Tag Archive for: MRI

Monitoring for an Endometrial Cancer Recurrence

Monitoring for an Endometrial Cancer Recurrence from Patient Empowerment Network on Vimeo.

How are endometrial cancer patients monitored for a recurrence? Expert Dr. Emily Ko shares insight about how monitoring is tailored to a patient’s individual disease and discusses the frequency of observation.

Dr. Emily Ko is a gynecologic oncologist and Associate Professor of Obstetrics and Gynecology at the University of Pennsylvania. Learn more about Dr. Ko.

 

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How Is Endometrial Cancer Staged?


Transcript:

Katherine:

How are patients monitored for a recurrence, and are there approaches to help prevent a recurrence? 

Dr. Ko:

Sure, absolutely. Great question. It is important to continue monitoring patients, even after they’ve gone through treatment. So, I think of it as a multifaceted approach. Usually, it includes office visits, including a physical exam. It includes a thorough intake of all of their symptoms. 

It also includes – depending on the scenario – in some circumstances, regular imaging studies, such as a CT scan or MRI, and sometimes, we also do things like PET scans, and I think that does have to be tailored to the unique patient’s endometrial cancer, unique case, stage, histology, and we kind of tailor which tests we choose to do. The interval of monitoring can vary, so I would say generally speaking, it could be anywhere from three- to six-month visits, and with potentially added scans, as we talked about, and sometimes, we also do certain blood tests in certain cases where we may choose to follow a CA125 blood tumor marker. 

But, I would say that there are different, definitely variants to how we choose to monitor, and there are certain resources we tend to use, such as the NCCN guidelines that providers may reference, and sometimes may even share with the patients to explain why and how we choose to do the monitoring. 

Head and Neck Cancer Staging | What Patients Need to Know

Head and Neck Cancer Staging | What Patients Need to Know from Patient Empowerment Network on Vimeo.

What do head and neck cancer patients need to know about staging? Expert Dr. Ari Rosenberg discusses the testing involved in determining head and neck cancer stages. 

Dr. Ari Rosenberg is a medical oncologist and Assistant Professor of Medicine at the University of Chicago Medicine. Learn more about Dr. Rosenberg.

See More From The Pro-Active Head and Neck Cancer Patient Toolkit

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Head and Neck Treatment Decisions: What’s Right for You?

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What Are the Types of Head and Neck Cancer?

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Expert Advice for Newly Diagnosed Head and Neck Cancer Patients


Transcript:

Katherine:

How is head and neck cancer staged? 

Dr. Rosenberg:

Yeah, so after the diagnosis of head and neck cancer, there’s generally a number of tests that are done to determine where it spreads to.  

Where it started, where it spreads to, to figure out what the best treatment approach is. So, oftentimes, that starts with a physical examination, often in combination with an ENT, or a head and neck surgeon. Oftentimes, that will involve endoscopy, which is a camera that the ENT uses to look very closely and carefully on the extent of the tumor itself. 

Additionally, we generally tend to use imaging as well, in order to stage or determine the extent of where the tumor might have spread to. Oftentimes, that involves imaging of the head and neck, of course, so that’s sometimes a CT scan, or an MRI scan. Oftentimes, it involves imaging of the chest to see if there’s been any spread to the chest or the lungs, that’s oftentimes a CT scan of the chest.  

And typically, that also involves, in many cases, a PET CT scan, which is a specialized scan that actually looks at the whole body and identifies where, in as precise a manner as we can determine, where the cancer has spread to.  

So, I would say that’s generally the overview. Some of the subtypes may have some other tests that may be specific to your specific scenario, but I think those are some of the more general staging evaluations that we do. 

Biomarker CA-125 and Renal Medullary Carcinoma: What Do We Know?

Biomarker CA-125 and Renal Medullary Carcinoma: What Do We Know? from Patient Empowerment Network on Vimeo.

What is known about the renal medullary carcinoma (RMC) biomarker called CA-125? Expert Dr. Nizar Tannir explains how the CA-125 biomarker has been analyzed and further studies of the biomarker used along with other RMC testing.

Dr. Nizar Tannir is a Professor in the Department of Genitourinary Medical Oncology, Division of Cancer Medicine at The University of Texas MD Anderson Cancer Center.

[ACT]IVATION TIP

“…another valuable information to have, but it has to be interpreted in the context of other things in the context of how the patient is doing, whether they have symptoms that are improving or getting worse, and imaging studies. So all of this has to be incorporated, integrated together as one package and not just look at it individually and make decisions, right, only based on that. So it’s a good tool, it’s something to use, and we are learning more about it, and pretty soon, hopefully we will publish our results about that.”

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With RMC Being an Aggressive Cancer, What Is the Prognosis?

With RMC Being an Aggressive Cancer, What Is the Prognosis?

What Renal Medullary Carcinoma Treatment Options Are Available?

What Renal Medullary Carcinoma Treatment Options Are Available?

Should Families of Renal Medullary Carcinoma Patients Undergo Genetic Testing?

Should Families of Renal Medullary Carcinoma Patients Undergo Genetic Testing?


Transcript:

Cora:

Dr. Tannir, there is news about monitoring levels of the biomarker CA-125 and renal medullary carcinoma and how it may help predict disease development. What do we know about CA-125 as a biomarker in renal medullary carcinoma?

Dr. Tannir:  

The CA-125 biomarker has been established as a good serological marker that you test in serum in women with ovarian cancer. So in women with ovarian cancer or suspected to have ovarian cancer, that blood test can be very valuable and elevated blood level of CA-125 in women with suspected ovarian cancer or established already women already diagnosed with ovarian cancer can provide information about the activity of the disease and response to therapy. So when a patient with ovarian cancer, for example, a response has, say, a debulking surgery and then the blood test is drawn, is tested after surgery the blood level will go down. You give them chemotherapy and the blood level goes down indicating that they’re responding. If they achieve a complete remission, complete response that CA-125 level could go down to undetectable level or normal range level as physiologic and women who don’t have ovarian cancer. Likewise, we use it in ovarian cancer to see if it’s rising, that the patient could be developing a recurrence of that disease. So it’s been very helpful in that regard.

And actually the pioneer this researcher, the physician scientist who led the initial work with CA-125 as a biomarker in cancer, was Dr. Robert Bast from MD Anderson. Now recently Dr. Msaouel and our team at MD Anderson looked at a battery, a panel of serology to really see if one of them is associated or could be linked to RMC and among a battery, a panel of several of these serological biomarkers. We found that CA-125 actually is a valuable blood test that we use to monitor RMC, not just in women like ovarian cancer, women with ovarian cancer, but in men and women with RMC the CA-125 could be valuable. Now, it’s not as they say panacea, it’s not like it’s if a patient has…the patient could have high tumor burden with obvious disease when you do CAT scans and MRIs and PET scans and other imaging studies.

But CA-125 may not be elevated but in many patients it can track the disease response to therapy that you are treating the patients with. And it could be valuable in that sense. But more recently we found that this could be also a relevant or a potentially relevant and important target to use therapy against RMC with that. So we are developing, Dr. Msaouel is preparing and hopefully we will launch this trial before the end of the year where we are using novel therapy based on that link based on that CA-125, whether this therapy will be more effective than chemotherapy, time will tell. So my activation tip on this is it’s good information to have, I encourage providers who treat patients with RMC at other institutions to test draw the blood order this test on their patients and see if in their patients it’ll be valuable.

It’ll be helpful to help them to track the disease. So that’s my activation tip is another valuable information to have, but it has to be interpreted in the context of other things in the context of how the patient is doing, whether they have symptoms that are improving or getting worse, and imaging studies. So all of this has to be incorporated, integrated together as one package and not just look at it individually and make decisions, right, only based on that. So it’s a good tool, it’s something to use, and we are learning more about it, and pretty soon, hopefully we will publish our results about that. 


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How Is Renal Medullary Carcinoma Diagnosed?

How Is Renal Medullary Carcinoma Diagnosed? from Patient Empowerment Network on Vimeo.

Renal medullary carcinoma (RMC) diagnosis involves testing that patients may need to follow up on. Expert Dr. Nizar Tannir explains common RMC symptoms, typical imaging tests that are involved, and advice to patients to be proactive to ensure their best care. 

Dr. Nizar Tannir is a Professor in the Department of Genitourinary Medical Oncology, Division of Cancer Medicine at The University of Texas MD Anderson Cancer Center.

[ACT]IVATION TIP

“…follow up after they have that imaging study…I would like patients to be aware and to be informed of what the symptoms mean. And that warning that blood in the urine or pain needs to be followed up and should not be dismissed or assumed that this is an infection or a stone that passed and you’re young, you don’t have to worry about cancer. They need to really follow up if that facility, that physician did not order the test, they need to follow up with their personal family physician and obtain those tests.“

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What Is Renal Medullary Carcinoma?
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What Are the Challenges of Diagnosing Renal Medullary Carcinoma?


Transcript:

Cora:

Given how rare RMC is, we know many people have a long road to diagnosis, like my brother Herman, which can cause tremendous stress. How is renal medullary carcinoma diagnosed?

Dr. Tannir:  

Renal medullary carcinoma is diagnosed by imaging. Symptoms typically include pain, blood in the urine, and, of course, if the cancer has spread to organs, cough, fever, weight loss…so the diagnosis is made by imaging first. And typically this is done at a facility, hospital, clinic or emergency room, with an ultrasound or a CAT scan or an MRI, which typically shows a mass in one of the kidneys. Renal medullary carcinoma arises more commonly in the right kidney than the left kidney and three-quarters of the time it arises in the right kidney. So, but it can arise in the left kidney. So once there is a mass in the kidney, that obviously needs to lead to a biopsy.

And ultimately the diagnosis of RMC is made by obtaining a piece of that tumor, whether it’s from the mass in one of the two kidneys or a biopsy of a site that the cancer has spread to. So my activation tip is for a patient who has these symptoms and they seek medical advice at a hospital or a clinic or emergency room, is to follow up after they have that imaging study. Occasionally the facility may report the findings on the CAT scan, let’s say, but patients may not get that report; and, unfortunately, this may not be followed later with a phone call to the patient or family to alert them about the findings. So they need to…

Patients need to be proactive and participate in their care by getting the report, by finding out, by following up what showed up on the CAT scan or ultrasound or MRI, and then follow up further with a facility that is specialist in this type of disease.  So my activation tip is be involved, be engaged, be proactive, follow up after you had a test. And if you..if the patient goes to a facility and they just get dismissed without doing the test, because unfortunately I’ve seen it in my practice time and again, where a patient goes to a facility complaining of blood in the urine or pain, and they’re treated with antibiotics and they’re told that they have an infection and the patient doesn’t follow up and they haven’t done an imaging study, a CAT scan or an MRI or ultrasound.

So I think it is important, I would like patients to be aware and to be informed of what the symptoms mean. And that warning that blood in the urine or pain needs to be followed up and should not be dismissed or assumed that this is an infection or a stone that passed and you’re young, you don’t have to worry about cancer. They need to really follow up if that facility, that physician did not order the test, they need to follow up with their personal family physician and obtain those tests. So that’s really my activation tip for patients. 


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How Is Breast Cancer Staged?

How Is Breast Cancer Staged? from Patient Empowerment Network on Vimeo.

What do breast cancer patients need to know about staging? Expert Dr. Bhuvaneswari Ramaswamy explains clinical staging and discusses common breast cancer genetic mutations.

Dr. Bhuvaneswari Ramaswamy is the Section Chief of Breast Medical Oncology and the Director of the Medical Oncology Fellowship Program in Breast Cancer at The Ohio State College of Medicine. Learn more about this expert here.

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Transcript:

Katherine:

Dr. Ramasamy, how is breast cancer staged?

Dr. Ramaswamy:          

The breast cancer is usually staged by using couple of things. One is clinical staging. So, when you come in with the initial you feel a lump and you get a mammogram. So, we will stage you by   understanding the size of your tumor in your breast as well as whether we are able to palpate your lymph nodes. Second, we, you know, the imaging. What we feel as a size is usually a little bit   overestimated when we look at the mammograms or  the MRIs that you have. And then we’ll see whether in the – in those imagings whether your lymph nodes are looking abnormal. So, we use these initially to do clinical staging. But then when we go to surgery, that’s when we do the correct   pathological staging because now, we know exactly your tumor size. Then they do what’s called a sentinel lymph node biopsy.

We don’t need to take all the lymph nodes to stage your nodal status anymore. We just use this   methodology in the surgery, in this – during surgery  to just pick out those nodes that is draining your tumor back. And whether they’re positive or not. In general, as long as you don’t have a very locally advanced cancer, we don’t need to do staging scans to stage you for breast cancer. But in case you are unlucky enough to have cancer spread in those, and we do scans and you have cancer either in your bone or liver or lung, then that is a higher staging, and that’s what’s called the stage IV cancer.

What MPN Patient Type Is a Good Candidate for Telemedicine Visits?

What MPN Patient Type Is a Good Candidate for Telemedicine Visits? from Patient Empowerment Network on Vimeo.

What myeloproliferative neoplasm (MPN) patient type makes a good candidate for telemedicine visits? MPN expert Dr. Jamile Shammo shares her perspective of patient situations that work well for telemedicine and those who can benefit from in-person visits as part of ongoing care.

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Transcript:

Lisa Hatfield:

As more institutions start to have in-person visits instead of only telemedicine visits, you might be wondering if you should keep doing telemedicine visits or move back to seeing your physician in-person. Some people might want to continue doing telemedicine for a number of reasons, including convenience/no travel involved and  limiting your exposure to colds/infection from other patients. There are certain MPN patients that could be seen with telemedicine visits or fewer in-person visits. Listen as Dr. Jamile Shammo explains.

Dr. Jamile Shammo:

So, when I think of the patient that might benefit most from seeing the physician via televisit, for example, it would be someone who perhaps has a stable disease, someone who I may want to monitor perhaps every three to six months, someone who may have stable counts, and we’re just talking to about their symptoms and monitoring those types of things every so often. And perhaps I look at the labs, and you can discuss their symptoms and whether or not they have splenomegaly and issues like that. 

Lisa Hatfield:

As Dr. Shammo notes, if your MPN is considered stable and you typically only see your doctor every three to six months, it might be worth continuing telemedicine visits instead of going back to in-person visits. 

Dr. Jamile Shammo:

Someone who may already be on a stable dose of medication and we don’t have to do any dose adjustments and even if we have to do those adjustments, perhaps we could do labs a little more frequently, so that would be all right too.

Lisa Hatfield:

If you are on a stable dose of your medication and don’t need any modifications or just have minor adjustments, you could consider staying with telemedicine visits. 

But what patients should consider doing more in-person visits, now that COVID-19 precautions are lighter? Dr. Shammo goes on to explain THAT patient could be…

Dr. Jamile Shammo:

Someone in whom I would like to initiate in treatment, someone in whom the disease may be progressing a little too quickly, someone who I may want to do an exam and assess their spleen, I suppose you could send them to an ultrasound facility and obtain an MRI or a CT, or an ultrasound of the imaging study that is. But there’s nothing like an actual exam of the patient. You are thinking about the disease progression, so those sorts of patients in which the disease is actually changing its pace, you may want to take a look at it, the full smear look and examine the skin for certain TKI and signs and symptoms of low platelets and that sort of thing. Look in the mouth for ulcers and things of that nature. 

Lisa Hatfield:

As always, please discuss with your health care team before deciding to switch to only telemedicine visits or going back to in-person visits. They know your history and can help decide what is best for you and your care at this particular time. 


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How Do You Break Down Lung Cancer Diagnosis to New Patients?

How Do You Break Down Lung Cancer Diagnosis to New Patients? from Patient Empowerment Network on Vimeo.

How might a lung cancer diagnosis be explained to new patients? Expert Dr. Lecia Sequist from Massachusetts General Hospital shares how she breaks down the the tests involved in non-small cell lung cancer (NSCLC) diagnosis and treatment, advice to patients, and best practices she’s learned in communicating information to patients.

Dr. Sequist is program director of Cancer Early Detection & Diagnostics at Massachusetts General Hospital and also The Landry Family Professor of Medicine at Harvard Medical School.

[ACT]IVATION TIP:

“We know that not all patients are offered genetic testing. And if you have a diagnosis of non-small cell lung cancer, or especially the most common subtype of that called adenocarcinoma, genetic testing is most likely an important part of figuring out your treatment. So be sure to ask your doctor if that’s been done and if it hasn’t, should it be done.”

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What Are the Noted Disparities in Lung Cancer Screening and Access


Transcript:

Lisa Hatfield:

Dr. Sequist, you have a new patient coming into your office just diagnosed with non-small cell lung cancer. How do you explain to that patient? I’m sure they’re wide-eyed and fearful and afraid. How do you explain to the layperson what that is and then the subsequent treatment that they might be experiencing in the coming months with a new diagnosis?

Dr. Lecia Sequist:

Yeah, this is a very confusing time for most patients because they’re trying to wrap their head around what’s going on. They’re usually being fed information at such a rate. It’s like drinking from a fire hose, and it’s hard to take it all in. On top of that, they may not be feeling well physically. So I think it is important to repeat things, to pause a lot, to ask if there are questions, and to give people an opportunity to get back in touch with you with questions later, because, of course, it’s happened to all of us. As soon as we walk out of the doctor’s office, that’s when the question pops into our brain. But non-small cell lung cancer, it’s a very common cancer. And it basically is a type of cancer that starts in the lung, but it can spread to other parts of the body.

And some of the most important pieces of information that your doctor will need to help figure out a treatment plan along with you is to get a biopsy to confirm that the diagnosis is what they think it is. And that is usually an invasive procedure where a small piece of the cancer is removed from the body so that you can look at it under the microscope, and they can confirm that it’s that type of lung cancer. And then probably a series of scans or radiology tests where they’re looking at different parts of the body, maybe with different lenses such as a CAT scan or a PET scan or an MRI. Those are just different types of radiology exams to see if the cancer might have spread to any of the different places.

And for lung cancer, we usually try to look head to toe, essentially look at the whole body and get a complete picture of what’s going on. And the third important thing that doctors will need to come up with a treatment plan is to do something called genetic testing. This can be confusing for people because we’re not looking at their family. We’re not looking for genes that could have come from their parents or have been passed on to their children. We’re really looking at the genes of the cancer. And together looking at the biopsy, the genes that are activated within the cancer, if any, and where the cancer might be in the body, that helps the doctors put together a treatment plan of how to attack the cancer.

Lisa Hatfield:

Great. Thank you. Do you have any tips specifically for patients when they’re first diagnosed?

Dr. Lecia Sequist:

Yeah. My activation tip for someone with newly diagnosed lung cancer would be to make sure that they’re asking their doctor if genetic testing should be done on their cancer. We know that not all patients are offered genetic testing. And if you have a diagnosis of non-small cell lung cancer, or especially the most common subtype of that called adenocarcinoma, genetic testing is most likely an important part of figuring out your treatment. So be sure to ask your doctor if that’s been done and if it hasn’t, should it be done. 


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Essential Testing Following a Prostate Cancer Diagnosis

Essential Testing Following a Prostate Cancer Diagnosis from Patient Empowerment Network on Vimeo.

What essential tests do prostate cancer patients need following a diagnosis? Dr. David Wise shares an overview of imaging, scans, and targeted testing to help guide an optimal care and treatment plan for each patient.

Dr. David Wise is Director of Genitourinary Medical Oncology at the Laura and Isaac Perlmutter Cancer Center at NYU Langone Health. Learn more about Dr. Wise.

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Why Should You Ask Your Doctor About Prostate Cancer Genetic Testing?


Transcript:

Dr. David Wise:

Sure. So, that’s a great question. The testing for prostate cancer really has advanced over the last decade. So, it’s very much standard, of course, for patients to have a biopsy to confirm evidence of prostate cancer. That biopsy will assess for the Gleason score, which gives us information about how abnormal those cells look under the microscope.  

It remains the most important feature for understanding the risk of the cancer and how intensive the treatment needs to be to treat that cancer. Of course, the PSA at the time of diagnosis is also useful for that assessment of risk. And the MRI is the third key feature that we look at, the MRI of the prostate, that is, which is often done before biopsy and often guides the biopsy for the urologists to make sure that they’re sampling the most concerning nodule within the prostate. And that MRI gives us information about the extent of the cancer, whether there had been any spread of the cancer, and the overall size of the prostate cancer mass. Now, over the past few years, there’s been some changes.  

So, patients with high risk or very high risk but nonmetastatic prostate cancer are often also imaged with something called PET scan, which is specific for prostate cancer looking at the levels of a protein called PSMA. And there are several brand names that will provide that imaging test through this PET imaging scan. That also gives us an even more accurate sense of the extent of the cancer, whether it has spread or not.  

And I think what’s really important is also thinking about the genetics of the cancer. And so, for patients with high-risk early-stage prostate cancer or metastatic prostate cancer and for patients with a significant family history or with an Ashkenazi Jewish ancestry, we recommend hereditary genetic testing.  

And that needs to be distinguished from testing of the tumor itself or testing of the DNA derived from the tumor, which is called somatic testing. And it is not a hereditary test, but it’s a test that actually gives us information about the genes that are mutated and promoted at the development of that cancer. And that somatic testing is important, but it’s really critical for men who have advanced prostate cancer, metastatic hormone-resistant prostate cancer, where we already have FDA-approved treatments that are tailored to the results of those gene test results.  

So, those are really the standard tests that we think about. There are some emerging tests I think that some oncologists will recommend, and some won’t. The most prominent of those is the Decipher genomic score. So, that’s a test that also uses RNA or a type of genetic information from the cancer that can be used to assess the risk.  

And in my experience, that gives sometimes complementary information and adds further, I would say, or sheds further light on the tests that we already have. And particularly for men with otherwise intermediate risk prostate cancer, sometimes, the Decipher test can give us some more clarity, but I don’t think it’s absolutely critical at this time to order that test. I think we usually get the information that we need from the test that we have. 

An Expert Explains Predictive Biomarker Testing for Lung Cancer

An Expert Explains Predictive Biomarker Testing for Lung Cancer from Patient Empowerment Network on Vimeo.

What is lung cancer biomarker testing? Dr. Grace Dy defines both biomarker and molecular testing and explains how these test results are used in lung cancer patient care.

Dr. Grace Dy is Chief of Thoracic Oncology and Professor of Oncology in the Department of Medicine at Roswell Park Comprehensive Cancer Center in Buffalo, New York. Learn more about Dr. Grace Dy.

See More From INSIST! Lung Cancer

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Advances in Non-Small Cell Lung Cancer Testing

Advances in Non-Small Cell Lung Cancer Testing


Transcript:

Dr. Grace Dy:

My name is Grace Dy. I’m a thoracic medical oncologist at Roswell Park Comprehensive Cancer Center here in Buffalo, New York. 

Katherine Banwell:

Thank you for being with us today.  

Dr. Grace Dy:

Thank you for having me. 

Katherine Banwell:

What is biomarker testing, and is this the same as molecular testing for non-small cell lung cancer? 

Dr. Grace Dy:

That’s a very good question. So, let’s first maybe define what biomarker means. So, biomarker is an all-encompassing term relating to a measurement of a biological parameter. That’s what it means.  

So, you can actually have biomarker related to imaging. So, it’s not specific to a particular test. But what it’s trying to do is to guide doctors in making decisions. So, you can have, for example, a PET scan as a biomarker to indicate the effectiveness of therapy. 

So, it’s not specific to a test. So, it’s a broader scope. But in cancer, generally, it’s used interchangeably with molecular testing. And molecular testing is a more focused test on the genetics of the cancer.  

In some aspects, sometimes it also refers to testing for proteins, characteristics of different proteins in the cancer. Again, to help doctors generally define what might be a better treatment option that is personalized to the patient’s cancer. 

In some instances, the biomarker can also be what we call prognostic, meaning independent of what we do with the treatment, it may define to us how well a patient will survive or have their outcomes, whether they have treatment or not. 

So, those are maybe the nuances between a predictive versus a prognostic biomarker. But for all intents and purposes, the most common test that we use for lung cancer patients are what we call predictive biomarker testing. Molecular testing is one of the ones that we often commonly request to help us define treatment modalities, especially in non-small cell lung cancer. 

How is Multiple Myeloma Diagnosed and What Testing is Necessary After?

How is Multiple Myeloma Diagnosed and What Testing is Necessary After? from Patient Empowerment Network on Vimeo.

What testing is involved in multiple myeloma diagnosis and treatment? Watch as myeloma expert Dr. Elizabeth O’Donnell explains specific types of myeloma testing and what they check for, and patient and Empowerment Lead Lisa Hatfield shares testing that she’s received and typical tests for myeloma diagnosis and care.

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Transcript:

So how is multiple myeloma diagnosed? The International Myeloma Working Group (IMWG) confirms diagnosis with both:

  • Presence of malignant plasma cells in the bone marrow at greater or equal to 10 percent or presence of extramedullary or bony plasmacytoma, confirmed with biopsy
  • CRAB features:
    • Calcium elevation: serum calcium greater than 0.25 mmol/L (> 1mg/dL) higher than the upper limit of normal or greater than 2.75 mmol/L (> 11 mg/dL)
    • Renal failure (or kidney failure): creatinine clearance less than 40 mL per minute or serum creatinine greater than 177 μmol/L (> 2 mg/dL)
    • Anemia: hemoglobin concentration of greater than 2 g/dL below the lower limit of normal, or a hemoglobin concentration of less than 10 g/dL
    • Bony lesions: one or more osteolytic lesions found on X-ray, CT scan, or PET‑CT scan
  • Ratio of involved/uninvolved serum free light chain ratio greater than or equal to 100
  • Clonal plasma cells in the bone marrow greater than or equal to 60 percent
  • One or more focal lesions found on MRI studies (measuring a minimum of 5 mm in size)

Dr. Elizabeth O’Donnell:

Testing really does depend a little bit on the stage at which your disease is found. In general, we use a very specific blood test that lets us know that there is clonal protein present. Remember, plasma cells are a type of white blood cell, and they make something called antibodies. We use a test called a serum protein electrophoresis, which is a blood test – an SPEP, we call it – that can tell us the difference between normal, healthy antibody and clone that are made from the plasma cells that we see in MGUS, smoldering, and multiple myeloma…once we identify that there’s a plasma cell disorder, then that can set in place a workup, depending on the amount of clonal, monoclonal, M-protein that we see.

So, sometimes that involves bone imaging. Historically that was a skeletal survey where we took lots of X-rays of your body. Now we have other tests we use. PET scans, CT scans, whole body MRIs. Sometimes it depends where you’re getting your treatment, and also it depends a little bit on your doctor’s degree of suspicion. 

 Lisa Hatfield:

So my myeloma was diagnosed using a scan. An MRI was done of my spine, and that’s when my doctor saw the plasmacytoma in my spine. Further testing indicated that I had something called kappa light chain myeloma. So a lot of patients will have regular tests done, blood work that may show anemia. I think if anybody has an indication of myeloma, further testing should be looked at. There’s something called a light chain assay, a normal CBC, a metabolic panel, a light chain assay was critical in my case, because all my protein levels were coming back normal. Some patients have an elevated level of protein in their blood. Mine was normal. So having all the standard blood work plus having the light chain assay done.

And then really the gold standard for diagnosing myeloma, unfortunately, right now is a bone marrow biopsy. It’s not fun. It’s not horrible. So for patients who are anticipating that, you can get through it. It will be okay. That is the gold standard for diagnosing the myeloma,  the type of myeloma, and then any cytogenetics related to that myeloma that help guide the therapy that you might be getting going forward.

How Are Patients on Myeloma Maintenance Therapy Monitored?

How Are Patients on Myeloma Maintenance Therapy Monitored? from Patient Empowerment Network on Vimeo.

Myeloma specialist Dr. Omar Nadeem explains how a follow-up care and monitoring plan for patients on maintenance therapy is determined.

Dr. Omar Nadeem is the Clinical Director of the Myeloma Immune Effector Cell Therapy Program and Associate Director of the Multiple Myeloma Clinical Research Program at the Dana-Farber Cancer Institute. Learn more about Dr. Nadeem.

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Transcript:

Katherine Banwell:

Dr. Nadeem, many patients are on maintenance therapy following active treatment. So, how is a patient on maintenance therapy monitored? 

Dr. Omar Nadeem:

Yes, so, majority of the time just with blood work. We don’t necessarily need to do a lot of bone marrow biopsies and PET scans for a majority of patients that are on maintenance therapy unless we’re either worried about their blood markers or some symptoms. Generally speaking, any time – it depends on what maintenance therapy they’re on, of course. If they’re just on lenalidomide (Revlimid), which is the most commonly used maintenance therapy, a lot of times we check in with them every one to three months. 

Depending on how their disease status is and how they’ve been doing and whether there’s any side effects that we need to worry about. So, they still have to see their doctors, still have to get the blood work. Usually you can get away with having it done no more than once a month or so, unless they are on other medications along with Revlimid, where we then have to check in with them a little bit more frequently. 

And some of that changes, so patients can be on maintenance therapy for five plus years, and we get a very good sense of how they are doing and kind of how their disease is doing, and we can kind of be a moving target in terms of the frequency of the follow-ups. 

What Are Currently Available Myeloma Treatments?

What Are Currently Available Myeloma Treatments? from Patient Empowerment Network on Vimeo.

Dr. Omar Nadeem reviews myeloma treatment classes, including immunomodulatory therapies, proteasome inhibitors, and monoclonal antibodies. Dr. Nadeem also discusses how combining these therapies has boosted the effectiveness of myeloma treatment.

Dr. Omar Nadeem is the Clinical Director of the Myeloma Immune Effector Cell Therapy Program and Associate Director of the Multiple Myeloma Clinical Research Program at the Dana-Farber Cancer Institute. Learn more about Dr. Nadeem.

See More From INSIST! Myeloma

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How Is Research Advancing Myeloma Treatment and Care?


Transcript:

Katherine Banwell:

Dr. Nadeem, what types of myeloma treatment classes are currently available?  

Dr. Omar Nadeem:

Yes. So, we started over three decades ago plus with just having basically steroid medications and some older chemotherapy drugs that weren’t very targeted at all, and that was basically all we had up until about a little over 20 years ago, where immunomodulatory drugs were first discovered to be effective in multiple myeloma, and that included thalidomide (Contergan or Thalomid) and now a commonly used agent called lenalidomide, or Revlimid.  

After that, we had a next class of medications approved called proteasome inhibitors that work differently than the immunomodulatory drugs, and then we combined all of these therapies about a decade plus ago and showed that that was better than anything else that we were doing before that. So, combining the steroids with the immunomodulatory drugs and proteasome inhibitors became the standard of care. 

And then we had the next class of drugs approved in 2015 called monoclonal antibodies, and that’s the first time we have monoclonal antibodies approved for myeloma, and it first started in patients that had relapsed myeloma, and then they made it all the way up to front line therapy with a drug in particular called daratumumab (Darzalex).  

And now what we’re going is entering an era of combining all four of these therapies, just like we did 10 years ago with three drugs, and showing that combining four drugs is actually better than three. And the important thing there is that it’s not necessarily adding cumulative toxicity. These are targeted therapies; they all work differently, but they all work really well together. So, now combining these agents has allowed us to really treat the disease effectively and allow for patients to tolerate the therapies.  

And then over the last couple of years, we’ve now entered kind of the next renaissance in myeloma where you have immunotherapies, and these are sort of true immunotherapies, in some cases taking the patient’s own T cells and then genetically modifying them to recognize myeloma cells and putting them back into patients. This is called CAR T-cell therapy, and that’s now approved for patients with multiple myeloma.  

And that again, just like the previous drug, sits in patients that have – you know, at a space where patients have had multiple relapses. But we’re now studying that earlier and earlier, and that along with another class of drugs called bispecific antibodies that also use your T cells via a different mechanism. A lot of exciting things going on, and we keep adding to the available agents for this disease.  

How Is MGUS Monitored?

How Is MGUS Monitored? from Patient Empowerment Network on Vimeo.

Myeloma expert Dr. Irene Ghobrial discusses how patients with monoclonal gammopathy of undetermined significance (MGUS) are monitored over time and shares an update on research being conducted to learn more about this myeloma precursor condition.

Dr. Irene Ghobrial is Director of the Clinical Investigator Research Program at Dana-Farber Cancer Institute and Professor of Medicine at Harvard Medical School. Learn more about Dr. Ghobrial.

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Transcript:

Katherine Banwell:

Dr. Ghobrial, how are people with MGUS monitored? 

Dr. Irene Ghobrial:

Yes, so how do we even diagnose them, right? It’s a big question because it’s incidentally found. Someone will go to their primary care doctor and have a little bit of a high protein or slight anemia, and it may not be related, and then their doctor will check for serum protein electrophoresis, and that’s pure luck. We want to take away luck from this equation. We want to take away chance from this equation. 

And we want to start screening people who are at risk, and we are doing that with the PROMISE study. It’s online available to everyone nationwide, international now, where you can sign up on promisestudy.org and try to ask the question that we do for you research level, the serum protein electrophoresis, and a new test called mass spectrometry that is much more sensitive than SPEP to find it. 

Now, once we find MGUS, we want to know what is my own personal risk of progressing to myeloma? Because I could be 30 years old with MGUS, and likely I will progress to myeloma in the next 10 years, 20 years, and by the time I’m age 60, I would have been diagnosed with myeloma. Just a true case in many, many people. If people are diagnosed today with myeloma, they are going to their doctor because they had back pain or anemia, and they are diagnosed with myeloma. In almost all of the cases, they would have had MGUS and smoldering, but they didn’t know about it three years ago, four years ago because they never got tested for it. 

So, we want to change that completely and become proactive rather than being reactive and waiting for symptoms to happen. Once you have MGUS or smoldering, because we don’t know, we start looking for all of the things to help us identify your risk of progression. So, we look at the height of your M-spike. Is it small or big? And then we in many cases say okay, maybe you need a bone marrow biopsy if your M-spike is a little bit on the higher side because we don’t want to miss smoldering myeloma, which will change the prognosis. 

And then we start looking at do you have anemia? Do you have kidney failure? Do you have any of the other things that may predict that you may be actually going into myeloma? 

We also look at it more as a movie rather than as a snapshot, rather than a picture. If your M-spike is changing or your light chain is changing every three months, every six months, that’s an indicator that the cancer cells are doing something. They’re working in there and growing, and that’s why they’re increasing the M-spike and the light chain. 

And that evolving number is actually a very big predictor of telling us that there is a risk of progressing. Those are all clinical markers that we can do. When we look at the FISH, which we talked about, we can tell the certain markers are chromosomal changes that tell you that those cancer cells want to grow a little bit faster. So, 1q abnormality, 4;14, 14;16, 17p, all of those have been shown that when you have them, the cancer cells are not just sitting around and doing nothing. They’re actually starting to grow, and we want to catch them and understand what is the biology of the disease rather than just how many cancer cells you have. 

We do a lot of research level, and potentially now we’re going to give them back to the patients as clinical level, where we can give you more information about that prediction of your risk of progression. One of my colleagues calls it predicting the hurricane. We know that the hurricane will happen, and it’s a question of how precise could you be? We’re the Weather Channel men here.  

And we could be very precise and tell you it’s going to hit Miami at 2:00 in the afternoon tomorrow, and you could be prepared for it and get out of there. Or, you could be completely unprepared because we were not very accurate in our prediction and tell you it may hit the whole East Coast in the next two weeks. That’s not accuracy. So, we want to be more accurate in our prediction of myeloma because one person will never develop myeloma and can go have fun and enjoy life and not be worried and anxious about their risk, and another person we might say let’s watch you more carefully, or let’s think of interception preventing things. 

So, we do things called next-generation sequencing, taking all of those small numbers of cancer cells, even as little as single cells, and we can do whole genome sequencing and give back that information.  

We look at the immune cells and give back that information. We can do mass spectrometry. And with Betsy and Omar, we’re doing more and more tests so that when we have this prediction model, circulating tumor cells and so on, we can be more accurate in giving you that prediction. 

And help you make the next decision of are we watching carefully, are we preventing and intervening with behavior modification with other things? Are we intervening with therapy to intercept the disease? 

Katherine Banwell:

When are more in-depth tests necessary?  

Dr. Irene Ghobrial:

It depends, of course, on everything. I would probably say for every patient, it is a unique discussion. Some patients will tell me, “Let’s watch again in three to six months, and then I will do more testing,” and some patients want to know everything immediately. And we have those discussions with every patient, and we tailor our therapy as well as our diagnostics workup with every patient, depending on how much they want to know, how much their risk is, and how much they want to be involved in that discussion of how much to prevent myeloma. 

What Should Patients Know About Myeloma Testing?

What Should Patients Know About Myeloma Testing? from Patient Empowerment Network on Vimeo.

Testing following a myeloma diagnosis, or relapse, can impact care and treatment decisions. Drs. Betsy O’Donnell and Omar Nadeem provide an overview of essential myeloma testing, how the test results impact staging, and discuss recent advances in testing that have changed myeloma care.

Dr. Omar Nadeem is the Clinical Director of the Myeloma Immune Effector Cell Therapy Program and Associate Director of the Multiple Myeloma Clinical Research Program at the Dana-Farber Cancer Institute. Learn more about Dr. Nadeem.

Dr. Betsy O’Donnell is Assistant Professor of Medicine at the Dana-Farber Cancer Institute specializing in Plasma Cell Disorders.

See More From INSIST! Myeloma

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Transcript:

Katherine Banwell:

Dr. O’Donnell, let’s move on to testing. What tests are necessary to help understand a patient’s specific disease? 

Dr. Betsy O’Donnell:

Absolutely. So, testing really does depend a little bit on the stage at which your disease is found. In general, we use a very specific blood test that lets us know that there is clonal protein present. Remember, plasma cells are a type of white blood cell, and they make something called antibodies. We use a test called a serum protein electrophoresis, which is a blood test – an SPEP, we call it – that can tell us the difference between normal, healthy antibody and clone that are made from the plasma cells that we see in MGUS, smoldering, and multiple myeloma. 

So, that’s a very important test, and sometimes your primary care doctor may notice that your total protein is elevated and send that test. 

Or there may be other things that tip them off. Perhaps the kidneys are not where they used to be. And so that test is sent, and that’s the first tip-off that someone might have a plasma cell disorder.  

Once we identify that there’s a plasma cell disorder, then that can set in place a workup, depending on the amount of clonal, monoclonal, M-protein that we see. So, sometimes that involves bone imaging. Historically that was a skeletal survey where we took lots of X-rays of your body. Now we have other tests we use. PET scans, CT scans, whole body MRIs. Sometimes it depends where you’re getting your treatment, and also it depends a little bit on your doctor’s degree of suspicion.  

Bone marrow biopsies are a procedure that we sometimes do. We use a thin, hollow needle to take out just a little piece of bone, about the size of an inchworm, and take some fluid with it. There’s actually fluid inside the bone marrow.  

And that can tell us, just as Dr. Ghobrial was defining the spectrum of plasma cell disorders, based on the percent of plasma cells, that can tell us where somebody belongs, which group they might belong in. So, we can use all of these tests to help give us a good sense of how much disease someone has and where in the spectrum or continuum a person is – MGUS, smoldering, or multiple myeloma. 

Katherine Banwell:

Okay, great. Thank you. I’m assuming these tests can help with understanding the stage of a patient’s myeloma. So, Dr. Nadeem, how is myeloma staged? 

Dr. Omar Nadeem:

Yes. So, myeloma is staged very differently than traditional cancers. Because this is a blood disease, we don’t really think about it like we may in other solid tumor cancers, where if it’s spread to multiple locations it’s IV, etcetera. That doesn’t apply to multiple myeloma. It’s actually staged out of three stages, and uses your blood work for the most part, some blood tests, to help identify which stage you are. Historically, that has correlated with how you may do. 

However, now we are learning that it’s far more to this story than just the blood work. So, we’re now using our bone marrow test results, particularly a test called a FISH test, which looks at the mutations that are present in examinable plasma cells, and if you have presence of some of these high-risk markers, that can actually either upstage you or downstage you if you don’t.  

So, we’re now I think becoming a little bit smarter how we think about this disease. It’s not just based on some blood test. We’re actually looking at the biology of some of these cells and the amount in the bone marrow. A lot of times patients ask, “Well, if I have 50 percent, 60 percent, or 80 percent involvement of the bone marrow, that actually does not have anything to do with staging, right?” So, I think it’s important to know that it’s actually a very unique staging system in multiple myeloma.  

Katherine Banwell:

Okay. Dr. O’Donnell, the landscape of myeloma has changed significantly in recent years. How have advances in testing changed care from myeloma patients?

Dr. Betsy O’Donnell:

So, I mean, the landscape has changed incredibly just in terms of the treatments we have, and I think that Dr. Nadeem was talking about something really important. 

In that when we look at FISH, which allows us to know the biology a little bit more, sometimes it helps us to decide kind of the risk that a patient is. We aren’t really at the point now where we do truly tailored therapies, like you see in some cancers, where we can detect specific mutations and pick drugs that align with that, but there are some that we do use. An example would be a drug called venetoclax (Venclexta), which works very well in patients who have a specific translocation, 11;14. 

So, there is some degree in which we use that FISH and those cytogenetics to help define our treatments, but also really we’re just fortunate that we have new and evolving therapies. We’ve changed how we treat myeloma in the up-front setting, and then at the back end we have an exploding field of immunotherapies, CAR-T cells, bispecific antibody that we’re now using that really have tremendously benefited our patients.  

Katherine Banwell:

Dr. O’Donnell, should all patients undergo in-depth testing, like cytogenetics?  

Dr. Betsy O’Donnell:

Yes, so if you’re doing a bone marrow biopsy, absolutely. The question in terms of who needs bone marrow biopsies, if someone has a low risk MGUS, those patients don’t necessarily require a bone marrow biopsy. It’s an invasive procedure, it’s an uncomfortable procedure. But if we’re doing a workup for multiple myeloma or smoldering myeloma that includes a bone marrow biopsy, then absolutely. 

Katherine Banwell:

Okay. Dr. Nadeem, what are you looking for with cytogenetics, and how might test results affect prognosis and treatment? 

Dr. Omar Nadeem:

Yes, so as mentioned earlier, there are some mutations that are considered high risk, I will say with the caveat that we don’t fully understand every single mutation yet or have identified every single mutation yet that may be high risk or low risk.  

But there are roughly five that we have identified that if a patient has one or two or several of those abnormalities, then their disease may behave a little bit more aggressively or may not respond as well to treatment. 

However, I think myeloma is just very complicated, so we look at a lot of these results in the beginning, both whether they may be good or bad. But I think, ultimately, we have to see how patients do, and that by far is the most important prognostic factor, in my opinion. So, if we look at some of these tools, including staging, some of the bone marrow results and cytogenetics, and try to give some prediction in terms of what we may see from this person’s disease, but ultimately the treatments that are so effective now really dictate the course for the majority of the patients. 

Katherine Banwell:

Are there specific tests that patients should ask for that could impact their care decisions? 

Dr. Omar Nadeem:

Yes, I think it depends on where they are in their disease state. So, if we’re looking at whether a patient has a precursor or plasma cell disorder or multiple myeloma, then they need all the testing to help us figure that out. 

So, that includes a bone marrow biopsy, the FISH testing as we just talked about. Advanced imaging like a PET scan or an MRI is now critical to identify patients that may have multiple myeloma versus those that have a precursor condition. So, we used to count on X-rays, as Dr. O’Donnell mentioned, but now really we do prefer one of those advanced imaging techniques for patients to undergo so that we can know. 

So, I think if they have basically those tests completed, that gives us most of the information that we need. 

Expert Advice for Navigating Myeloma Treatment and Care Decisions

Expert Advice for Navigating Myeloma Treatment and Care Decisions from Patient Empowerment Network on Vimeo.

Myeloma experts Dr. Irene Ghobrial, Dr. Omar Nadeem, and Dr. Betsy O’Donnell, review essential testing that may impact the prognosis, care, and treatment options for patients with myeloma. The experts also discuss additional factors that are taken into consideration when choosing a therapy and share updates on new and developing myeloma research.

Dr. Irene Ghobrial is Director of the Clinical Investigator Research Program at Dana-Farber Cancer Institute and Professor of Medicine at Harvard Medical School. Learn more about Dr. Ghobrial.

Dr. Omar Nadeem is the Clinical Director of the Myeloma Immune Effector Cell Therapy Program and Associate Director of the Multiple Myeloma Clinical Research Program at the Dana-Farber Cancer Institute. Learn more about Dr. Nadeem.

Dr. Betsy O’Donnell is Assistant Professor of Medicine at the Dana-Farber Cancer Institute specializing in Plasma Cell Disorders.

See More From INSIST! Myeloma

Download Resource Guide

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Transcript:

Katherine Banwell: Hello and welcome. I’m Katherine Banwell, your host for today’s program. Today we’re going to hear perspectives from three myeloma experts on how to access personalized care for your myeloma. Before we get into the discussion, please remember that this program is not a substitute for seeking medical advice. Please refer to your healthcare team about what might be best for you.  

Well, let’s meet today’s guests. I’ll start with Dr. Irene Ghobrial. Dr. Ghobrial, welcome. Would you please introduce yourself? 

Dr. Irene Ghobrial:

Absolutely, and thank you for having us. My name is Irene Ghobrial. I am a professor of medicine at Dana-Farber Cancer Institute in Boston.  

Katherine Banwell:

Thank you. Also with us today is Dr. Omar Nadeem. Thank you for being with us. Would you introduce yourself? 

Dr. Omar Nadeem:

Hi, everyone. Thank you for having me. My name is Omar Nadeem. I’m an instructor in medicine at Harvard Medical School and I work with the faculty at Dana-Farber myeloma program. 

Katherine Banwell:

Okay, lovely, thank you. And last but not least is Dr. Betsy O’Donnell. Thank you for joining us today. Would you introduce yourself to the audience? 

Dr. Betsy O’Donnell:

Sure, and thank you for having us this morning. My name is Betsy O’Donnell. I’m an assistant professor of medicine at the Dana-Farber Cancer Institute specializing in plasma cell disorders. 

Katherine Banwell:

All right. Thank you to all of you for taking the time out of your schedule to join us today. Before we delve into our discussion, let’s start with understanding the types of myeloma. Dr. Ghobrial, what is MGUS? 

Dr. Irene Ghobrial:

So MGUS, or monoclonal gammopathy of undetermined significance, is a precursor or the stage before myeloma happens, and it’s actually a very common disease or entity in many, many of us as we get older. In fact, maybe 5 percent of the population over the age of 50 would have this early MGUS. 

It doesn’t mean that it’s cancer. It’s a precursor to cancer, and we can talk more about it as we go on. 

Katherine Banwell:

All right. Is it the same as smoldering myeloma, or is that something different? 

Dr. Irene Ghobrial:

It’s not. It’s an earlier stage than smoldering myeloma, and it’s hard to actually make the right definitions. But currently what we say is if you have more than 10 percent cancer cells or plasma cells in your bone marrow, then it’s smoldering myeloma. And by the name, smoldering, it’s almost myeloma. It’s ready to go on fire, but it’s not there yet.  

MGUS is before that, and the difference is that the chance of progression from MGUS to myeloma is only 1 percent per year, so many, many people will never progress to myeloma. While smoldering myeloma, just because there are more cancer cells in the bone marrow, has a higher chance of progressing, which is 10 percent per year. And in some people, a very high chance of progression of 50 percent in two years. 

And we want to make sure that we catch those cases early and not wait for myeloma to happen. 

Katherine Banwell:

How would you define myeloma? 

Dr. Irene Ghobrial:

So, myeloma is currently defined as the same thing. The number of plasma cells in the bone marrow could be above 10 percent or more, or you have a protein in the blood. But the problem is that you’ve already had problems. You’ve had symptoms of end organ damage, so we have either high calcium, bone lesions, or bone fractures, anemia, kidney failure.  

And then now or more recently, we added a few more things to tell us these people are going to really develop myeloma soon. So, it used to be part of smoldering myeloma, now it’s part of the definition of myeloma, so that we can treat patients earlier, which is if your light chain level is very high, above 100 for a ratio, or if you have multiple lesions by something called an MRI or a PET CT scan instead of the traditional X-rays, or if your bone marrow has a lot of the plasma cells, more than 60 percent. 

And these were new definitions to make sure we don’t wait too much until people have an organ damage or symptoms and then we treat them. And you’ll hear from us that we think we should be treating people even earlier than that.  

Katherine Banwell:

Well, thank you for that. That’s very helpful. Dr. O’Donnell, let’s move on to testing. What tests are necessary to help understand a patient’s specific disease? 

Dr. Betsy O’Donnell:

Absolutely. So, testing really does depend a little bit on the stage at which your disease is found. In general, we use a very specific blood test that lets us know that there is clonal protein present. Remember, plasma cells are a type of white blood cell, and they make something called antibodies. We use a test called a serum protein electrophoresis, which is a blood test – an SPEP, we call it – that can tell us the difference between normal, healthy antibody and clone that are made from the plasma cells that we see in MGUS, smoldering, and multiple myeloma. 

So, that’s a very important test, and sometimes your primary care doctor may notice that your total protein is elevated and send that test. 

Or there may be other things that tip them off. Perhaps the kidneys are not where they used to be. And so that test is sent, and that’s the first tip-off that someone might have a plasma cell disorder.  

Once we identify that there’s a plasma cell disorder, then that can set in place a workup, depending on the amount of clonal, monoclonal, M-protein that we see. So, sometimes that involves bone imaging. Historically that was a skeletal survey where we took lots of X-rays of your body. Now we have other tests we use. PET scans, CT scans, whole body MRIs. Sometimes it depends where you’re getting your treatment, and also it depends a little bit on your doctor’s degree of suspicion. 

Bone marrow biopsies are a procedure that we sometimes do. We use a thin, hollow needle to take out just a little piece of bone, about the size of an inchworm, and take some fluid with it. There’s actually fluid inside the bone marrow.  

And that can tell us, just as Dr. Ghobrial was defining the spectrum of plasma cell disorders, based on the percent of plasma cells, that can tell us where somebody belongs, which group they might belong in. So, we can use all of these tests to help give us a good sense of how much disease someone has and where in the spectrum or continuum a person is – MGUS, smoldering, or multiple myeloma. 

Katherine Banwell: Okay, great. Thank you. I’m assuming these tests can help with understanding the stage of a patient’s myeloma. So, Dr. Nadeem, how is myeloma staged? 

Dr. Omar Nadeem: Yes. So, myeloma is staged very differently than traditional cancers. Because this is a blood disease, we don’t really think about it like we may in other solid tumor cancers, where if it’s spread to multiple locations it’s four, etcetera. That doesn’t apply to multiple myeloma. It’s actually staged out of three stages, and uses your blood work for the most part, some blood tests, to help identify which stage you are. Historically, that has correlated with how you may do. 

However, now we are learning that it’s far more to this story than just the bloodwork. So, we’re now using our bone marrow test results, particularly a test called a FISH test, which looks at the mutations that are present in examinable plasma cells, and if you have presence of some of these high-risk markers, that can actually either upstage you or downstage you if you don’t.   

So, we’re now I think becoming a little bit smarter how we think about this disease. It’s not just based on some blood test. We’re actually looking at the biology of some of these cells and the amount in the bone marrow. A lot of times patients ask, well, if I have 50 percent, 60 percent, or 80 percent involvement of the bone marrow, that actually does not have anything to do with staging, right? So, I think it’s important to know that it’s actually a very unique staging system in multiple myeloma. 

Katherine Banwell:

Okay. Dr. O’Donnell, the landscape of myeloma has changed significantly in recent years. How have advances in testing changed care from myeloma patients? 

Dr. Betsy O’Donnell:

So, I mean, the landscape has changed incredibly just in terms of the treatments we have, and I think that Dr. Nadeem was talking about something really important.  

In that when we look at FISH, which allows us to know the biology a little bit more, sometimes it helps us to decide kind of the risk that a patient is. We aren’t really at the point now where we do truly tailored therapies, like you see in some cancers, where we can detect specific mutations and pick drugs that align with that, but there are some that we do use. An example would be a drug called venetoclax (Venclexta), which works very well in patients who have a specific translocation, 11;14.  

So, there is some degree in which we use that FISH and those cytogenetics to help define our treatments, but also really we’re just fortunate that we have new and evolving therapies. We’ve changed how we treat myeloma in the up-front setting, and then at the back end we have an exploding field of immunotherapies, CAR-T cells, bispecific antibody that we’re now using that really have tremendously benefited our patients.  

Katherine Banwell:

Dr. O’Donnell, should all patients undergo in-depth testing, like cytogenetics?  

Dr. Betsy O’Donnell:

Yes, so if you’re doing a bone marrow biopsy, absolutely. The question in terms of who needs bone marrow biopsies, if someone has a low risk MGUS, those patients don’t necessarily require a bone marrow biopsy. It’s an invasive procedure, it’s an uncomfortable procedure. But if we’re doing a workup for multiple myeloma or smoldering myeloma that includes a bone marrow biopsy, then absolutely. 

Katherine Banwell:

Okay. Dr. Nadeem, what are you looking for with cytogenetics, and how might test results affect prognosis and treatment? 

Dr. Omar Nadeem:

Yes, so as mentioned earlier, there are some mutations that are considered high risk, I will say with the caveat that we don’t fully understand every single mutation yet or have identified every single mutation yet that may be high risk or low risk.   

But there are roughly five that we have identified that if a patient has one or two or several of those abnormalities, then their disease may behave a little bit more aggressively or may not respond as well to treatment. 

However, I think myeloma is just very complicated, so we look at a lot of these results in the beginning, both whether they may be good or bad. But I think, ultimately, we have to see how patients do, and that by far is the most important prognostic factor, in my opinion. So, if we look at some of these tools, including staging, some of the bone marrow results and cytogenetics, and try to give some prediction in terms of what we may see from this person’s disease, but ultimately the treatments that are so effective now really dictate the course for the majority of the patients. 

Katherine Banwell:

Are there specific tests that patients should ask for that could impact their care decisions? 

Dr. Omar Nadeem:

Yes, I think it depends on where they are in their disease state. So, if we’re looking at whether a patient has a precursor or plasma cell disorder or multiple myeloma, then they need all the testing to help us figure that out. 

So, that includes a bone marrow biopsy, the FISH testing as we just talked about. Advanced imaging like a PET scan or an MRI is now critical to identify patients that may have multiple myeloma versus those that have a precursor condition. So, we used to count on X-rays, as Dr. O’Donnell mentioned, but now really we do prefer one of those advanced imaging techniques for patients to undergo so that we can know. 

So, I think if they have basically those tests completed, that gives us most of the information that we need. 

Katherine Banwell:

Okay. Thank you for that. Let’s go back to asymptomatic myeloma for a moment. Dr. Ghobrial, how are people with MGUS monitored? 

Dr. Irene Ghobrial:

Yes, so how do we even diagnose them, right? It’s a big question because it’s incidentally found. Someone will go to their primary care doctor and have a little bit of a high protein or slight anemia, and it may not be related, and then their doctor will check for serum protein electrophoresis, and that’s pure luck. We want to take away luck from this equation. We want to take away chance from this equation. 

And we want to start screening people who are at risk, and we are doing that with the PROMISE study.  

It’s online available to everyone nationwide, international now, where you can sign up on promisestudy.org and try to ask the question that we do for you research level, the serum protein electrophoresis, and a new test called mass spectrometry that is much more sensitive than SPEP to find it. 

Now, once we find MGUS, we want to know what is my own personal risk of progressing to myeloma? Because I could be 30 years old with MGUS, and likely I will progress to myeloma in the next 10 years, 20 years, and by the time I’m age 60, I would have been diagnosed with myeloma. Just a true case in many, many people. If people are diagnosed today with myeloma, they are going to their doctor because they had back pain or anemia, and they are diagnosed with myeloma. In almost all of the cases, they would have had MGUS and smoldering, but they didn’t know about it three years ago, four years ago because they never got tested  
for it. 

Katherine Banwell:

Right.  

Dr. Irene Ghobrial:

So, we want to change that completely and become proactive rather than being reactive and waiting for symptoms to happen. Once you have MGUS or smoldering, because we don’t know, we start looking for all of the things to help us identify your risk of progression. So, we look at the height of your M-spike. Is it small or big? And then we in many cases say okay, maybe you need a bone marrow biopsy if your M-spike is a little bit on the higher side because we don’t want to miss smoldering myeloma, which will change the prognosis. 

And then we start looking at do you have anemia? Do you have kidney failure? Do you have any of the other things that may predict that you may be actually doing into myeloma? 

We also look at it more as a movie rather than as a snapshot, rather than a picture. If your M-spike is changing or your light chain is changing every three months, every six months, that’s an indicator that the cancer cells are doing something. They’re working in there and growing, and that’s why they’re increasing the M-spike and the light chain. 

And that evolving number is actually a very big predictor of telling us that there is a risk of progressing. Those are all clinical markers that we can do. When we look at the FISH, which we talked about, we can tell the certain markers are chromosomal changes that tell you that those cancer cells want to grow a little bit faster. So, 1q abnormality, 4;14, 14;16, 17p, all of those have been shown that when you have them, the cancer cells are not just sitting around and doing nothing. They’re actually starting to grow, and we want to catch them and understand what is the biology of the disease rather than just how many cancer cells you have. 

We do a lot of research level, and potentially now we’re going to give them back to the patients as clinical level, where we can give you more information about that prediction of your risk of progression. One of my colleagues calls it predicting the hurricane. We know that the hurricane will happen, and it’s a question of how precise could you be? We’re the Weather Channel men here.  

And we could be very precise and tell you it’s going to hit Miami at 2:00 in the afternoon tomorrow, and you could be prepared for it and get out of there. Or, you could be completely unprepared because we were not very accurate in our prediction and tell you it may hit the whole East Coast in the next two weeks. That’s not accuracy. So, we want to be more accurate in our prediction of myeloma because one person will never develop myeloma and can go have fun and enjoy life and not be worried and anxious about their risk, and another person we might say let’s watch you more carefully, or let’s think of interception preventing things. 

So, we do things called next-generation sequencing, taking all of those small numbers of cancer cells, even as little as single cells, and we can do whole genome sequencing and give back that information.  

We look at the immune cells and give back that information. We can do mass spectrometry. And with Betsy and Omar, we’re doing more and more tests so that when we have this prediction model, circulating tumor cells and so on, we can be more accurate in giving you that prediction. 

And help you make the next decision of are we watching carefully, are we preventing and intervening with behavior modification with other things? Are we intervening with therapy to intercept the disease? 

Katherine Banwell:

When are more in-depth tests necessary?  

Dr. Irene Ghobrial:

It depends, of course, on everything. I would probably say for every patient, it is a unique discussion. Some patients will tell me, “Let’s watch again in three to six months, and then I will do more testing,” and some patients want to know everything immediately. And we have those discussions with every patient, and we tailor our therapy as well as our diagnostics workup with every patient, depending on how much they want to know, how much their risk is, and how much they want to be involved in that discussion of how much to prevent myeloma. 

Katherine Banwell:

All right. Dr. Nadeem, as we begin our treatment discussion, would you define personalized medicine as it relates to myeloma care? 

Dr. Omar Nadeem:

Yes. I think we’re getting better and better at really having a personalized treatment plan for each individual patient with multiple myeloma. I think Dr. O’Donnell defined before, we are identifying some of the markers where we have targeted therapy for, and we hope with time we’ll discover more and more targets that can truly lead to personalized medicine for individual patients. 

Right now, though, we have a lot of approved therapies for multiple myeloma, and that list is getting longer and longer basically every month, it seems, nowadays. So, when we have so many tools in our toolkit, we then have to figure out, well, which strategy works for which patient? And the fact that we have effective therapies, we’re able to tailor how much of one particular therapy a patient may benefit from. So, some of the decisions that come into play is which medication should I combine for this patient which will lead to obviously disease eradication? 

And then also, how much do I need to intensify that treatment? Do we need to think about doing a stem cell transplant or not? Yes or no? 

There’s lot of pros and cons, right? So, it’s a very personalized decision that we have, looking at the disease factors, but also a lot of personal factors because transplant interrupts life, and then we have to make sure that that fits with that particular patient’s lifestyle. 

And then we talk about maintenance therapy. You know, that’s the therapy that is designed to kind of keep the disease away usually for many, many years for the majority of patients.  

But what does that look like, right? Does that include just pills? Is it going to be shots plus pills? Is it going to be a combination, etcetera? So, we have all the discussions at each phase of myeloma, and we discuss with them about what the pros and cons are and how that may fit into their particular lifestyle. 

Katherine Banwell:

Dr. O’Donnell, what factors do you consider when choosing a treatment approach? 

Dr. Betsy O’Donnell:

So, I think you’ve heard from all of us that we really try to have an individualized approach. When we’re talking about multiple myeloma, one of the main factors that I think about is really kind of the overall wellness of the patient. Historically we had different categories of transplant eligible, transplant ineligible. 

And so that can influence some of the decisions. Really it comes down to what is the person’s performance does? How well are they doing in their day-to-day life? And that really can dictate the intensity of the therapy. We know that age is just a number, it really is, so there are factors beyond that. What other medical problems do people have? What are the specifics of how well their kidneys are working? 

And so the biggest thing that we can work with is the dose. In fact, we’ve had work that shows that using lower doses from the get-go in older patients allows almost identical outcomes, but really gives patients a tailored dose to where they are at that juncture in their life.  

And so remember, myeloma is much more like a marathon, and so you have to set out at a pace that can be sustained. We treat people continuously. There’s an induction phase where we use a multiple drug combination, but beyond that, as Dr. Nadeem just said, they go on to maintenance, and that maintenance is indefinite. And so you have to set out at a pace or at a dose that you can sustain. 

Different medications have different toxicity profiles, so if someone had, let’s say, cardiac or heart issues, we might steer away from some medications that may exacerbate those. So, every decision is individualized. It’s based on who the patient is, where they are in their life, what other medical problems they have, and what we think they will do best with over time, not just in a short timeframe. 

Katherine Banwell:

Well, as we’ve been discussing, treatment choices vary for individual patients. Dr. Nadeem, what types of myeloma treatment classes are currently available?  

Dr. Omar Nadeem:

Yes. So, we started over three decades ago plus with just having basically steroid medications and some older chemotherapy drugs that weren’t very targeted at all, and that was basically all we had up until about a little over 20 years ago, where immunomodulatory drugs were first discovered to be effective in multiple myeloma, and that included thalidomide and now a commonly used agent called lenalidomide, or Revlimid.  

After that, we had a next class of medications approved called proteasome inhibitors that work differently than the immunomodulatory drugs, and then we combined all of these therapies about a decade plus ago and showed that that was better than anything else that we were doing before that. So, combining the steroids with the immunomodulatory drugs and proteasome inhibitors became the standard of care. 

And then we had the next class of drugs approved in 2015 called monoclonal antibodies, and that’s the first time we have monoclonal antibodies approved for myeloma, and it first started in patients that had relapse myeloma, and then they made it all the way up to front line therapy with a drug in particular called daratumumab.  

And now what we’re going is entering an era of combining all four of these therapies, just like we did 10 years ago with three drugs, and showing that combining four drugs is actually better than three. And the important thing there is that it’s not necessarily adding cumulative toxicity. These are targeted therapies; they all work differently but they all work really well together. So, now combining these agents has allowed us to really treat the disease effectively and allow for patients to tolerate the therapies.  

And then over the last couple of years, we’ve now entered kind of the next renaissance in myeloma where you have immunotherapies, and these are sort of true immunotherapies, in some cases taking the patient’s own T cells and then genetically modifying them to recognize myeloma cells and putting them back into patients. This is called CAR T-cell therapy, and that’s now approved for patients with multiple myeloma.  

And that again, just like the previous drug, sits in patients that have – you know, at a space where patients have had multiple relapses. But we’re now studying that earlier and earlier, and that along with another class of drugs called bispecific antibodies that also use your T cells via a different mechanism. A lot of exciting things going on, and we keep adding to the available agents for this disease.  

Katherine Banwell:

As you say, so many exciting advances. Where do clinical trials fit into a patient’s treatment plan? 

Dr. Omar Nadeem:

Yes. So, clinical trials as a term, a lot of times patients have a lot of questions about what that means. There’s a lot of misconceptions, I would say.  

Sometimes patients think they will get either a placebo and they won’t get the adequate treatment, or that they may not get the right treatment, right, because they’re taking a chance going on a clinical trial. It’s actually the opposite. So, all the trials are really designed to improve upon what we already know works in a particular disease, right? So, when we think about trials let’s say in relapsed myeloma, where the patient has already had some of the approved therapies, we’re looking at the most promising new therapies that have shown efficacy either in the lab or first in human studies and then moving them through the different phases and studying them in more and more patients. 

And that’s how all these drugs get started, right? So, they all get started at that point and then make their way to earlier lines of therapy. 

Then you’re trying to answer different questions as part of clinical trials. So, which one of these therapies can I combine, for example. Which ones can I omit, which ones – so, they’re all sort of getting the standard therapy and getting something either added on top of it or removed, depending on what the question that we’re asking. 

And then in the world that we currently live in with precursor plasma cell disorders, as Dr. Ghobrial mentioned, we have lots of patients that are at high risk of developing multiple myeloma in their lifetime, and that could be in a few years to a decade. And a lot of these therapies are so effective, and we’re now trying to really study some of these rationally in that patient population, so that’s a very different clinical trial, for example, than what I described earlier.  

So, it really depends on what you’re trying to achieve and where you are in the phase of your disease. 

Katherine Banwell:

This next question is open to all of you. Are there therapies in development that are showing promise for patients with myeloma? Dr. O’Donnell, let’s start with you. 

Dr. Betsy O’Donnell:

Yes. So, I think we are so fortunate in multiple myeloma to have so much interest in our disease and so many great drugs developed. So, as Dr. Nadeem was discussing, CAR-T cells are an immunotherapy, the ones that are approved now, we actually are fortunate to have two CAR-T cells approved, target something very specific called B-cell maturation antigen.  

We’re now seeing the next generation where we’re looking at other targets on the same cancer cell, that plasma cell, so those are evolving. 

Same thing is true in the bispecific antibody space. Again, those target BCMA now, but we have newer bispecifics who look at alternate targets, and really what this does is it gives us different ways of approaching the cancer cell, particularly as you relapse through disease. 

Katherine Banwell:

Anybody else? Dr. Ghobrial, Dr. Nadeem? Anything to add about therapies available? 

Dr. Irene Ghobrial:

I would probably say we’re also getting into targeted therapies and more of personalized, so if you have an 11;14 translocation, venetoclax would be an amazing drug for that. And the more we can say my own personal myeloma, what’s the best treatment for me, that’s how we’re trying to do it. So, it may not be exactly precision medicine, but we’re getting closer and closer to precision medicine of my myeloma, my specific drugs. And even if people have a 17p deletion, then we would say let’s think of that immunotherapy.  

It is truly a renaissance for us, and we’re starting to get into trispecifics, into off-the-shelf CAR-T, into so many new things. Into two different antigens that are expressed for the CAR-Ts. I mean, we are really beginning the era of immunotherapy, and we’re excited to see how much we can go into that because it will completely change myeloma, and hopefully we will cure many patients. We think we have already amazing drugs. It’s a matter of when to use them and who is the right person for this right drug. 

Katherine Banwell:

Exactly, yes. Dr. Nadeem, many patients are on maintenance therapy following active treatment. So, how is a patient on maintenance therapy monitored? 

Dr. Omar Nadeem:

Yes, so, majority of the time just with bloodwork. We don’t necessarily need to do a lot of bone marrow biopsies and PET scans for a majority of patients that are on maintenance therapy unless we’re either worried about their blood markers or some symptoms. Generally speaking, any time – it depends on what maintenance therapy they’re on, of course. If they’re just on lenalidomide, which is the most commonly used maintenance therapy, a lot of times we check in with them every one to three months. 

Depending on how their disease status is and how they’ve been doing and whether there’s any side effects that we need to worry about. So, they still have to see their doctors, still have to get the bloodwork. Usually you can get away with having it done no more than once a month or so, unless they are on other medications along with Revlimid, where we then have to check in with them a little bit more frequently. 

And some of that changes, so patients can be on maintenance therapy for five plus years, and we get a very good sense of how they are doing and kind of how their disease is doing, and we can kind of be a moving target in terms of the frequency of the follow-ups. 

Katherine Banwell:

We know that relapse can happen. Dr. Ghobrial, how common is relapsed or refractory disease? 

Dr. Irene Ghobrial:

Yes, and fortunately, we do have amazing remissions. We have very long remissions. Many people are living 10 years, 15 years and longer, which as Dr. Nadeem said, was not something we knew about years ago. I trained 20 years ago as a fellow, and myeloma was a survival of three to five years.  

We’ve come a long way, but we want to change that even better. We want a cure. We want to tell a patient, “You are done. You’re cured,” and we will not stop until that happens. So, when people have a progression again or relapse, then we want to consider what is the next available option. What is the best option to give them yet one more long, long remission? We are failing sometimes, and that’s because the disease is so bad, the biology of the disease is so bad, and the drugs that we’re using may not be the best drugs for that patient. 

And that’s why we need to understand better the biology and pick the right drugs for the right patient up front as much as we can, and also think about earlier treatment. We were just saying we probably have amazing drugs, but we’re waiting way too long until people have almost metastatic disease, and then we treat them. Why not think of an earlier interception when the disease is less mutated, when you have less cancer cells, a better immune system, and use your best drugs then? And hopefully we will achieve cure in many of those patients.  

Katherine Banwell:

What testing takes place after a relapse? Is it different than what has happened before, the testing that was done before? 

Dr. Irene Ghobrial:

No, the same tests exactly. We sort of say it’s restaging. We check everything again – the bone marrow biopsy, the FISH, because you may now develop a 17p that was probably there, but the very, very small number of cells that you cannot detect, and now it grows because of something called chrono selection. The drugs kill the sensitive cells, but they don’t kill the bad cells, and that’s how we can get all of those changes and mutations.  

Katherine Banwell:

Okay. Dr. O’Donnell, is the process for choosing treatment different for a relapsed or refractory patient? 

Dr. Irene Ghobrial:

So, that’s a great question. Yes, it can be. I mean, again, it always depends on how the person is doing at that time. It also depends, there are certain drugs that may not be approved in the front lines, something like venetoclax. If a person has a specific translocation, this 11;14, that’s something that we would like it in a second-line setting, for example. 

Usually one of the big questions people ask is if you’re on a specific class of drugs, should you change classes? So, this example is if you’re on Revlimid, and you have evidence that your disease is progressing, should you change to a different type of drug? A proteasome inhibitor, monoclonal antibody? Should that include one of the same classes of drug, like pomalidomide (Pomalyst), which is the next generation? 

So, there are a lot of different factors that we consider. The number of drugs. So, you know, as Dr. Nadeem said, historically – there’s a lot of history in myeloma therapy, and it’s been an evolution, and so now we’ve had people who were treated with the three-drug combination that are starting, after many years, to progress. So, we might choose a monoclonal antibody for those patients because it wasn’t available at the time they were diagnosed. Versus patients now, who are typically on a four-drug regimen that includes those monoclonal antibodies and all the different classes of drugs. 

We’re looking at different and, if available, novel agents to put those patients on. And again, I think Dr. Nadeem made a really important point that I want to underscore, which is that very often our best therapies are available in clinical trials. And so when and if there is the opportunity to be on a clinical trial, you may be then able to get something that would not otherwise be available to you. So, I encourage people to always have an open mind to being on a clinical trial at any stage in their disease treatment. 

Katherine Banwell:

What therapies are available for relapse or refractory disease? Are they different than other therapies? 

Dr. Betsy O’Donnell:

You know, so that’s a great question. So, yes and no. I highlighted one example that might be a little bit different, but in general, we’re very fortunate that we have multiple classes of drugs, meaning we have different drugs that work differently to kill your myeloma cells. And as Dr. Nadeem said earlier, we use those in combinations to increase the effectiveness of those medicines. Within each class we have a variety of drugs. 

You used the example of immunomodulators, and show that we have three different of those type of drugs. We have two different proteasome inhibitors. Beyond that, we have other classes of drugs that were mentioned. We have monoclonal antibodies, immunotherapies.  

And so very often we make, it’s almost like a mix where we pick what we think is going to be most effective, sometimes based on cytogenetics. The biology. Sometimes based on patient selection. What are their other medical problems, what are their current issues? And we pick the combination that we feel is going to be most effective from the different classes of drugs that we have together, usually trying to use multiple drugs in combination. 

Katherine Banwell:

Well, what newer therapies are available or in development for refractory and relapse disease? 

Dr. Betsy O’Donnell:

So, I think that the greatest interest that I think we’re all most excited about is the immunotherapy space, and I think we’ve seen – for myeloma, we see that this is a relapsing and remitting disease. 

And what’s been so exciting about CAR-T cells and the bispecific antibodies is that in patients who have had, on average, five relapses, we’re seeing tremendous results. So, complete remissions or very good partial remissions that last. In fact, can last up to two years, on average, with one of our CAR T-cell products. 

So, this is really exciting, especially when you compare to what historically has been out there for patients who have had that many relapses. And just as Dr. Nadeem said, the way that drugs enter, they enter from the relapse refractory setting, ethically that’s what makes the most sense, and they march their way forward. And so that process is happening right now as we speak, and I think like Dr. Ghobrial talked about, is the importance in early disease of thinking about using these really exciting therapies in patients who have lower burdens of disease with a goal of cure. 

And so I think all of us on this call are committed to one thing, and that is curing multiple myeloma, and even the precursors that lead up to it so that patients never have to go through the process of years and years of therapy. And so I think we’re very excited about what immunotherapy might be able to offer as we move forward in myeloma treatment. 

Katherine Banwell:

Yes. Thank you for that, Dr. O’Donnell. Let’s take a few questions that we received from audience members prior to the program. Colin writes, “How is it determined as to which patients might be the best candidates for clinical trial CAR T-cell treatment?” Dr. Nadeem, we talked a few moments ago about CAR T-cell treatment. Would you like to answer this question? 

Dr. Omar Nadeem:

Sure, I’d be happy to. So, CAR T-cell therapy is already approved. It’s FDA-approved for patients that have had four or more prior lines of myeloma therapy. So, when we think about a patient coming to us for that particular treatment that have relapsed myeloma, we’re always looking to see how much of the previous therapy they had. 

Whether they meet the indication, the labeled indication for that particular product. And then now, as we’ve discussed today, we’re studying this CAR T-cell therapy in various different phases of myeloma. Earlier lines of therapy, even thinking about studying it in high-risk smoldering myeloma, right? And then kind of looking about how we can best study this therapy in so many different phases.  

So, it all depends on where a patient is in their disease state, and then we kind of look to see whether a commercial approved CAR-T product makes sense for them, or we think about one of our several relapse CAR T-cell trials that are looking at BCMA target, which is what the approved one is, but also looking at newer targets like GPRC5D that we’ve brought up before. 

So, it encompasses a lot of different things, that question, but I think in terms of the candidacy of the patient itself, we do know that these CAR T-cell therapies have some toxicity, so we have to then weigh in terms of what medical problems they have whether they’ll be able to tolerate what the majority of patients with CAR T-cell therapy get, which is this syndrome called cytokine release syndrome, where patients will get a fever. 

And in some cases have changes in their blood pressure or oxygen levels. We have to make sure that the patient’s body can handle that. I will say we’ve gotten better and better at managing a lot of toxicities as it comes to CAR T-cell therapy. When this was first approved, it was all pretty new, but now what we’re learning is if patients are developing a fever, which the majority do, we’re intervening earlier and earlier to prevent them from getting sicker. 

So, these are things we’ve learned now, and the majority of patients get through CAR T-cell therapy toxicity period much better than they did when it was first approved. 

Katherine Banwell:

Okay, thank you for that.   

Dr. O’Donnell, Alex wrote in with this question. “What is the difference between a complete response, VGPR, and PR as it applies to prognosis and maintenance after an autologous stem cell transplant?” And before you answer the question, would you define VGPR and PR for us?  

Dr. Betsy O’Donnell:

Sure. So, we have different criteria that help us understand how well a drug is working, and they’re uniformly used across clinical trials so that we’re all speaking the same language. And so we talk about a PR, a VGPR, and a CR. So, a CR is a complete response, which is 100 percent of that monoclonal protein that we initially detected is gone. We can’t measure it. Or if you have an elevated light chain, which is another piece of the protein, that has gone back down to normal.  

Taking that a step further, astringent CR is if we do a bone marrow biopsy and we can’t find any cancer plasma cells in there. A VGPR is where we see a 90 percent reduction in the amount of protein we can measure, and a PR is anything over – a partial response is anything over 50 percent. 

So, that’s a language we speak really just so that when we’re interpreting clinical trials, we all are using the same criteria. 

And so these are different terms that classify it. If the example that you gave, someone’s had a transplant, what would typically happen 100 days after that transplant is a patient would restart maintenance therapy. The classic maintenance is just lenalidomide, which is the pill that they were probably taking before that. And there’s a lot of controversy now but no good answers about changing therapy after a transplant, if you haven’t received a deep response. 

What we do know is that after a transplant, when someone goes on lenalidomide maintenance, they continue to respond. So, the greatest depth of response is not necessarily achieved in the induction phase or right immediately after transplant, but over time on maintenance. 

There’s another tool that we’re now using and incorporating, both in terms of how we assess treatment but also potentially in how we modify treatment, which is something called minimal residual disease, MRD, which goes a step beyond. When people have astringent CR, a CR, looking for really just traces of the disease on a molecular level.  

And all of those help us understand how well the patient has responded and how long that remission might last, but they’re not definitive in terms of how we should adjust treatment based on those right now. 

Katherine Banwell:

Okay. Thank you for that. Dr. Ghobrial, this is a question we’ve received from Carlene. “Many prominent doctors claim the COVID vaccines suppress the immune system. How can boosters be justified in an already immune deficient myeloma patient? 

Dr. Irene Ghobrial:

Yes, so we think that protecting yourself and preventing COVID infections is so essential and so important. 

Especially in a patient with myeloma and especially when you’re receiving therapy: daratumumab, bispecifics, CAR-T. We want to make sure everyone is protected from COVID infections, and they are real. They are serious, and they cause death in our patients. So, every step, not only getting the vaccine but also sometimes we give tixagevimab co-packaged with cilgavimab (Evusheld) to protect our patients and protect further problems and reinfection. 

Katherine Banwell:

Remind us, what that is, the Evusheld? 

Dr. Irene Ghobrial:

Oh. It’s an antibody to help us prevent the COVID infection, so as a prevention method rather than as a treatment method.  

The other thing that we think of is the immune system is already altered in myeloma. It’s even altered or changed even as early as MGUS and smoldering myeloma. So, when we’re walking around and thinking, “Oh, I have only a benign design of MGUS,” that’s not true. The immune system has already started to change as early as MGUS, and in many of us as we get older. 

So, we have to be more protective and we have to be more careful with our patients. But as we get to even myeloma, before we even treat it, before we use the drugs that kill plasma cells, good and bad plasma cells, which secrete antibodies that fight infections, we are already at risk for COVID infections. 

And then our drugs, unfortunately, don’t only kill the malignant or the bad plasma cells, they also have a small side effect of killing also your normal plasma cells, and these are the ones that make antibodies to fight infections. So, you are at risk and you have to be very protective and careful with yourself. 

Katherine Banwell:

Is there any research on predicting hereditary risk of myeloma? 

Dr. Irene Ghobrial:

Yes, so part of the PROMISE study is trying to understand what is the risk of developing myeloma. So, we’re recruiting people who are either African American because they have a three times higher chance of developing myeloma compared to the White population, as well as people who have a first degree family member with a plasma cell disorder.  

Or even any blood cancer because now we see that CLL and lymphoma and myeloma can actually come together. And we’re now doing something called whole genome sequencing of all of the DNA that you inherit from Mom or Dad called the germ line. Basically, we try to see did you inherit the gene from Mom or Dad that increases your risk to myeloma? 

Now, it’s not as high as something like BRCA1 mutation or 2 mutation, where if you have that, you’re high, high chance of developing breast cancer or ovarian cancer and so on. We probably have several factors that need to be put together. You inherit something and then the environment adds something, and then as we get older, we get the hit. 

Or you inherit something that changes your immune system, and that allows the plasma cells to start proliferating faster because they are reacting as an immune cell, and that allows the hit of myeloma to happen. And we’re working on that, and we would really encourage everyone who has a relative with myeloma, sign up on PROMISE study. 

Because that’s how we can get the answer. That’s how we can say it’s not because you are an African American or you’re White. It’s not because you have a first-degree family member or not. It’s because of this gene. So, taking away race, taking away all of those factors, taking away age and trying to go back to the biology. Is it a certain gene, is it the certain immune cell that makes us go to that risk? 

And then Dr. O’Donnell is really taking it to the next level. Now what is in the macro environment? So, we talked about what we inherit, but it’s like nurture and nature, right? So, nature is the genetics and then nurture, what do we eat? What do we change? Obesity, health, all of those things change our inflammation level and change our ability to basically prevent those myeloma cells from starting or from continuing to progress. And she can potentially talk about her work on microbiome, on the tiny bacteria that are in our body from what we eat. So, maybe, Betsy? 

Katherine Banwell:

Okay.  

Dr. Betsy O’Donnell:

Absolutely. Yes, so one of the things that particularly interests me is the effect of lifestyle on our risk of getting cancer. 

And specifically within plasma cell disorders, and I think there have been other cancers, breast cancer and colon cancer, where they’re a couple steps ahead of us just in understanding the influence of things like obesity and the gut microbiome. So, the specific bacteria that are within your intestinal tract. It makes a lot of sense in colon cancer, but we think that that’s not limited to diseases like that. We actually think that these microbiomes, which are influenced by the foods that you eat, may have a relationship with your immune system. And remember, myeloma is a cancer of the immune system. 

So, we’re all working together on our team here on a very scientific level to understand lifestyle influences and how they may cause or potentiate multiple myeloma. And so we’re excited to kind of bring this piece together. When you think about the spectrum of plasma cell disorders, not everybody goes on to myeloma, but a lot of people sit in these early precursor diseases, MGUS and early smoldering. 

And so are there things that people can do for themselves that might influence their gut microbiome, or if it’s the amount of body fat that we have that’s very involved in cell signaling? Can we modify those things, exercise more potentially, that will decrease our body inflammation levels or alter those pathways that have been set in process that, by altering them, may decrease the risk of going on to more advanced plasma cell disorders? 

Katherine Banwell:

That’s such great information. Thank you for answering that, and thank you all for your thoughtful responses to the questions.  

As we close out the program, I’d like to get a comment from each of you. As I mentioned at the start of the webinar, care for myeloma patients is becoming more personalized, and we’ve been talking about that throughout the program. What are you hopeful about the future of care for myeloma patients? Dr. Ghobrial, do you want to start? 

Dr. Irene Ghobrial:

I’m hopeful that we truly cure myeloma, and no one should ever develop end organ damage. 

We should identify it early and treat it early, and no one should ever come in being diagnosed with multiple myeloma. 

Katherine Banwell:

Okay. Dr. Nadeem? 

Dr. Omar Nadeem:

Yes, I think I definitely agree with what Irene said, and really having a more thoughtful approach to each individual myeloma patient. As I mentioned earlier, we have so many available therapies. I want to be able to know exactly which patients need which path in terms of treatment, and which ones we can maybe de-escalate therapy, right? So, thinking about which patients do well and maybe can get away with not being on continuous therapy, and those that absolutely need it. Identifying them better to give them the best therapy. 

Katherine Banwell:

Dr. O’Donnell, do you have anything to add? 

Dr. Betsy O’Donnell:

I think we all share a common goal, which is cure, and for those who we can’t cure yet, I think really working on making the experience as good as it possibly can be and focusing on the factors that we can control and optimizing those, both for patients and their caregivers who are in this journey together with the patient. 

Katherine Banwell:

Well, I’d like to extend my thanks to all of you for joining us today. 

Dr. Irene Ghobrial:

Thank you. 

Dr. Betsy O’Donnell:

Thank you for having us. 

Katherine Banwell:

And thank you to all of our partners. To learn more about myeloma and to access tools to help you become a proactive patient, visit powerfulpatients.org. I’m Katherine Banwell. Thanks so much for joining us.