiD, like Revlimid, which is lenalidomide, a proteasome inhibitor, which is like Velcade or bortezomib, and a CD38 directed monoclonal antibody like daratumumab, which is also called Darzalex or Darzalex Faspro.   

Katherine Banwell:

CAR T therapies have been in use for several years now. As a clinician, what challenges are you facing with this treatment option? 

Dr. Rahul Banerjee:

Absolutely. So, I would say threefold, is the best way to describe it. So, I think the first and most practical, like the most important one is obviously access. It’s very easy for me to talk about CAR T therapy. I had the privilege of working at a big center, where I was just last week attending on our CAR T service. We’re big enough to have a CAR T service. 

Most patients are treated in the community, and they don’t have access to a doctor who’s personally familiar with CAR T. And so for them to get to CAR T requires a move to a big academic center, a big tertiary care center. Obviously, I think this talk is geared more towards the U.S. audience, but most of the world has no access to CAR T, period, except for research protocols, and that makes things really tough. So, I think that’s one unmet need in general, where those patients who cannot get to CAR T never see me, and that’s a big disparity in the field.  

Two, I would say that the autologous CAR T products we have, autologous is the word that we use for the T cells that are coming from the patient themselves. Both Abecma and Carvykti, again, it’s the patient’s own cells that are being taken out, turned into CAR  
T cells, and put back. That manufacturing process takes time. Typically, I tell patients to expect about one to two months, closer to two months often, between the day that the T cells are taken out and the day they’re put back in again, what we often call the quote unquote “vein-to-vein interval.” And that’s hard because for some patients that’s not practical. 

The myeloma is, you know, so aggressive, behaving aggressively, that they cannot wait. There’s no drug I can give them where I can wait two months for the T cells to be manufactured. We’re getting better at it. The drug company is working better at it. There are a lot of investigational products that are not FDA approved yet that are looking at rapid manufacturing, where can you grow these  
T cells and the CAR T cells in two days or one day, instead of several weeks? I think that’s really interesting. 

There are studies of allogeneic CAR T cells, where the T cells are pre-manufactured from a healthy donor and manipulated so they won’t cause any other problems, but will attack the myeloma. So, a lot of research happening there, but that’s the problem for patients where they cannot get to CAR T therapy.  

And then the third unmet need would be – I’m seeing more of this, unfortunately, right? CAR T therapy is not considered curative for myeloma. Have I met people who are doing great years out from myeloma? Yes, from CAR T therapy, and I love that. In the original LEGEND-2 study, the study that led to the CARTITUDE-1 study that led to the approval of cilta-cel, which is Carvykti. 

If I recall correctly, about 20 percent of patients on that first Chinese study years ago are alive and disease-free five years later. That’s not enough, right? I don’t want it to be 20 percent, I want it to be 100 percent. And so we have work to be done there in terms of what do we do when the myeloma, the CAR T cells stop working, or they’re out of the system and are no longer there to fight back. What do we do next? And I think that’s another unmet need still. Despite all the advances, what to do after CAR T, no one really knows. 

Katherine Banwell:

Yes. Well, how is success measured for CAR T-cell therapy? 

Dr. Rahul Banerjee:

It’s a great question. So, traditionally, the metric in multiple myeloma has been achieving a complete response. So, having the M-spike, the antibodies that are produced by the myeloma cells, come down to zero.  

So, either the M-spike, or for some patients, that may be the kappa or the lambda, which are fragments called light chains of antibodies, coming down to the normal range. The hard thing about those is that they take time. I’ve had patients who get CAR T therapy, and their bone marrow is completely clear, including MRD, measurable residual disease, as I’ll talk about in a second, but the M-spike takes months. 

I had one patient where it took a year and a half for the M-spike to finally come down to zero. And it’s frustrating because I would say that, look, in my heart, you’re in remission, but if I were a lawyer, I wouldn’t be able to say that, because technically the M-spike is not quite zero yet. Your body’s just recycling that antibody. It’s not all the way down to zero, and that makes things tough. So, I don’t think that’s a great barometer to use.  

I think MRD, which is again, a bone marrow test that we can spend more time talking about another day, is helpful. And at the one-month mark, achieving MRD negativity.  

So, if you look in the bone marrow, by all the best tests available in the United States in the year 2024, and you can’t even find one out of a million cells that are myeloma, that’s obviously great to see.  

That doesn’t mean that if it doesn’t happen, the patients are going to do poorly. There’s a lot more to CAR T than that. So, I think MRD negativity is probably the best short-term barometer. I think the best long-term barometer would be progression-free survival, which is, again, the medical word of saying how long is someone alive and in remission for. 

With cilta-cel, which is Carvykti, again, in the CARTITUDE-1 study, which led to its approval, its first approval for four prior lines of therapy. There, most patients, the median progression-free survival was 35 months. So, almost three years. That’s amazing, right? Three years of mileage of coming in for blood work, some supportive care, IVIG, which is a type of antibody transfusion, but not needing myeloma treatment. That’s great. That’s the bar that we’d be looking for from an efficacy perspective. I think the other thing, just to talk about it, I’m sure we’ll come back to it, would be safety, right? Because these cells, these therapies do come with side effects.  

And so I think the other bar by which, in the future, I may compare CAR T therapies as more come to market, would not just be this progression-free survival, which is how long are patients in remission for and disease-free and alive. Not just MRD negativity, which is how the bone marrow biopsy looks at day 28, one month after CAR T. But also the safety profile. Are we seeing any scary, concerning, delayed toxicities? And if we don’t, that would be another bar for success in my mind, especially as we move CAR T to earlier lines, where other treatments are available. 

We have to make sure that the benefit-risk ratio for CAR T remains favorable. 

Katherine Banwell:

Yes. Well, let’s talk about side effects of CAR T-cell therapy. What advances are being made in managing them? 

Dr. Rahul Banerjee:

Excellent question. So, I break the toxicities into short-term and long-term toxicity of CAR T therapy. And this is actually fairly similar for both, regardless of the underlying disease, whereas lymphoma, leukemia, or myeloma, very similar. Just so everyone, just to reorient the audience, short-term toxicities, people often talk about the big two. I’m going to say the big three, actually. The first one is cytokine release syndrome, or CRS, which is inflammation, typically causing fever, sometimes low blood pressure. 

The second is neurotoxicity, or ICANS. For reasons that aren’t entirely understood, sometimes all those chemicals from inflammation can cause people to feel a bit off mentally or cognitively. Sometimes people might not be able to talk, or might not talk correctly, or sometimes have issues along those lines. 

And the third, I would say, is low blood counts or infections. Both the lymphoma, leukemia CAR Ts and the myeloma CAR Ts very rapidly deplete the good plasma cells or the good lymphocytes, the good cells in the bone marrow, and so immediately you see patients at risk of infections. 

And for a complicated number of reasons, one of which being cytokine release syndrome, CRS inflammation within the bone marrow, where all these cancer cells are hiding, the stem cells in the bone marrow hide away, right? They kind of go into a bunker to stay away from all of this. And so patients often have low blood counts for significant amounts of time after CAR T therapy, something called hematotoxicity. 

Those are short-term toxicities. Long-term, very briefly, that risk of infection and low blood counts is still there, I would say, for up to a year after CAR T therapy, sometimes longer for some patients. There is a risk, obviously, of the original cancer coming back, in this case the myeloma, particularly myeloma.  

And three, there are rare delayed toxicities to be on the lookout for. So, one of them, for example, with cilta-cel or Carvykti, the numbers are hard to see what the rate is prospectively because it’s been going down with time.  

But rarely, I would truly in my heart say 1 percent of the time, if not less, patients can get Parkinsonism, where they’re not able to move as rapidly, they’re not able to, they’re kind of shuffling gait, having tremors, et cetera. Not the same as normal Parkinson’s disease, because the normal meds don’t work, just time is often the only thing that really makes a big difference. 

Technically, there’s a box warning on all CAR T therapies now about a risk of second cancers. That risk is not new to anyone who’s ever received any treatment for myeloma because from the very beginning, we tell people that these drugs have been linked to a potential risk of second cancers in the future.  

In terms of strides that are being made to improve that, I think we’re making a lot of improvement. So, I think the biggest thing that we’ve learned, and I remember when I was a trainee, for example, when I was in my medical training, the early days of CAR T therapy – actually out in Philadelphia, I trained at Penn – and there, we were scared about trying to tone down the inflammation.  

When these side effects happen in the short term, the goal is if the patient’s obviously having side effects, and the question is, “Can we not kill the T cells? Can we just dial that down?” Say, “Look, I’m happy the T cells are angry. I’m happy they’re killing the cancer, the myeloma in this case. But can you just dial it down a little bit with a medication called tocilizumab (Actemra), or corticosteroids like dex?” 

We used to be very nervous about doing that because we said, look, the patient’s put all this blood, soil, sweat, and tears right into this CAR T therapy, and we don’t want to do anything that can hinder the T cells from working.  

Now we know that that level of inflammation is not doing anyone any favors at all, and so we’re able to really start these medications to just dial down the immune system faster. As soon as someone has a fever, for example, at many centers, we do consider, within an hour or two, giving one of those medications. Don’t wait till they’re in the ICU, give it then.  So, I think just tweaking our algorithms has made probably the biggest difference, in my mind, to make CAR T safer.  

Other things that have helped, I think, are better understanding of why patients have these other toxicities and strategies to prevent it. And so, for example, the neurotoxicity risk, some of it is part of disease burden. We think that patients who have a lot of disease going into CAR T therapy may have more toxicities. So, giving better treatments as, quote-unquote, “bridging treatment” before CAR T therapy that we have better, newer treatments now, have sometimes helped to really debulk the disease before going to  
CAR T.  

That’s helped a lot with side effect management. In terms of long-term risk, the third thing that I really encourage all my patients and all my oncologist partners in the community to really push for is the infection risk and how do we prevent it? So, I think probably the biggest thing that we’ve recognized is intravenous immunoglobulin, which is IVIg, which is basically an antibody transfusion.  

When people donate blood, they also donate plasma, often, and the plasma contains antibodies against whatever they themselves have fought off circulating in the area – viruses, colds, et cetera. 

You can take all those antibodies, put them all together into a sterile bag, and give it to the patient who’s gotten CAR T therapy. Because the patient’s gotten CAR T therapy, assuming it’s working, which it normally does for several months, right, to knock out all cells, good and bad immune cells, that patient is not making any antibodies at all. They’re a sitting duck for infections. And so I would say IVIg, using that routinely now is not just the exception once they’re having infections, but even in the absence of infections, just giving it.  

Insurance companies are not happy with me when I suggest that because it’s expensive, but that’s the right thing to do for patients, and I think that has helped a lot, in my experience, for all of these immunotherapies, both CAR T and bispecific antibodies, to lower the risk of infections.  

Katherine Banwell:

Can you share any updates in CAR T-cell therapy research? 

Dr. Rahul Banerjee:

Sure. So, several. I would say the first, I alluded to very briefly earlier, was how do we make that vein-to-vein time shorter? So, the vein-to-vein is, again, from the moment that the T cells are collected to when they’re put back into the patient.  

And so a lot of research is how do we make that better? We have rapid manufacturing protocols that, again, where the T cells are taken out and manufactured within a couple of days and brought back into the patient. They’re still testing for safety and sterility and everything that needs to be done, so it’s not overnight, but still, one or two weeks’ worth of vein-to-vein time is way better than one to two months.  

The allogeneic CAR T cells that are coming from a healthy donor, those are fascinating, right? Because if the cells are pre-manufactured, there’s no risk of them not manufacturing or manufacturing in an odd manner, what we call auto-specification. They’re ready from a healthy donor, ready to go. 

And one of the studies that was presented last month at our International Myeloma Society meeting in Brazil, the time, the median time from when the patient went on the study to when they started that lympho-depleting pre-CAR T therapy was one day, and that means they got CAR T therapy within one week of going on the study. That’s phenomenal. And so I think that research is ongoing.  

There are some side effects about allogeneic, healthy donor CAR  T-cells in terms of making sure the T cells stick around and don’t cause other issues. Sorry, for another day. I think that’s one area of research.  

I think the other big area of research is how do we make CAR T-cells work for longer for more people? There are easy ways, and there are controversial ways to do that. So, I think the easy way is can we use MRD negativity or other tests to identify who is at very low risk of relapse and monitoring them appropriately.  

There are patients where, in the future, we may talk about doing some form of post-CAR T maintenance therapy. Again, the bar for that should be set pretty high, and it is set pretty high because as I mentioned earlier, many patients prefer CAR T therapy, not just because of the deeper remissions and longer remissions, but because it truly is time away from treatment. But they’re still coming in for the IVIg and the blood work and seeing a doctor, et cetera, but they’re not getting daily treatment with lenalidomide, which is Revlimid, or pomalidomide, or Pomalyst, or something like that. And that’s wonderful. 

However, there may be some patients where some form of strategy will use one of those medications or experimental medications. There’s a newer class of the lenalidomide, Revlimid, pomalidomide, Pomalyst called CELMoDs.  

They’re not approved yet, but drugs like iberdomide or mezigdomide that work better, and not just against the myeloma. They actually make T cells stronger, believe it or not. 

And so in the future, there may be scenarios where we recommend for certain patients that, hey, in your particular case, after CAR T therapy, to keep the myeloma away, I’d recommend using this form of maintenance, a pill or something like that, just low dose to, again, keep the myeloma at bay and keep the T cells, in this case, the CAR T cells strong. So, I think those are all areas of exciting research.  

And then the last thing I would say is, we have several novel CAR T therapies that are being studied that may work better and safer than the existing products. Some of them, which are in early phase studies, actually target two proteins at once. The idea, going back to one of the earlier topics I mentioned, is that if the CAR T cells see that protein BCMA, they immediately destroy the cell that’s holding that. But what if the cell learns to turn off BCMA? All of a sudden, it’s invisible to the CAR T cells, and you’re right back to starting square one again. 

And so the idea is that there are CAR T cells that are being developed that target two proteins at once, kind of what’s called origating, where if it sees this or this, it’s immediately able to attach and bind that cell.  

The idea being that it’s easy for a myeloma cell – not easy. It’s possible for a myeloma cell, just by dumb luck, bad luck for the patient, to mutate in a way that shuts off that one protein. For it to simultaneously be able to do that for two separate proteins at once, the odds are much lower.  

And so the idea with dual targeting is you may be able to knock out more cells more durably, or even knock out the myeloma precursor cells that aren’t quite myeloma cells, but are there, what we call stem cells under the hood that are still malignant? So, a lot of those areas, I think, are really fascinating. Obviously, we need a lot more research in those particular areas before they’re ready for prime time. 

Katherine Banwell:

Yes. What is GPRC5D? 

Dr. Rahul Banerjee:

Great. Yes, so it’s a mouthful, is the best way to describe it. It’s an interesting protein. It’s a protein that, I alluded to that, it’s a second target that’s being targeted by some CAR T cells, for example, either in addition to BCMA or by itself. Several companies are looking at that in trials.  

GPRC5D is interesting because we don’t know what it’s for. BCMA, we know exactly what it’s for and why good and bad plasma cells, again, the bad plasma cells being the myeloma, why they express it. No one knows for GPRC5D.  

In the field, we’ve put almost all of our myeloma eggs into the BCMA basket, historically speaking, and all the approved immunotherapies, CAR T and bispecifics in myeloma, with one exception, which is talquetamab or TALVEY, all target BCMA. So, we need to not put all our eggs in that basket. And so GPRC5D targeted therapies, again, there was one approved bispecific antibody, which was not the focus of today’s talk, called talquetamab or TALVEY.   

There are investigational CAR T products that target GPRC5D as well. At least from the limited experience that we have, there seems to be no correlation between them.  

In the future, do we know that someone needs to get BCMA therapy first and then GPRC5D therapy later? We don’t know that, actually, and that’s one of our areas of research and one of my areas of research as well. What if we do it the other way around, right? What if we give GPRC5D first and then do BCMA? We don’t know. 

So, I think one of the big questions in the field is sequencing, which is the word of like, what drug do we use first and when? We’re working on a paper, the International Myeloma Working Group is working on a big, extensive paper to try to put all the evidence together, but that’ll be a moving target.  

Katherine Banwell:

Yes. Patient participation is essential in advancing myeloma research. How do clinical trials impact care? 

Dr. Rahul Banerjee:

Absolutely. So, phenomenally and importantly, I think it’s a short answer. It’s worth noting that clinical trials come in all shapes and sizes. People often assume that clinical trial means, by default, a Phase I study, first time in human being, a quote-unquote “guinea pig.” That’s true for a minority of studies, and that’s very important for us to understand how best to make the drug work better. I would say the vast majority of trials that I put my patients on are not like that. They’re often bigger Phase II or Phase III studies. 

As an example, you know, both Abecma and Carvykti, those were already approved in later lines, but to get them approved in earlier lines, we had to run a study of using them earlier versus not using them earlier. So, that’s a good example where the drug is FDA-approved, it’s just the sequencing of it that’s new.  

There are trials of supportive care. We’ll be opening a study, I alluded to this, the side effects of GPRC5D targeted therapies with taquetamab. We’ll be opening a study that randomizes patients to one of four different supportive care strategies to figure out which one actually works to make the taste issues better. Because we don’t know until we try, right? If we don’t do a rigorous study, and we just go by, “Oh, I had one patient once where this worked, and one patient once where this worked,” that’s not a scientific way of answering questions, and we’re not really able to advance the field to help all patients.  

So, that’s where I think clinical trials come in handy. That, and I alluded to all these newer investigational CAR T therapies that might actually work better and be safer than the existing one. They’re all coming through investigational trials.  

So, trials is kind of how we get these drugs, one, these newer ones to market, but also how we learn to make them better. And we have trials, all sorts of trials, looking at all sorts of, again, not just new drugs, but also where to put the drugs, right? Where to sequence the CAR T therapies, or what supportive care strategies do we use? And the trials are kind of the linchpin of making the field work better. Again, not just for some patients who happen to do well, but for all patients. The only reason we’ve found out what works for all patients is by doing clinical trials.  

Katherine Banwell:

I’d like to get to a few questions that we received from our audience members prior to the program.  

Dr. Rahul Banerjee:

Yes, of course. 

Katherine Banwell:

This one is from Jennifer. Why do CAR T-cell transplants not last longer? Is it possible to do a second transplant if the first CAR T transplant stops working?  

Dr. Rahul Banerjee:

It’s a great question. So, it’s an excellent question. So, the only thing I would say semantically is, right, in my head, CAR T cells are not transplants per se, because I’m not changing the bone marrow. So, I would transplant a stem cell transplantation, separate from CAR T.   

Why do CAR T cells stop working? So, the short answer is we can speculate. We don’t know for sure for any individual patient. Three different buckets are involved. Three different things can happen. One, the T cells can stop working or disappear from circulation. So, that’s possible. CAR T cells don’t last forever. That’s actually okay, right? People often wonder like, “Man, I wish the CAR  
T cells could last forever.” I don’t know that I’d want that because as I alluded to, for as long as the CAR T cells are there, patients are immunocompromised, and so that can certainly interfere with the quality of life.  

So, it’s not necessarily true that the CAR T cells need to be there forever, but if they’re not there, or if they’re exhausted, which is actually a true scientific word for them not being able to activate and kill that cell when they recognized a protein, the BCMA, that’s one problem.  

The second problem is the myeloma cells can mutate. I alluded to this briefly earlier, where the cells can learn to shut off the protein, BCMA, or they can mutate the protein in just a way that the CAR T is no longer able to bind.  

And the third is something called the tumor microenvironment. And this is a little bit more complicated, kind of a grab bag of different things here. The idea is that myeloma cells have a lot of tricks, and they can use all of the cells around them to make it hard for the CAR T cells to get in, to get into the bone marrow and kill them all. And the T cells can be shut off before they even get there.  

So, it’s one of those three things in general. Which one is it for an individual patient? Hard to say. And so hopefully in the future, we’ll have better diagnostic tests to be able to identify who is a patient where another BCMA targeted therapy would work well versus, “Oh no, these myeloma cells are no longer expressing BCMA, let’s move on to a different target like GPRC5D.” We’re not there yet. We’ll get there hopefully in a couple of years, is my goal.  

Then, you know, Jennifer, that’s a good question. Well, can we do a second CAR T? And that’s very practical. What I would say is if the first CAR T therapy did what we expected it to do, if it lasted for as many years as I would expect for Abecma, that’s typically 12 to 18 months. For Carvykti, that’s typically over 24 months.  

If it worked and then it stopped working, and then probably the T-cells are long gone, it’s reasonable to try CAR T therapy again. In general, I would recommend, I strongly recommend a different CAR T-cell therapy, even if it’s targeting the same class, like BCMA, it’s going from Abecma to Carvykti or vice versa. 

The risk with giving the same CAR T-cell product again is that even though the T cells are a patient’s own T cells, the protein is slightly foreign. Abecma was derived from decades of mouse research. Carvykti was made from decades of llama research, believe it or not. Again, there’s no mouse or llama involved with the actual products nowadays, but in making the sequence years ago that came to them, they are foreign. There are foreign sequences on them, and so everyone’s host immune system eventually recognizes these cells as foreign.  

And so if you were to give the exact same product again, immediately the body would reject it the second time around, because it recognizes them and has learned to recognize it as foreign. But changing to a different CAR T cell is very reasonable. 

And again, for these newer GPRC5D targeted CAR T cells that, again, don’t target BCMA the way that Abecma, ide-cel or cilta-cel, Carvykti do, but target a different protein entirely, for those patients generally there’s no restriction on whether they’d received a prior CAR T cells. Ideally, it should be at least several months away, at least like a year or so, but if that’s happened and they stopped working, very reasonable. In fact, some of the trials actually require that patients going on to the study of a GPRC5D product have had a prior BCMA therapy of some sort before, and so they’re kind of built into the architecture of things. So, I think it’s very reasonable.  

Obviously, there are some unknown unknowns, right? What do you do if the T cells are being manipulated twice, so to speak. Patients ask me about that. I will say just to put that fear to rest, in general, by the time that someone’s had myeloma come back after the first CAR T cells, I alluded to this, the CAR T cells are long gone. So, there’s nothing left. But again, every case is different, and future research will help us kind of figure out how best to do this. 

Katherine Banwell:

Yes. We have one more question from Rita. She wants to know if there is an age limit on CAR T-cell therapy. 

Dr. Rahul Banerjee:

It’s a brilliant question. So, in brief, no. It’s a short answer. My oldest patient who got the CAR T is in their 80s and handled it across all my years at UCSF and here at Fred Hutch. More important than chronological age is physiologic age in terms of how robust they are, how robust they feel in terms of going through this. What I recommend, I’ve heard of centers that do CAR T therapy for patients in their 90s, for example. So, I think it’s not so much age, it’s how fit they are. 

Fit is easy for me to say. What does that actually mean? Typically it’s a combination of, you know, like cognitively, how are people doing? Because obviously if someone has baseline dementia, which is pretty uncommon, for example, maybe CAR T is not the best use of their time. The biggest thing that I think gets some of my older patients in trouble is frailty.  

So, just not being as fit as they were before in terms of muscle strength, being able to move around quickly, and so forth, or cardiovascular issues. Because it’s worth noting that with CAR T therapies that we have now, probably 60, 70 percent of patients will get CRS, cytokine release syndrome. So, that’s fevers and low blood pressure, that’s what I said earlier.  

But if you think about it, a fever of 104 degrees Fahrenheit, your heart rate’s going to be like 130, 140 beats per minute, beating very fast for several hours, sometimes longer than that. If you’re having low blood pressure, it’s your heart that has to push blood to overcome that low blood pressure. Can someone’s heart handle that level of stress? As people get older, that obviously gets harder.  

So, if someone is already just 75 and were being considered for CAR T therapy, certainly I think it’s very reasonable to talk about it. I would ask someone where I may have them meet with a cardiologist beforehand, possibly a geriatrician as well beforehand, just to see how can we optimize their health to make CAR T as safe as possible for them? So, it’s definitely possible. 

Katherine Banwell:

Well, thank you for that, Dr. Banerjee. And those were all great questions. If you have more as part of the audience, please continue to send them to question@powerfulpatients.org, and we’ll work to get them answered on future programs.  

Dr. Rahul Banerjee:

Absolutely. 

Katherine Banwell:

Well, Dr. Banerjee, we learned that the field of myeloma care and CAR T-cell therapy is advancing quickly. As we close out the program, what are you excited about? Why are you hopeful? 

Dr. Rahul Banerjee:

Absolutely. So, I think I’m excited because, especially for CAR T therapy in particular, at our center, for example, we used to only be able to do like one or two patients per month. It was a very steady, low stream, because there were a lot of issues with manufacturing, and it was during the COVID pandemic, and there were supply chain issues, et cetera. 

And there were studies, and I remember them, very dark studies in 2021, 2022 even, that patients were more likely to die on the  
CAR T waitlist than they were to actually get CAR T therapy. That’s terrible. And we’ve come a long way since there, where our capacity, every year we’re doing more and more patients to CAR T therapy per month, which is wonderful. 

And so what I would say is that makes me hopeful, right? Because CAR T therapy, I’m not saying that everyone is required to get CAR T therapy. I have plenty of patients who hear about it and are like, oh, no thanks. I’d rather stay with what I’m getting right now with my local oncologist. And that’s okay, but I want it to be an option for as many patients as possible, and I think we’re making strides there. 

And so I think what I would say, the kind of closing words here is, we only can get you CAR T therapy if we know about your case and if you know about us. And so what I would say, I’m sure to people listening to this, you’re very motivated. And so you know the importance of having a myeloma specialist in your field. 

What I would say is my patients who do the best are the ones who are co-managed. They have a doc out in the community. I have patients from Idaho, Montana, Alaska, Eastern Washington, et cetera. They have an oncologist who knows them well, who knows their community well, easy to get to, can handle everything. They’re a jack of all trades and very good at it. And then they have me, who they see periodically for CAR T evaluation, just discussions about CAR T by telehealth, something along those lines. 

And I’m able to talk about CAR T therapy in detail and answer their questions. And so what I would say is, I’m hopeful that that trend will continue, and that if someone’s even interested in hearing about CAR T therapy, they don’t meet me for the first time when they actually need CAR T therapy right then and there. They meet me years beforehand to just talk about CAR T, so they know it’s an option for them. 

And that time – because we don’t have as long of a wait list as we do, and we used to do, if and when the time comes that we all talk, me, the patient, the caregiver, and the primary oncologist, and say, “Look, I think now is time,” we’re able to make it happen. 

Katherine Banwell:

Yes. That’s a promising outlook to leave our audience with, Dr. Banerjee. Thank you so much for joining us today. 

Dr. Rahul Banerjee:

Absolutely. The pleasure was all mine. Looking forward to seeing many of you on a future episode of this. 

Katherine Banwell:

And thank you to all of our collaborators. To learn more about CAR T-cell therapy and to access tools to help you become a proactive patient, visit powerfulpatients.org.  

I’m Katherine Banwell.

Thanks so much for being with us today.  

Understanding Oncogene-Driven Lung Cancer: Targeted Therapy Advances and Challenges 

Understanding Oncogene-Driven Lung Cancer: Targeted Therapy Advances and Challenges from Patient Empowerment Network on Vimeo.

How do the genetic mutations of EGFR and exon 20 impact lung cancer? Expert Dr. Christina Baik from Fred Hutchinson Cancer Center discusses oncogene-driven lung cancer and how it differs from other lung cancer types.

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Transcript:

Lisa Hatfield:

What exactly is oncogene-driven lung cancer, and how does it differ from the other types of lung cancer?

Dr. Christina Baik:

So in lung cancer, there are certain lung cancers where the growth of the cancer is dependent on a particular genetic abnormality. So there is one gene that makes that cancer grow. And because of that, there have been treatments that are developed against that particular genetic abnormality.  So, it is referring to lung cancers that have that particular genetic abnormality. A prime example of this is lung cancers that have what we call an EGFR mutation.

That means that there is this gene called EGFR that is abnormal, and that’s making the cancer grow. Now, not everyone has a cancer gene that is driving that cancer. I would say about 30 percent or for 30 percent to 40 percent of patients would have an oncogene-driven cancer for which there may be treatments either as a standard treatment or in clinical trials. But the majority of patients do not have an oncogene, meaning that genetic abnormality where there is a targeted therapy option. So that’s the distinction we make. And I know this term or phrase is used a lot, but that’s what it means. And if you want to know if one has an oncogene-driven lung cancer, you would know based on the genetic test results.

Lisa Hatfield:

Okay. Great. Thank you. And just for clarification too, the genetic mutations are found in the cancer cells, not in their body, the cells? So that’s what the genetic testing is done just on the cancer cells. Is that correct?

Dr. Christina Baik:  

Yes. Yes.

Lisa Hatfield:

Okay, great.

Dr. Christina Baik:

Thank you for clarifying that. That’s a very important distinction.

Lisa Hatfield:

Yeah. Thank you. So that leads right into the next question, and it’s kind of a lengthy question. And this person is asking, “Dr. Baik, you have done considerable research around EGFR exon 20 insertion mutations in non-small cell lung cancer, considering their association with poor survival outcomes, what are the survival implications of having EGFR exon 20 insertion mutations compared to other types of EGFR mutations?”

Dr. Christina Baik:

Now this gets a bit complicated, but not all EGFR lung cancers are the same. And there are patients who have what we call EGFR mutation that is a classical mutation. And I throw out that term, because that’s how it’s written on the Internet and a lot of papers. And then, so that’s one group, and the other group are patients who have this exon 20 insertion mutation. And the reason these are separated is because the treatments that work very well in the classical mutations do not work very well in this particular exon 20 mutation.

So when we look at all patients with EGFR mutation, it is true that the prognosis is poor in exon 20 patients just because there are no great targeted therapy options. That said, I am very hopeful that this is changing. There are a number of targeted therapies for exon 20 that are in trials, and I think these are going to be FDA-approved in the future, not too far off in the future, I believe. So I think the survival implications will start to hopefully equalize amongst all the EGFR-mutated lung cancer patients.


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Newly Diagnosed Non-Small Cell Lung Cancer | Key Advice for Patients

Newly Diagnosed Non-Small Cell Lung Cancer | Key Advice for Patients from Patient Empowerment Network on Vimeo.

What’s key advice for newly diagnosed non-small cell lung cancer (NSCLC) patients? Expert Dr. Christina Baik from Fred Hutchinson Cancer Center discusses genetic testing, essentials to know about your lung cancer, and patient tips to ensure your best care.

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Transcript:

Lisa Hatfield:

When a patient is diagnosed with non-small cell lung cancer, is genetic testing always done on the tumor, or do patients know what their mutations are right upon diagnosis if testing is done?

Dr. Christina Baik:

So, as a rule of thumb, they should, all patients should be tested, and there are exceptions. So, for example, in lung cancer, there’s the type that we call small cell lung cancer, and there’s non-small cell lung cancer. So we often, we usually do not do genetic testing on small cell lung cancer, because often these tumors do not have a genetic abnormality that for which we can actually give treatment for. But for non-small cell patients, I would say, if most, my personal opinion is that everybody should be tested with the genetic test and really advocate for that. You know, there are certain types of non-small cell lung cancer where there are genetic targets that are rare, however, you don’t know unless you test. So I would say yes to that question of testing for genetic abnormalities.

Lisa Hatfield:

Okay, thank you. So can you speak to the priorities for newly diagnosed patients, particularly populations who may have poor outcomes?

Dr. Christina Baik:

So, I think there are priorities when it comes to research, and then there are priorities for individual patients, right? So from a research standpoint, as I mentioned before, I think really the priorities, the priority is to develop strategies so that we’re truly personalizing treatment for each patient, and we’re not giving this kind of generic treatment for a bulk of the patients. So from a research standpoint, really understanding the biology, understanding what works for what patient, I think that’s extremely important.

On the individual patient level, we sort of alluded to this earlier, but really knowing the cancer we’re dealing with is extremely important. Know your cancer stage, ask what your cancer stage is, know the type of lung cancer that you have. So I will say as of now, there are, I can think of 12 or 13 different types of lung cancer that I want to make sure I know that patients, you know, what their subtype is.

So know your subtype of lung cancer. Ask those questions. If the knowledge is not known, if they say, “You know your stage is not very clear, your subtype is not clear,” then ask why that is, what type of additional testing that needs to be done. So I think those are the type of questions that each patient and their family member should really ask. And in terms of the poor outcome question, I think the first thing I would say is if a doctor tells you, you belong to a group of patients who are going to have a poor prognosis, then ask why that is, right? And understand the reasons for that.

And if that’s, once you understand, I think I’m a big proponent of getting second opinions, because a lot of these treatments and there’s a lot of medical judgment involved when we recommend treatments, and you just want to get a different perspective with the same type or set of information. So really being an advocate for yourself, I think that’s extremely important when you’re first diagnosed.

Lisa Hatfield:

Great, thank you. You mentioned two things I also feel strongly about, I don’t have lung cancer, I have a different type of cancer, but you said that patients and family members can ask questions.  Having an advocate with you at all times, if that’s possible, a family member, a friend going with you, I think is super important.

And also getting a second consult to understand your diagnosis better. I appreciate you saying that, because some of us are a little bit reluctant to do that, maybe afraid of offending our doctors. So, I appreciate that as a patient myself, so thank you. Okay. So talking about disease progression and recurrence, particularly for metastatic non-small cell lung cancer, what should patients know?

Dr. Christina Baik:

Okay. So when a cancer initially responds to a treatment and it stops responding, there can be many reasons for that. So the first question to really think about is is there another test we can do to identify the reason for the progression? And can we personalize a treatment according to that resistance pattern or the change that occurs in the tumor? This is more relevant to patients who get a targeted therapy, but I think it’s a good sort of rule of thumb in terms of asking your doctor why that is, and is there more testing that’s required?

And the second I would say is once the cancer progresses after the initial treatment, then, unfortunately, in lung cancer the treatment options are much more limited, and the effectiveness is very limited as well. So, it’s really at that juncture to really seek out clinical trials. There are many trials that are out there. So really working with your doctor in identifying these trials. If there is an academic center that’s close to you, at least inquiring about that. In lung cancer, fortunately, there are many wonderful advocacy groups and these advocacy groups can be great resources in finding out about clinical trials and where to seek out opinions. So, I think it does require some homework at the time of progression but really seek those out.

Lisa Hatfield:

Okay. Thank you. Now, if a patient does have an interest in a clinical trial, say maybe they have, their cancer has progressed, would they seek out that trial through the academic center itself? If, say they live in a rural area and they don’t have access, would they contact the academic center itself, or would they seek out a specialist like you first to ask about those clinical trials?

Dr. Christina Baik:

So they sort of come together in a way, because a lot of the specialists are in academic centers. So I think there are two ways to go about it. One is to meet with the specialist who can give you kind of the landscape of where things are and what might be appropriate. So, that’s one way to do it.  The other way to do it is if there’s a particular clinical trial that you’re really interested in based on discussions with other patients or through advocacy groups, if there are particular clinical trials, usually the contact information is listed on the clinicaltrials.gov website, and the contact number is usually for the research team who can give you more information about that particular trial.

Lisa Hatfield:

Okay. That’s very helpful, thank you. And thank you for this overview. I just want to recap a couple of points that you made that’s really important for patients to know. You had mentioned knowing their type, their subtype of lung cancer, knowing their stage, and knowing their mutations and having an advocate. I think those are all really great tips that you gave.


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Advancing Lung Cancer Treatment: Bridging the Gap in Personalized Care

Advancing Lung Cancer Treatment: Bridging the Gap in Personalized Care? from Patient Empowerment Network on Vimeo.

What should lung cancer patients know about the latest treatment and research news? Expert Dr. Christina Baik from Fred Hutchinson Cancer Center discusses immunotherapy, targeted therapy, and resistance mechanisms for treatment.

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Transcript:

Lisa Hatfield:

Dr. Baik, can you speak to the latest news and priorities for the treatment of non-small cell lung cancer? And what are the notable advancements in understanding resistance mechanisms or novel therapeutic targets?

Dr. Christina Baik:

So it’s a good time to be a lung cancer doc, I would say, just because there’s so much advance. We’re seeing different treatments be FDA-approved every other year, if not every year. So it’s really good to have all these options to offer our patients. Now the priority, however, is that not everyone is benefiting in an equal way from all these advances. And really the research priority, including my own personal research, is to really understand why some patients are benefiting and why some are not.

So, for example, in the immunotherapy world, which is a big advance we’ve had in lung cancer in the last 10 years, we know that some patients respond very well, some do not. Yet we give the same sort of treatment to patients. So one thing to understand is who are…and one thing I would say is we don’t personalize immunotherapies for our patients.

So one of the research priorities is to really understand where the different subgroups of patients who are going to benefit from this one treatment type…one type of immunotherapy treatment versus the other. So I would say that’s a big priority for me as well as for the field and all the researchers so that we’re giving the right treatment to the right patient. Now, there have been advances, I would say, in this theme in those patients who are able to receive a targeted therapy. So that is a type of treatment that we give to target the genetic abnormalities that exist in a particular patient’s tumor.

And these treatments work very well. But at some point, it stops working. But nowadays, there are certain sorts of resistance mechanisms as we call it. These are changes that occur in the tumor when a targeted therapy stops working. And we’re starting to understand better in terms of reasons for that and actually develop treatment options for those mechanisms of resistance. So I think we are starting to understand better, and I think we’re going to get there in terms of personalizing immunotherapy. But there’s still a lot of work to be done.


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Dr. Christina Baik: Why Is It Important for You to Empower Patients?

Dr. Christina Baik: Why Is It Important for You to Empower Patients? from Patient Empowerment Network on Vimeo.

Why is it important to empower patients? Expert Dr. Christina Baik from Fred Hutchinson Cancer Center shares her approach to patient care, educating patients, involving other care team members, and preparing patients for informed decisions.

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Dr. Christina Baik:

In my opinion, the best way to empower your patients is to really give them knowledge. Knowledge about their own disease so that they really understand what they’re dealing with, so that they can make decisions that are appropriate for them and their family and be consistent with their priorities.

So one thing that I run into a lot really is as simple as patients not understanding our treatment is palliative or curative. And many patients say, “If I knew this was a palliative treatment, I would have made a different decision about this particular treatment.” So really making sure that they understand their disease, they understand the intent of their treatment so that they can make the decisions that are right for them.

And also, really give them room to ask questions. I think this is really hard in a busy practice. So what I often do is, if it’s feasible is that if I know this is going to be a difficult visit, patients have many questions, and it’s gone…it could potentially be a long visit, then I would often involve my nurses and my nurse practitioners, so to kind of hear them out, understand what their questions are so that I can really address them when it’s time for my appointment. So I would say knowledge, really understanding their disease and making sure that they have all the information so that they’re making an informed decision.

Lung Cancer Patient Expert Q&A: Dr. Christina Baik

Lung Cancer Patient Expert Q&A: Dr. Christina Baik from Patient Empowerment Network on Vimeo.

In this START HERE lung cancer webinar, Dr. Christina Baik, Associate Professor of Medicine at the University of Washington and Fred Hutchinson Cancer Center, provides valuable insights into priorities for newly diagnosed patients. Dr. Baik also discusses essential tools for managing disease progression and recurrence.

Watch the program and download the guide for tips on creating an actionable pathway to optimize lung cancer care for yourself or your loved one.

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Transcript:

Lisa Hatfield:

Hello and welcome. My name is Lisa Hatfield, your host for this Patient Empowerment Network Start Here program where we bridge the expert and patient voice to enable you and me to feel comfortable asking questions of our healthcare teams. The world is complicated, but understanding your lung cancer doesn’t have to be. The goal of this program is to create actionable pathways for getting the most out of lung cancer treatment and survivorship.

Today, I’m delighted and excited to welcome Dr. Christina Baik, a distinguished expert in the field of lung cancer. Dr. Baik serves as an associate professor in the Clinical Research Division at Fred Hutch. She also holds the position of clinical research director of thoracic head and neck oncology at University of Washington. Additionally, she has an associate professor, or she is an associate professor in the Division of Hematology and Oncology at the University of Washington School of Medicine. We’re so happy she’s joining us today. It’s a pleasure to have you with us, Dr. Baik.

Dr. Christina Baik:

Thank you for having me.

Lisa Hatfield:

Okay. Before we dive into today’s discussion, please take a moment to download the program Resource Guide using the QR code. This guide contains pertinent information to guide you both before and after the program. In this program, we’ll provide you with a comprehensive update on the latest lung cancer news and its implications for you and your family.

Following that, we’ll launch into questions we have received from you. So let’s start here. Dr. Baik, can you speak to the latest news and priorities for the treatment of non-small cell lung cancer? And what are the notable advancements in understanding resistance mechanisms or novel therapeutic targets?

Dr. Christina Baik:

So it’s a good time to be a lung cancer doc, I would say, just because there’s so much in advances. We’re seeing different treatments be FDA-approved every other year, if not every year. So it’s really good to have all these options to offer our patients. Now the priority, however, is that not everyone is benefiting in an equal way from all these advances. And really the research priority, including my own personal research, is to really understand why some patients are benefiting and why some are not.

So, for example, in the immunotherapy world, which is a big advance we’ve had in lung cancer in the last 10 years, we know that some patients respond very well, some do not. Yet we give the same sort of treatment to patients. So one thing to understand is who are…and one thing I would say is we don’t personalize immunotherapies for our patients.

So one of the research priorities is to really understand where the different subgroups of patients who are going to benefit from this one treatment type…one type of immunotherapy treatment versus the other. So I would say that’s a big priority for me as well as for the field and all the researchers so that we’re giving the right treatment to the right patient. Now, there have been advances, I would say, in this theme in those patients who are able to receive a targeted therapy. So that is a type of treatment that we give to target the genetic abnormalities that exist in a particular patient’s tumor.

And these treatments work very well. But at some point, it stops working. But nowadays, there are certain sorts of resistance mechanisms as we call it. These are changes that occur in the tumor when a targeted therapy stops working. And we’re starting to understand better in terms of reasons for that and actually develop treatment options for those mechanisms of resistance. So I think we are starting to understand better, and I think we’re going to get there in terms of personalizing immunotherapy. But there’s still a lot of work to be done.

Lisa Hatfield:

Great, thank you. So just a follow-up question to that, when a patient is diagnosed with non-small cell lung cancer,is genetic testing always done on the tumor, or do patients know what their mutations are right upon diagnosis if testing is done?

Dr. Christina Baik:

So, as a rule of thumb, they should, all patients should be tested, and there are exceptions. So, for example, in lung cancer, there’s the type that we call small cell lung cancer, and there’s non-small cell lung cancer. So we often, we usually do not do genetic testing on small cell lung cancer, because often these tumors do not have a genetic abnormality that for which we can actually give treatment for.

But for non-small cell patients, I would say, if most, my personal opinion is that everybody should be tested with the genetic test and really advocate for that. You know, there are certain types of non-small cell lung cancer where there are genetic targets that are rare, however, you don’t know unless you test. So I would say yes to that question of testing for genetic abnormalities.

Lisa Hatfield:

Okay, thank you. So can you speak to the priorities for newly diagnosed patients, particularly populations who may have poor outcomes?

Dr. Christina Baik:

So, I think there are priorities when it comes to research, and then there are priorities for individual patients, right? So from a research standpoint, as I mentioned before, I think really the priorities, the priority is to develop strategies so that we’re truly personalizing treatment for each patient, and we’re not giving this kind of generic treatment for a bulk of the patients. So from a research standpoint, really understanding the biology, understanding what works for what patient, I think that’s extremely important.

On the individual patient level, we sort of alluded to this earlier, but really knowing the cancer we’re dealing with is extremely important. Know your cancer stage, ask what your cancer stage is, know the type of lung cancer that you have. So I will say as of now, there are, I can think of 12 or 13 different types of lung cancer that I want to make sure I know that patients, you know, what their subtype is.

So know your subtype of lung cancer. Ask those questions. If the knowledge is not known, if they say, “You know your stage is not very clear, your subtype is not clear,” then ask why that is, what type of additional testing that needs to be done. So I think those are the type of questions that each patient and their family member should really ask. And in terms of the poor outcome question, I think the first thing I would say is if a doctor tells you, you belong to a group of patients who are going to have a poor prognosis, then ask why that is, right? And understand the reasons for that.

And if that’s, once you understand, I think I’m a big proponent of getting second opinions, because a lot of these treatments and there’s a lot of medical judgment involved when we recommend treatments, and you just want to get a different perspective with the same type or set of information. So really being an advocate for yourself, I think that’s extremely important when you’re first diagnosed.

Lisa Hatfield:

Great, thank you. You mentioned two things I also feel strongly about, I don’t have lung cancer, I have a different type of cancer, but you said that patients and family members can ask questions.  Having an advocate with you at all times, if that’s possible, a family member, a friend going with you, I think is super important. 

And also getting a second consult to understand your diagnosis better. I appreciate you saying that, because some of us are a little bit reluctant to do that, maybe afraid of offending our doctors. So, I appreciate that as a patient myself, so thank you. Okay. So talking about disease progression and recurrence, particularly for metastatic non-small cell lung cancer, what should patients know?

Dr. Christina Baik:

Okay. So when a cancer initially responds to a treatment and it stops responding, there can be many reasons for that. So the first question to really think about is is there another test we can do to identify the reason for the progression? And can we personalize a treatment according to that resistance pattern or the change that occurs in the tumor? This is more relevant to patients who get a targeted therapy, but I think it’s a good sort of rule of thumb in terms of asking your doctor why that is, and is there more testing that’s required. And the second I would say is once the cancer progresses after the initial treatment, then, unfortunately, in lung cancer the treatment options are much more limited, and the effectiveness is very limited as well.

So, it’s really at that juncture to really seek out clinical trials. There are many trials that are out there. So really working with your doctor in identifying these trials. If there is an academic center that’s close to you, at least inquiring about that. In lung cancer, fortunately, there are many wonderful advocacy groups and these advocacy groups can be great resources in finding out about clinical trials and where to seek out opinions. So, I think it does require some homework at the time of progression but really seek those out.

Lisa Hatfield:

Okay. Thank you. Now, if a patient does have an interest in a clinical trial, say maybe they have, their cancer has progressed, would they seek out that trial through the academic center itself? If, say they live in a rural area and they don’t have access, would they contact the academic center itself, or would they seek out a specialist like you first to ask about those clinical trials?

Dr. Christina Baik:

So they sort of come together in a way, because a lot of the specialists are in academic centers. So I think there are two ways to go about it. One is to meet with the specialist who can give you kind of the landscape of where things are and what might be appropriate. So, that’s one way to do it.

The other way to do it is if there’s a particular clinical trial that you’re really interested in based on discussions with other patients or through advocacy groups, if there are particular clinical trials, usually the contact information is listed on the clinicaltrials.gov website, and the contact number is usually for the research team who can give you more information about that particular trial.

Lisa Hatfield:

Okay. That’s very helpful, thank you. And thank you for this overview. I just want to recap a couple of points that you made that’s really important for patients to know. You had mentioned knowing their type, their subtype of lung cancer, knowing their stage, and knowing their mutations and having an advocate. I think those are all really great tips that you gave. So thank you for that overview. It’s that time now where we answer questions that we’ve received from you. 

Please remember, this is not a substitute for your medical care. Always consult with your own medical team, and, Dr. Baik, we have some questions here that people have sent in from patients. So I’ll just jump right into the first question. “What exactly is oncogene-driven lung cancer, and how does it differ from the other types of lung cancer?”

Dr. Christina Baik:

So in lung cancer, there are certain lung cancers where the growth of the cancer is dependent on a particular genetic abnormality. So there is one gene that makes that cancer grow. And because of that, there have been treatments that are developed against that particular genetic abnormality. So, it is referring to lung cancers that have that particular genetic abnormality. A prime example of this is lung cancers that have what we call an EGFR mutation. That means that there is this gene called EGFR that is abnormal, and that’s making the cancer grow.

Now, not everyone has a cancer gene that is driving that cancer. I would say about 30 percent or for 30 percent to 40 percent of patients would have an oncogene-driven cancer for which there may be treatments either as a standard treatment or in clinical trials. But the majority of patients do not have an oncogene, meaning that genetic abnormality where there is a targeted therapy option. So that’s the distinction we make. And I know this term or phrase is used a lot, but that’s what it means. And if you want to know if one has an oncogene-driven lung cancer, you would know based on the genetic test results.

Lisa Hatfield:

Okay. Great. Thank you. And just for clarification too, the genetic mutations are found in the cancer cells, not in their body, the cells? So that’s what the genetic testing is done just on the cancer cells. Is that correct?

Dr. Christina Baik:

Yes. Yes.

Lisa Hatfield:

Okay, great.

Dr. Christina Baik:

Thank you for clarifying that. That’s a very important distinction.

Lisa Hatfield:

Yeah. Thank you. So that leads right into the next question, and it’s kind of a lengthy question. And this person is asking, “Dr. Baik, you have done considerable research around EGFR exon 20 insertion mutations in non-small cell lung cancer, considering their association with poor survival outcomes, what are the survival implications of having EGFR exon 20 insertion mutations compared to other types of EGFR mutations?”

Dr. Christina Baik:

Now this gets a bit complicated, but not all EGFR lung cancers are the same. And there are patients who have what we call EGFR mutation that is a classical mutation. And I throw out that term, because that’s how it’s written on the Internet and a lot of papers. And then, so that’s one group, and the other group are patients who have this exon 20 insertion mutation. And the reason these are separated is because the treatments that work very well in the classical mutations do not work very well in this particular exon 20 mutation.

So when we look at all patients with EGFR mutation, it is true that the prognosis is poor in exon 20 patients just because there are no great targeted therapy options. That said, I am very hopeful that this is changing. There are a number of targeted therapies for exon 20 that are in trials, and I think these are going to be FDA-approved in the future, not too far off in the future, I believe. So I think the survival implications will start to hopefully equalize amongst all the EGFR-mutated lung cancer patients.

Lisa Hatfield:

Okay. Another question, Dr. Baik, from a patient, “For someone who is newly diagnosed with non-small cell lung cancer, what should be the top priorities in understanding and navigating treatment options, especially if I’m in a group that tends to have poorer outcomes?”

Dr. Christina Baik:

So the really, the priorities, when someone is first diagnosed, is really understanding what we’re dealing with and know what they’re dealing with. Now, if you don’t have all this information, I think it’s extremely important to ask. And if you get an answer that indicates that it’s not very clear, and they don’t know, then ask why.

And what are some of the follow-up tests that need to be done so that you can really know. So, I think really the knowledge is extremely important. One thing that I will expand on is that patients, when they’re first diagnosed with non-small cell lung cancer, they should get testing of the cancer, the genetic testing of the cancer to identify the subtype.

And often, it can’t be completed because there’s a lack of biopsy material. So that is often a common situation. So, if that’s a common situation, then ask, “Is there room for another test? Should I get another biopsy? Is there a blood biopsy that will be helpful in this setting?” So really be an advocate for yourself to complete the testing, because the treatment options are drastically different, whether there’s a genetic target in the cancer or not.

The other thing I would say in terms of poor outcomes is that, if you’re told that you’re in a group that has poor outcomes, I think the first question would be to ask why. “Why am I in that group? What makes…what about the cancer that makes it a poor outcome?” And I think this is a setting where you do want to especially get a different opinion potentially just so that the other doctors also agree that you’re in that group. And if so, are there other treatments outside of the standard treatments that you can take advantage of so that it could potentially work better?

Lisa Hatfield:  

Okay, thank you. So this patient mentioned that they are newly diagnosed. And I’m wondering if you can just in really general terms explain what treatment and monitoring might look like. For example, how often might this patient have to come in for treatment? What type of monitoring might be done? I know it has to be really general because every patient is so different. But can you just give a really kind of a high level overview of what that might look like for a newly diagnosed patient?

Dr. Christina Baik:

Yes. So I can speak for patients who have advanced non-small cell lung cancer, which is, unfortunately, still the majority of patients who are newly diagnosed. Most of them have advanced or metastatic lung cancer, meaning that the cancer has gone outside of the original area to other parts of the body. In those settings, if there is a genetic target on the cancer, often the treatment is a pill, which is great. And often, they are fairly tolerable, of course, there are exceptions, but for the most part it is a tolerable type of treatment. So for those patients who have a pill option and they’re tolerating it well, the pills are taken at home, right? They don’t have to come to a hospital for that.

Initially, at least in my personal practice, we do see patients fairly often just so that we can make sure the side effects are being managed and patients are doing well. So initially, it might be every other week type of visits for the first two or three sort of first visits, so the first month or two may be more frequent. But once we get to a point where the treatment is working and side effects are manageable, then I’m essentially seeing them every three months, and they can go. I have patients who travel internationally and just come check with me every three months or so.

So that’s one type of monitoring that we do and in this setting, we would get imaging often with CT scans, every three to four months or so, that number is not exact, there’s no science behind that three to four months. But we would…the point is that we will monitor the cancer using imaging, often with CT scans every three to four months in that setting. Now, and I do want to emphasize that that’s my own personal practice, every doctor does it a little bit differently in terms of intervals. Now, for patients who do not have a targeted therapy option, meaning there’s no pill option, then often patients are receiving some form of infusional treatment. And the infusional treatments vary in terms of the frequency. So some treatments are every three weeks, some are every four, some maybe every six. 

Lisa Hatfield:

Okay, thank you. That’s helpful. So another question, which is a big concern for many patients, I’m sure.  “What signs should I watch for that might indicate the cancer is coming back or progressing? And what steps can I take if I notice any concerning symptoms?”

Dr. Christina Baik:

Right. So the signs are often difficult to identify, mainly because the symptoms can be very similar to kind of normal symptoms, meaning so, for example, one thing we watch out for is back pain, for example, because we worry that the cancer may be going into the bone in the back. However, many of us have back pain chronically, so often it is difficult to tease out what’s what. That said, what I tell my own patients as a rule of thumb is if anything is persisting, so, for example, you have your usual back pain, you know that typically after some rest and some exercise it usually gets better after about a week. The severity may fluctuate a little bit, but most of muscle back pains will change or lighten up after some time if you strained it.

But if there’s a particular pain in a particular part of the body that is just not going away, that’s something to watch out for. Same thing with symptoms like cough, right? So I’ve had many patients who are diagnosed after COVID, where they would have this persistent cough after COVID, but they sort of blamed it on COVID and after a while, since it was not going away they sought medical care. So same thing there, if you had a viral infection, over time the cough should get better.

And if it’s not or if it’s getting worse, then we really have to…really need to investigate the reason for that. So anything that’s persistent, I would say that’s when you want to alert your team. What I tell my own patients is that just tell us, and we’ll figure it out for you or with you. Don’t try to kind of figure it out on your own. I do notice that I do have some patients who tell me that they feel bad about calling and “complaining,” right? And we tell them it’s not complaining, you’re just reporting to us, and we tell you it’s nothing to worry about just watch or something that you need to come in for. So really work closely with your oncology team.

Lisa Hatfield:

Okay, thank you. Well, that’s all the time that we have for today’s Start Here Lung Cancer program. Dr. Baik, you’ve been a phenomenal guest, thank you so much for sharing your experience and expertise with us.

Dr. Christina Baik:

Thank you so much. It’s been great.

Lisa Hatfield:

Yeah, we really appreciate your time. And thank you all for tuning in, it’s these conversations that make a world of difference for patients and their families, particularly when we can hear it from researchers on the ground floor. I’m Lisa Hatfield, and I’ll see you next time.


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