Tag Archive for: Winship Cancer Institute

How Is Diffuse Large B-Cell Lymphoma (DLBCL) Treated?

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How Is Diffuse Large B-Cell Lymphoma (DLBCL) Treated? from Patient Empowerment Network on Vimeo

How is diffuse large B-cell lymphoma (DLBCL) treated? Dr. Jean Koff shares insight about DLBCL treatment types, factors to consider in determining treatment options, reviews approaches for relapsed disease, and explains the role of clinical trials.

Dr. Jean Koff is an Assistant Professor in the Department of Hematology and Oncology at Winship Cancer Institute at Emory University. Learn more about Dr. Koff, here.

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Transcript:

Katherine Banwell:

In general, then Dr. Koff, how is DLBCL treated?

Dr. Koff:

So, in general for patients who are getting their first-line therapy, they will receive some sort of combination of chemotherapy and what we call immunotherapy. For the vast majority of patients who are young and otherwise, healthy this will be a combination chemotherapy regimen known as R-CHOP.

Which consists of three what I call conventional chemotherapy drugs, an immunotherapy called cyclophosphamide and a steroid known as prednisone.

Katherine Banwell:

What are the main factors you take into consideration before a treatment approaches decided on? You mentioned age, health.

Dr. Koff:

Yes. So, I divide it into three different categories. The first category is the patient. So, there are patient factors that determine what treatments the patient is able to tolerate. And some of the main factors you mentioned are items like age or what we call co-morbidities, which are other health problems that the patient may have. But there may be other factors as well.

If a patient is not able to take care of themselves very well, because they’re very ill or they’re very debilitated or they’re unable to receive certain treatments because they have social factors that keep them from coming to certain centers or from following-up with care. Those all fall under that patient-centered bracket.

The next factor that I consider are items related to the lymphoma itself. So, we’ve already mentioned factors like, expression of different genes or having certain gene abnormalities. Those may play a role in determining what treatment a patient gets. And then, the last big category is where the lymphoma is in the body. And this refers, generally if the lymphoma is only in one limited site. Then those patients may get fewer cycles of chemotherapy, less time in chemotherapy and may receive radiation as part of their frontline treatment.

Whereas patients who have disease in more than one site who are spread out across the body, make it more cycles of chemotherapy. But also there are patients who have lymphoma in certain sites that requires that we give additional treatment to make sure that the disease in those special sites is treated

Katherine Banwell:

Where do clinical trials fit in, Dr. Koff?

Dr. Koff:

So, our goal in treating diffuse Large B-cell lymphoma in the first-line setting in somebody who’s newly diagnosed in most patients, our goal is to cure. Meaning that we treat the patient with chemo immunotherapy. And our goal is that the lymphoma never comes back, goes away and never comes back. Unfortunately, as of today we’re not able to cure every single patient. And depending on what factors you have in your disease, your likelihood that you will be cured with that first-line therapy may be higher or lower.

But until we’re able to cure every single patient with our first-line therapy, there is definitely room for improvement. And that’s where clinical trials feature in. Because the way that we are able to tell whether new therapies or new approaches to therapies are improving upon our goal of curing or our goal of controlling the lymphoma. We need to test them very rigorously in clinical trials.

Katherine Banwell:

Of course. Now what about for patients with relapsed disease?

Dr. Koff:

So, there are several different approaches that we use to patients who have relapsed depending on a lot of different factors that may play into a particular case. I would argue that in this case, clinical trials are even more important.

Because although we can still treat with the goal of cure for a relapsed patients with DLBCL, the likelihood that somebody will be cured after they’ve received their frontline therapy goes down, regardless of the factors related to the case. And so, this is a setting where it’s even more important that we improve upon our current strategies of treatment and our current treatments that we have available in clinical trials again are the way that we move forward with this.

Confusing CLL Terms Defined

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Confusing CLL Terms Defined from Patient Empowerment Network on Vimeo.

What is FISH testing? What is IGHV? Physician assistant Danielle Roberts explains the meaning of these often confusing terms and their role in disease monitoring and CLL treatment decisions.

Danielle Roberts is a physician assistant with the Bone Marrow Stem Cell Transplant (BMT) team at Winship Cancer Institute at Emory University. Learn more here.

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Transcript:

Danielle Roberts:    

So, a FISH test is a test from your either blood in your bloodstream or from your bone marrow biopsy. And it stands for florescence in situ hybridization. And this is a highly specific test that looks at the chromosomal changes with CLL. This can be done in the peripheral blood or in the bone marrow.

And it’s important to remember that when we consider genetic testing and CLL, we aren’t talking about inherited genes, but the abnormalities that occur within the CLL itself.

So, an IGHV test is a mutational test that stands for the immunoglobulin heavy-chain variable gene locus. This can also be done in the peripheral blood and the bone marrow biopsy. This test can help us determine treatment options as well as help with determining what high-risk features there are for your particular disease.

So, 17p deletion is the deletion of the long arm of chromosome 17. This can be seen at initial diagnosis or it can be acquired later on in disease progression. So, for all patients this is one of the more important tests that if you’re going to ask your doctor if you’ve had, you should ask at a diagnosis. If you’ve relapsed later on, you should ask again if that mutational status is being observed or checked in your follow-up testing.

17p deletion is something that can be acquired along the course of your disease progression. It is not always seen at initial diagnosis but can be acquired if you are relapsed or refractory. Therefore I recommend that every time you’re having peripheral blood for flow or if you’re having bone marrow biopsies, especially if it’s for treatment planning purposes, you should advocate to your physician team to make sure that this test is being performed as it will drive – or as it can drive treatment decision-making.

Practical Advice for Coping with a CLL Diagnosis: What’s Next?

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Practical Advice for Coping with a CLL Diagnosis: What’s Next? from Patient Empowerment Network on Vimeo.

After receiving a diagnosis of chronic lymphocytic leukemia (CLL), patients can have a variety of concerns. Physician assistant Danielle Roberts shares her top three pieces of practical advice for patients to move forward. 

Danielle Roberts is a physician assistant with the Bone Marrow Stem Cell Transplant (BMT) team at Winship Cancer Institute at Emory University. Learn more here.

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Transcript:

Danielle Roberts:       

My recommendations if I could have three things that I would recommend all patients with CLL do, 1.) It would be to have your financial information kind of in line or know how to find that. Unfortunately, a lot of the medications that we use to treat disease are incredibly expensive. However, there are really good patient assistance programs out there. In order to be able to apply for patient assistance programs you do have to submit your financial information to them. So, I would really suggest that you have access or be able to know where to find that.

I would also really recommend you talk to your family members in so that they understand what’s – where you are with your treatment and what’s going on. As a physician’s assistant, one of the questions I generally get is when they bring in a family member or somebody who has not been along in their journey for their treatment, if they’re asking lots of questions, that was and kind of diagnosis. So, I encourage people to talk about that at the beginning, so everybody understands where they are and what the plan for the future is going to be.

And then the last thing that I always recommend to everybody is to understand that not one treatment is right for everybody. Understand that things are going to change and we’re all going to grow and we’re going to learn with the process. But if you don’t tell your healthcare team what’s going on, we can’t help you. And we say that there is no such thing as a bad question to us. You’re never bothering us. That’s what we’re here for. Rather you tell us, even if it may be something you feel is minor, ahead of time so that we can address it and work towards a solution, if there needs to be one.

How Targeted Therapy Works to Treat Myeloma

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How Targeted Therapy Works to Treat Myeloma from Patient Empowerment Network on Vimeo

Nurse practitioner Charise Gleason explains how targeted therapies work to fight myeloma and how they may be used in combination. Charise also discusses how targeted therapies differ from radiation chemotherapy.

Charise Gleason is a nurse practitioner specializing in myeloma and serves as the Advanced Practice Provider Chief at Winship Cancer Institute of Emory University. Learn more about Charise, here.

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Transcript:

Charise:                       

Plasma cells or myeloma cells have a target on the outside. And so, CD38 is a very common one. You think of daratumumab, for instance, that targets CD38, because it’s on the surface of every plasma cell.

You have what’s called CS1 on the surface of plasma cells that elotuzumab targets.

And these drugs target that particular marker to break down that myeloma cell in a different way. The reason we use combination therapies are not just because we think this is a great idea to put them together. We know dexamethasone, for instance, is going to make that plasma cell more presentable and make that target more presentable to let, for instance, daratumumab work on it. And then you take something like an immunomodulatory agent that works in another way. But as far as targets, that’s on the surface of the cell is what we’re looking for on that particular one.

With the translocation, that’s one that’s very specific. If you take a translocation (11;14), those patients can express high BCMA, another target on a plasma cell.

And so, that’s the reason again why that works for some of those patients, because it attaches and kills the myeloma starting from that outside and working into the cell.

The traditional chemotherapy approaches just worked at killing everything, including normal cells, right? And so, you have a patient who gets admitted for chemotherapy, for instance, it knocks everything down and with that, the myeloma. And then those cells come back up. And so, you think of that more from a traditional admit to the hospital. We give several days of chemotherapy or the conditioning regimen for transplant with melphalan It wipes out everything.

And so, sometimes we still need to do that and do that maneuver to reset the bar. But there’s more risk to the patient with that, we’re making a patient more immunocompromised. With targeted therapy, it’s more specific to that target. So, it’s really working more to kill those abnormal cells in there. So, the patient doesn’t experience quite that same immunosuppressive state where everything is knocked down.

Myeloma Targeted Therapy: Why Identifying Chromosomal Abnormalities is Key

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Myeloma Targeted Therapy: Why Identifying Chromosomal Abnormalities is Key from Patient Empowerment Network on Vimeo.

Charise Gleason, a nurse practitioner, provides insight as to why identifying chromosomal abnormalities is essential when it comes to targeted therapy as a treatment choice for myeloma.

Charise Gleason is a nurse practitioner specializing in myeloma and serves as the Advanced Practice Provider Chief at Winship Cancer Institute of Emory University. Learn more about Charise, here.

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Transcript:

Charise:                       

So, testing for chromosome abnormalities or changes are important when it comes to targeted therapy.

And we used to think of this more in that relapse setting. But we also look at it upfront now, because it tells us more about the path of myeloma. And there are reasons to check throughout at relapse, again, to see if something’s changed. So, with targeted therapy, we can use the translocation (11;14), for instance.

Many patients have a translocation t(11;14). It’s not a high-risk feature. But we know on clinical trial we have a drug that we’re using called venetoclax that those patients can be very sensitive to.

And so, we’re looking at this not just in translocations but in sequencing for other abnormalities or gene mutations that can help guide us with these newer therapies. And you see that across all cancer types at this point. So, you can get very specific with a patient’s type of myeloma – that this drug is going to work better because you have this mutation.

So, we look at it upfront. It guides us for risk stratification: standard risk versus high risk. And then we look at it in that relapse setting. Do we have a drug or a clinical trial that this patient will respond better to because of those abnormalities?

When we’re risk stratifying, we know standard risk, medium risk, and high risk. Those are those translocations, those gene mutations, that we know about.

But newer testing, like sequencing, gives us a lot more mutations that we don’t even know what to do with them all yet.

We don’t necessarily have drugs for all of them, but it does help guide us down the road. So, right now some common are the translocations, but also deletion 17p, which we’ve known about for a while. But maybe you see a BRAF mutation, which you typically associate with other types of cancers, but we see that in myeloma as well.

So, it helps us look at is there a drug that our myeloma patient might benefit from because they have a BRAF mutation, for instance. 

Essential Imaging and Chromosome Tests after a Myeloma Diagnosis

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Essential Imaging & Chromosome Tests After a Myeloma Diagnosis from Patient Empowerment Network on Vimeo.

Charise Gleason, a nurse practitioner, explains why tests such as bone marrow biopsy, FISH test and full-body imaging are considered essential for patients after a myeloma diagnosis.

Charise Gleason is a nurse practitioner specializing in myeloma and serves as the Advanced Practice Provider Chief at Winship Cancer Institute of Emory University. Learn more about Charise, here.

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Transcript:

Charise:                       

The essential testing that a myeloma patient should undergo following a diagnosis is – obviously, you’ve had those diagnostic test labs, the 24-hour urine, some scans, but the specific things that we need are a bone marrow biopsy.

That includes cytogenetics and FISH, and we can talk a little bit more about that. You also want full-body imaging. We used to always use a skeletal survey, which was an X-ray of the long bones. But, really, the standard of care now is a whole-body scan.

So, depending on what your oncologist or your institution has, that would be a full-body CT scan, a PET-CT scan, or a full-body MRI. So, one of those tests is recommended. It’s not unusual if you have a PET. Like our institution, we use PET-CT. So, for a newly diagnosed patient, we’re also going to get an MRI of the spine for a further snapshot.

What we’re looking for with a full-body imaging is we want to make sure that there aren’t any lytic lesions.

So, with an X-ray, you have to have about 30 percent bone loss before it’s going to show up on an X-ray. So, those traditional X-rays that we used to use could actually miss an active lesion. So, in that diagnosis, we want to know that there is no active myeloma. And those other scans are going to be more specific to that.

So, the cytogenetics of a bone marrow biopsy are going to tell us more about the biology of the disease. So, cytogenetics actually grows out the pairs of cells. And so, that’s why that portion of the test can take a while to get back.

At our institution, it can take two to three weeks, because you’re actually growing out those cells to look at the chromosomes. And remember these are chromosomes, or genes, of the plasma cells. And so, we’re looking for those abnormalities that might be present. So, you think about it more for the biology of the disease.

When we’re looking at FISH, we’re also looking… That test shows a little bit different. It comes back quicker. It shows two different phases of cell changes.

And so, it will tell us about chromosomes as well. But do you have any additional chromosomes – so, that would make it a hyperdiploid narrow. It tells us if there’s a loss of a chromosome – so, you’re missing one, a hypodiploid. It also tells us about translocations – so, when you’ve had a piece of a chromosome change and go to another cell. And so, that, for instance, would be like that translocation t(11;14) or translocation t(4;14). So, it’s essential to have that testing to tell us about that, because it helps guide treatment. And as we talk more about targeted therapy, these things really can come into play.