Tag Archive for: ivosidenib

Advances in the Treatment of Relapsed/Refractory Acute Myeloid Leukemia (AML)

Advances in the Treatment of Relapsed/Refractory Acute Myeloid Leukemia (AML) from Patient Empowerment Network on Vimeo.

AML expert Dr. Omer Jamy discusses his approach when considering treatment for patients with relapsed or refractory AML, including transplant eligibility, molecular markers, and whether clinical trials may be an appropriate option.

Dr. Omer Jamy is a Leukemia and Bone Marrow Transplant Physician and Assistant Professor at the University of Alabama at Birmingham. Learn more about Dr. Omer Jamy.

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What Is the AGILE Study? Research for AML Patients With the IDH1 Mutation

What Is the AGILE Study? Research for AML Patients With the IDH1 Mutation

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Transcript:

Katherine Banwell:

Dr. Jamy, are there any recent advances that may affect the care of patients with relapsed or refractory AML? 

Dr. Omer Jamy:

Yeah, that’s a good question. So, patients with relapse refractory AML, of course, carry a poor prognosis. That means that chemotherapy was working and has stopped working or chemotherapy didn’t work from the get-go, right?  

So, in my practice I try to divide patients into two different buckets. One is that I need to get them into remission, and they’re fit for a transplant, so I take them to transplant.  

So, then my treatment approach is a little different for those patients. As opposed to someone who’s elderly or too frail, that they may go into remission, but they may not be able to proceed to stem cell transplantation after that.  

So, what happened in the relapsed/refractory setting also depends on what the patient received in the upfront setting. Ideally, I would recommend a clinical trial enrollment for patients with relapse refractory AML if they have access to it. At the time of relapsed/refractory AML, it is very important to again profile the leukemia to see if there are any mutations that were present at diagnosis or if there are any new mutations for which there may be targeted therapy. Some of those mutations for which we have targeted therapy include FLT3-ITD for which there is a drug called gilteritnib (Xospata), which is FDA-approved in the relapsed/refractory setting. 

We spoke about IDH 1 which is ivosidenib, IDH 2 which is enasidenib (Idhifa) is also approved for patients with relapsed/refractory AML. And then more recently the FDA approved another IDH1 compound called olutasidenib (Rezlidhia) which is also for patients with relapse refractory acute myeloid leukemia with an IDH1 mutation. I think these are target therapies which have shown to get people into a second remission and beyond. And these have been approved in the last few years. And I think it is very important to basically test whether the person harbors these mutations so that we can target them accordingly.  

For patients who don’t have any mutations we would generally, outside of a clinical trial, probably use the combination of some of the approved agents that may be venetoclax (Venclexta) with azacitidine (Vidaza) or decitabine (Dacogen). Patients who may have received this venetoclax or a hypomethylating agents frontline and may still be eligible for intensive chemotherapy.  

You could offer them intensive chemotherapy in the relapsed/refractory setting, but I would say that at this point being at a center where there’s opportunities to enroll in a clinical trial would be really helpful as well. 

What Is the AGILE Study? Research for AML Patients With the IDH1 Mutation

What Is the AGILE Study? Research for AML Patients With the IDH1 Mutation from Patient Empowerment Network on Vimeo.

AML expert Dr. Omer Jamy reviews the results of the AGILE study, a clinical trial evaluating the efficacy and safety of ivosidenib + azacitidine vs placebo + azacitidine in patients with previously untreated AML with an IDH1 mutation.

Dr. Omer Jamy is a Leukemia and Bone Marrow Transplant Physician and Assistant Professor at the University of Alabama at Birmingham. Learn more about Dr. Omer Jamy.

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Advances in the Treatment of Relapsed/Refractory Acute Myeloid Leukemia (AML)

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Transcript:

Katherine Banwell:

Dr. Jamy, data was presented at ASCO from the agile study. What is the study and what does the news mean for AML patients? 

Dr. Omer Jamy:

Yes, thank you. So, the AGILE study is basically a randomized Phase III study. It is specifically for patients with AML who harbor an IDH1 or isocitrate dehydrogenase 1 mutation. Now IDH1 mutation is thought to be rare.   

It occurs in around six to 12 percent of patients with acute myeloid leukemia. So, a few years ago there was a drug approved by the FDA to treat patients in the relapsed or refractory setting with an IDH1 mutation. And that drug is called ivosidenib (Tibsovo). And this drug is also approved for elderly patients ineligible for intensive chemotherapy but it was mainly initially approved for the relapsed/refractory setting.  

So, all of these drugs when they initially get approved – so this is targeted therapy. It’s targeting IDH1 mutant AMLs, so patients with AML without an IDH mutation will not benefit from such a drug. So, when you find targeted therapy, the general workflow is it gets tested in the later settings. If it looks promising, then people try to bring it in the upfront settings. So, this was a Phase III study of newly diagnosed acute myeloid leukemia patients harboring an IDH mutation.  

And it randomized them to a combination of azacitidine plus ivosidenib versus azacitidine plus placebo.  

When the study was started, the standard of care for patients ineligible to receive intensive chemotherapy was azacitidine (Vidaza). So, this study again, just to highlight, focused on patients who were not ineligible for intensive chemotherapy. So, these may be patients who were either above the age of 75 or below the age of 75 but had comorbidities which would have prevented them from receiving intensive chemotherapy. These comorbidities could be any organ dysfunction such as the heart, kidneys, liver, lung, or poor performance status. So, the primary endpoint of the study was event free survival. And the primary endpoint of the study was met with a hazard ratio of .33 in favor of the combination of azacitidine  and ivosidenib. The study also showed that overall survival was improved in patients getting the combination compared to patients just getting azacitidine and placebo.  

Which was roughly around 20 to 24 months versus eight months for the placebo and azacitidine arm. And then obviously when you combine drugs you want to make sure that by adding two drugs, you’re not causing more toxicity. So, the toxicity profile between the two arms was similar actually. They saw less infections and neutropenia in the ivosidenib and azacitidine arm compared to azacitidine alone. So, that was basically the AGILE study where they looked at patients with IDH mutant acute myeloid leukemia.  

AML Targeted Therapy: How Molecular Test Results Impact Treatment Options

AML Targeted Therapy: How Molecular Test Results Impact Treatment Options from Patient Empowerment Network on Vimeo.

How could the results of molecular testing affect your acute myeloid leukemia (AML) treatment choice? Dr. Sanam Loghavi explains how inhibitor therapy works to treat AML.

Dr. Sanam Loghavi is a hematopathologist and molecular pathologist at The University of Texas MD Anderson Cancer Center. Learn more about Dr. Loghavi.

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Transcript:

Katherine Banwell:

Dr. Loghavi, how do molecular test results impact the care plan and treatment choices? 

Dr. Sanam Loghavi:

Sure. So, again, associated with really two major factors in the care of the patient. One is the decision of how intensely to treat the patient and whether or not the patient is a candidate for a hematopoietic stem cell transplant. And then the other is the availability of targeted therapies to those patients.  

So, there are now several molecular alterations that make the disease amenable to treatment with targeted therapies, including mutations in FLT3, which is a name of a gene, mutations in IDH1, IDH1 or IDH2. And again, depending on the change, the patients may receive targeted therapy. 

Katherine Banwell:

Dr. Loghavi, you mentioned inhibitor therapy. What is this treatment, and how does it work? 

Dr. Sanam Loghavi:

Sure. So, again, it depends on the medication and it depends on the molecular change. 

But essentially what happens when you have a mutation in a gene the normal function of that gene is impaired and a lot of the times that’s why you develop leukemia is because of the impairment of that normal function. So, usually what targeted therapies do, if that mutation is causing an apparent activation of let’s say a signaling molecule, then those targeted therapies will block that signaling. Or if it’s a deregulation of an epigenetic – and epigenetic means beyond genetic, so epigenetic factor, then the goal of that targeted therapy is to maintain that normal function or restore that normal function. 

Ivosidenib and Azacitidine for IDH1-Mutated AML

There has been another significant advance in the treatment of Acute Myeloid Leukemia (AML) at least for the small subset of patients (6-10%) who have a mutation in one of their genes called IDH1 (isocitrate dehydrogenase 1).   

Until 5-7 years ago, the typical initial treatment (called induction) for patients with AML consisted of relatively high doses of cytarabine (Ara-C) and another chemotherapy called an anthracycline (usually either daunorubicin or idarubicin).  Cytarabine is given as a continuous infusion for seven days and a daunorubicin or idarubicin is given on the first 3 days (this is commonly referred to as “7 + 3“regimen). There are other regimens that are sometimes used although most contain cytarabine.  This regimen is effective, but quite toxic and usually reserved for healthier fitter patients (generally under 65 without comorbidities like diabetes, or certain heart conditions). 

In 2018, the Food and Drug Administration (FDA) approved venetoclax and azacitidine for use in older patients or those with comorbidities.  Earlier this year, FDA approved Iivosidenib (used in combination with azacytidine) for newly diagnosed AML patients an IDH1 mutation.  The approval was for “adults 75 years or older, or who have comorbidities that preclude use of intensive induction chemotherapy”.  This was based on a clinical trial reported in the New England Journal of Medicine (NEJM): Ivosidenib and Azacitidine in IDH1-Mutated Acute Myeloid Leukemia,.  Ivosidenib is not a brand new drug, it was approved in 2018 for relapsed or refractory AML. 

The current approval was based on a global, double-blind, randomized, placebo-controlled trial comparing AML patients with an IDH1 mutation treated with ivosidenib and azacytidine with patients treated with azacytidine alone.  The primary end point of the trial was event-free survival (EFS), defined as the time until treatment failure (i.e., the patient did not have complete remission by week 24), relapse or death.  The first group of patients, who received ivosidenib had an EFS at 12 months of about 37% versus 12% in the placebo group.  In addition, the median overall survival (that is half of the patients lived at least this long) was 24.0 months with ivosidenib and azacitidine versus 7.9 months with azacitidine alone.  This is a big difference, although there is still a lot of room for improvement.  In addition, there were fewer infections in the ivosidenib, group although there were more incidences of low white blood counts (neutropenia) and bleeding in that group. 

While this is good news, showing ivosidenib (Tibsovo) and azacitidine (Vidaza) is better than azacitidine alone, most patients with AML with an IDH1 mutation who are not good candidates for intensive induction chemotherapy during the time period of the trial would likely have been treated with azacitidine and venetoclax (Venclexta).  The combination has been shown to be much more effective than azacitidine alone.  My guess is that azacitidine alone was chosen as the comparison, since the ivosidenib trial started enrolling patients in March 2018 (presumably the protocol for the trial was completed several months before that) and venetoclax was not approved until November, 2018.  The question remains, which is better ivosidenib and azacitidine or azacitidine and venetoclax.  I believe we will probably never know.  Given that AML is already a rare disease and no more that 10% of AML patients have an IDH1 mutation, it is not likely such a trial would be done.  Instead, it seems more likely that trials will look at the 3-drug combination of ivosidenib, venetoclax and azacitidine.  Perhaps a trial with 3 arms may be done, comparing azacitidine with ivosidenib, or venetoclax or both.  I hope the 3-drug combination will be more effective than either ivosidenib or venetoclax combined with azacitidine.  If the side effects are not much worse, then standard therapy for AML patients with an IDH1 mutation who are not good candidates for intensive chemotherapy would become the 3-drug combination.  This would happen faster than first comparing ivosidenib to venetoclax and then comparing the better of those two to the 3-drug combination.   For younger healthier patients, ivosidenib is being combined with intensive chemotherapy in clinical trials.


Further reading: 

Ivosidenib and Azacitidine in IDH1-Mutated Acute Myeloid Leukemia, the original article from the New England Journal of Medicine (N Engl J Med 2022; 386:1519-1531). 

Ivosidenib and Azacitidine for IDH1-Mutated AML, mostly a repeat of the abstract of the above NEJM article, but also includes some commentary. 

Ivosidenib with Chemotherapy New Option for Some People with AML an article on Ivosidenib and Azacytidine from Cancer Currents: An NCI Cancer Research Blog. 

FDA approves ivosidenib in combination with azacitidine for newly diagnosed acute myeloid leukemia an article about the drug approval, from Practice Update (registration may be required). 

Ivosidenib or enasidenib combined with intensive chemotherapy in patients with newly diagnosed AML: a phase 1 study, an article in Blood (Volume 137, Issue 13, April 1 2021) about a preliminary study of Ivosidenib and Enasidenib (for patients who have a mutation in IDH2) along with intensive chemotherapy (“7+3” induction, Ara-C consolidation). 

FDA grants regular approval to venetoclax in combination for untreated acute myeloid leukemia, an article from the FDA on the approval of Venetoclax for treating AML (October, 2020). 

FDA approves first targeted treatment for patients with relapsed or refractory acute myeloid leukemia who have a certain genetic mutation, an article from the FDA on the initial approval of Ivosidenib for treating AML (July, 2018).FDA approves first targeted treatment for patients with relapsed or refractory acute myeloid leukemia who have a certain genetic mutation, an article from the FDA on the initial approval of Ivosidenib for treating AML (July, 2018). 

Updates from ASH: How Biomarker Testing Has Changed MPN Care

Updates from ASH: How Biomarker Testing Has Changed MPN Care from Patient Empowerment Network on Vimeo.

MPN specialist, Dr. Andrew Kuykendall, discusses how the identification of specific biomarkers in myeloproliferative neoplasms (MPNs), such as the JAK2 mutation, have moved research forward. Dr. Kuykendall shares promising findings that were released at the 2021 American Society of Hematology (ASH) annual meeting and how this may impact MPN care in the future.

Dr. Andrew Kuykendall is an Assistant Member at Moffitt Cancer Center in the Department of Malignant Hematology. Dr. Kuykendall’s clinical and research efforts focus on myeloproliferative neoplasms (MPNs), MDS/MPN overlap syndromes and systemic mastocytosis (SM). Learn more about Dr. Kuykendall, here.

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Transcript

Katherine:

How has molecular or biomarker testing changed the field of MPN care and treatment?

Dr. Kuykendall:

Well, I think, first and foremost just understanding – going back to 2005 and knowing that we have JAK2 mutations. I think that gave really a lot of clarity to the diagnosis and really understanding the biology of how the disease acted through the JAK-STAT pathway. And certainly, that led to the understanding of MPL mutations and then calreticulin mutations.

We’re still figuring out exactly how calreticulin mutations work. There was a great abstract, a preclinical abstract, this year talking about the impact of interferon on calreticulin mutations and how that may differ from what we see in the impact of interferon on diseases that are driven by JAK2 mutations.

Clinically, we see a little bit of difference in how those diseases respond and we may understand a little bit better about why that happens. Additionally, that’s kind of gone down to looking at these big next generation sequencing panels where we identify high-risk mutations and that can certainly change our understanding of the prognosis of these diseases.

We’re starting to get, at least in the AML world, we’re getting targeted agents that can potentially target some of these mutations such as IDH1 and IDH2 mutations that have specific inhibitors.

Those are mutations that occur in myeloproliferative neoplasm patients and convey a worse prognosis, so there are ongoing trials looking to see if we can use those IDH inhibitors in myeloproliferative neoplasms either in the chronic phase or maybe in the more accelerated advanced phase.

You know the big thing, this meeting, was actually looking at polycythemia vera patients and what’s the relevance of the JAK2 mutant allele burden. I think this is something we’ve talked about a lot as far as how significant this is. We know in chronic phase myeloproliferative neoplasms that that JAK2 mutation tends to be associated with more thrombotic complications.

There are more blood clots in the veins and the arteries. There were a couple great abstracts that looked at the really the implications of the JAK2 mutation and the fact that it is associated with more thrombosis, but maybe more venous thrombosis. That might be a big risk factor for venous thrombosis and it may be that cardiovascular risk factors, such as diabetes, hyperlipidemia that’s really what’s driving the arteriole thrombosis. It also looked at the variant allele fraction, the number of cells that have that JAK2 mutation.

One abstract showed that if you have over a 50 percent allele fraction, if more than 50 percent of the alleles have the mutation – a higher burden of that mutation that’s associated with an increased thrombotic risk even in low-risk polycythemia vera patients. Whether or not that’s enough evidence to really change the paradigm of how we treat low-risk patients is to be determined, but I think very interesting and provocative work. 

Which Tests Do You Need Before Deciding on an AML Treatment Path?

Which Tests Do You Need Before Deciding on an AML Treatment Path? from Patient Empowerment Network on Vimeo.

 Why is it important to ask about biomarker testing for your AML? Find out how test results could reveal more about your AML and may help determine the most effective treatment approach for your individual disease.

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Transcript:

Why do you need biomarker testing before deciding on a treatment plan for your acute myeloid leukemia—also known as AML?

The results may predict how your AML will behave and could indicate that one type of treatment may be more effective than another.

Biomarker testing—also referred to as risk stratification, genetic testing, or molecular testing—identifies specific gene mutations, proteins, chromosomal abnormalities and/or other molecular changes that are unique to your AML.

The results of these tests are used to determine if you have low-risk or high-risk AML to help guide prognosis and to evaluate the goals of treatment.

There are certain biomarkers—such as the FLT3, IDH1 and IDH2 mutations—that could indicate that your AML may respond well to a targeted therapy. There are several FDA-approved targeted therapies—known as inhibitor therapies—which treat patients with these mutations.

Additionally, the identification of other biomarkers—such as TP53, NPM1, or CEBPA mutations, to name a few—may aid in assessing your prognosis, determining a treatment course, or may identify if an allogeneic stem cell transplant may be appropriate. Results of these tests may also suggest that a clinical trial is your best treatment option.

So, how can you Insist on the best care for YOUR AML?

• First, always bring a friend or a loved one to your appointments to help you process information and to take notes.

• Ask your doctor if you have had, or will receive, biomarker testing and how the results may impact your care and treatment plan. Be sure to ask for paper or electronic copies of your important test results.

• Finally, always speak up and ask questions. It’s important that you understand all of the information that you want to know about your AML to help make the best treatment decisions for you. You are your own best advocate, and treating AML is a team approach.

To learn more about your AML and to access tools for self-advocacy, visit powerfulpatients.org/AML

AML Targeted Therapies, What’s Available and How Do They Work?

AML Targeted Therapies, What’s Available and How Do They Work? from Patient Empowerment Network on Vimeo.

There are several targeted therapies approved for the treatment of acute myeloid leukemia (AML). Expert Dr. Ellen Ritchie provides insight about recent approvals, how these therapies work, and shares details about newer therapies currently being studied for the treatment of AML.

Dr. Ellen K. Ritchie is assistant professor of medicine and a member of the Leukemia Program at the Weill Cornell Medical College of Cornell University and the New York Presbyterian Hospital. More about Dr. Ritchie, here.

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Transcript:

Katherine:

You touched upon this earlier, but what targeted therapies or treatments are available for AML patients?

Dr. Ritchie:

So, there have been many recent FDA approvals of drugs that are targeted. One, is the FLT3 inhibitors. And the two that are available are Midostaurin, which is most commonly – was the first drug that was really added to intensive chemotherapy.

And clinical trials show that in those FLT3-positive population that patients had an overall better outcome if midostaurin (Rydapt) were added to intensive chemotherapy. There’s also a drug called gilteritinib (Xospata), and this drug is also a FLT3 inhibitor that was tested in patients who had refractory leukemia. They could either get real chemotherapy regimen or they could get gilteritinib. And it turns out in the FLT3-positive patients, the gilteritinib was superior to the strong chemotherapy. So that’s been approved for patients who have refractory, or disease that didn’t really respond to initial therapy, that is IDH – or is FLT3-positive.

Then there’s the IDH1 and IDH2 inhibitors that have also been approved, and a small proportion of AML patients will be positive for IDH1 or IDH2 mutations.

The IDH1 inhibitor ivosidenib (Tibsovo), is available and can be used to treat patients if you know up front, they have an IDH1 inhibitor. So, that’s a regimen where the single agent can be used to treat an IDH1 mutated patient who’s newly diagnosed. Those patients are also eligible for many clinical trials now, where they’re combining that particular drug with other agents, in an effort to improve outcome. For IDH2 positive patients, there’s a drug called enasidenib (Idhifa). And this drug is used mainly in patients in the second line setting. But it specifically targets IDH2. And patients go into remission sometimes for a prolonged period of time. So, these drugs are FDA approved, and they’re treating targetable mutations.

TP53 mutations are a particularly bothersome mutation because it confers a poor outcome. And I’m happy to say that we have clinical trials now that are available that actually target TP53 mutations.

So, there are – there is therapy available for that type of mutation that was

not available before through the clinical trials. And I expect in coming years that we’re going to see more and more targeted therapies develop in AML which can be used potentially in combination with what we’re already using as backbones to enhance the outcome of patients with this disease.

Katherine:

Well, how do targeted therapies work?

Dr. Ritchie:

So, targeted therapies work on – it’s sort of complicated. The targets which are available, IDH or the FLT3 is really on the outside of the cell and it is a drug which is targeted directly to the FLT3 on the outside of the cell.

It works quite well in the peripheral blood, where you see the blast oftentimes disappear. The big concern always is how well it’s working getting deep into the marrow. But it’s looking at the target on the outside of the cell. IDH1 and IDH2 inhibitors work on particular chemicals which are involved in the kreb cycle, and those of you that took high school chemistry may have memories buried in the deep parts of your brain of learning the kreb cycle. And this is a fundamental metabolic cycle inside cells, and if you have a mutation, an IDH1 or IDH2, you’re unable to go through that full kreb cycle in the appropriate way. And that is something that leads to you having a cancer, in this case AML. So, these drugs actually interfere with what’s happening in that kreb cycle, and allow you to make more normal cells.

Factors to Consider When Choosing an AML Treatment

Factors to Consider When Choosing an AML Treatment from Patient Empowerment Network on Vimeo.

What test results and factors should be considered when choosing an acute myeloid leukemia (AML) treatment? Expert Dr. Ellen Ritchie explains how test results impact AML prognosis and treatment – and other factors that come into play when determining a treatment approach.

Dr. Ellen K. Ritchie is assistant professor of medicine and a member of the Leukemia Program at the Weill Cornell Medical College of Cornell University and the New York Presbyterian Hospital. More about Dr. Ritchie, here.

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Transcript:

Katherine:

How do the results of these tests affect prognosis and treatment?

Dr. Ritchie:

Well, when a patient has AML, if they are a fit patient, if it will help us determine after initial induction, whether to cure the patient we need to do a bone marrow transplant, or we can just continue with chemotherapy.

And those are really important things to determine. So, if you have a good prognosis AML, if you have an AML that has certain translocations like inversion 16 or 821, or if you have a CEPBA mutation or you have an NPM1 mutation, and that’s all you have, you may do particularly well with chemotherapy treatment alone. And you won’t need to have a bone marrow transplant.

If you have certain other mutations, we know that the only way that we’re going to cure you, is with a bone marrow transplant. And if you are fit, when we finish induction and even as we’re doing induction, we’re preparing you for a bone marrow transplant down the line.

One disadvantage, just to mention about the molecular testing, is it doesn’t come back as quickly as some of the other testing. So that you will have already started induction chemotherapy most generally before the mutational testing comes back. Which can be anywhere – depending upon the institution, between seven and 21 days. So, it takes time for those results to be available.

Katherine:

Outside of test results, Dr. Ritchie, what other factors should be considered when choosing treatment?

Dr. Ritchie:

So, you want to choose whether a patient is most likely to benefit from intense induction chemotherapy. With strong chemotherapies where the backbone of those therapies would be an anthracycline, like daunorubicin (Cerubidine) or cytarabine (Liposomal), or daunorubicin or idarubicin (Idamycin PFS), together with cytarabine. And these are intensive chemotherapies. Versus, non-intensive chemotherapy which is able to be done as an outpatient, more frequently. And it is something that is gentler for a patient, they’re less likely to have severe toxicity. And the backbone of those regimens is using a drug called azacitidine (Vidaza) or decitabine (Inqovi), together with a second drug called venetoclax (Venclexta).

So, these are the two backbones, there may be clinical trials or there may be targetable aspects of your leukemia, which drugs would be added to either of those backbones. But those are the two backbones. And I also like to identify those patients that may not benefit from chemotherapy at all. And so, it’s very important, I think to really get to know your patient. And I spend time with my patient, particularly on the first visit, to understand not only their physical health, but their mental health. How good is their cognition, what is their mood, are they depressed, or are they happy people? And what is their circumstance? Do they have people to support them? Do they live close to family? Is a caregiver able to come, with an elderly patient for example, to visits?

Those, and whether or not they’re living alone and need tremendous support. So that’s really important to determine and helps me to choose what the best therapy might be. And also, concurrently what I can do to shore up the patient to do better with whatever therapy that I’m giving them. I.e., if you’re depressed, let’s work on that, or if your blood pressure is too high, or if you are – your diabetes is out of control at the same time that I’m seeing you, to try and fix those particular problems. In older patients I often do sort of a miniature version of the geriatric assessment. And in trials that have been so far, the most important aspects of the geriatric assessment, are really what is your cognitive function? Do have a mild dementia, or do you not have a mild dementia? Because dementia may be or mild dementia may be associated with poorer outcome.

The other is, are you able to do what we call the incidental tasks of daily life. So, you know fundamental tasks are really brushing your teeth and combing your hair, and dressing yourself. But are you able to do your cooking and your shopping and your banking and those things? Patients who have trouble doing their cooking and shopping and banking, and those types of activities, that also has been associated with a poor overall survival in AML. So, it’s really important to determine all of those aspects and if there are any deficiencies, to really know that the only therapeutic choice for that particular patient would be a low-intensity therapy.

Understanding Personalized Medicine for AML

Understanding Personalized Medicine for AML from Patient Empowerment Network on Vimeo.

What should you know before deciding on treatment for YOUR AML? AML specialist Dr. Ellen Ritchie reviews key factors that guide treatment choices, including biomarker testing results, and shares advice for partnering with your team to advocate for the best care.

Dr. Ellen K. Ritchie is assistant professor of medicine and a member of the Leukemia Program at the Weill Cornell Medical College of Cornell University and the New York Presbyterian Hospital. More about Dr. Ritchie, here.

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Transcript:

Katherine:

As we begin to talk about personalized therapy and AML, let’s start with the basics. How would you define personalized medicine?

Dr. Ritchie:

Personalized medicine, to me is really, it’s a difficult question. It’s trying to find the best treatment for a particular patient. And it’s looking at biologic issues, what kind of cancer, what type of AML is it, what are the specific mutations or chromosomal abnormalities. But it’s also looking at the person. Is the patient active or not active? Do they have lots of other diseases like diabetes and coronary artery disease? Or pulmonary disease, or are they completely healthy?

Or, do they have support at home? If they’re sick at home is there someone who can take care of them, versus a situation where you’re older and alone and you have no real family member to rely on. So, all of these things are very important in making a personalized decision as to how you treat a patient.

Where Do Clinical Trials Fit Into an AML Treatment Plan?

Where Do Clinical Trials Fit Into an AML Treatment Plan? from Patient Empowerment Network on Vimeo.

AML expert Dr. Eunice Wang discusses the role that clinical trials play in advancing research, the benefits of participation in research, and explains why she recommends trials for AML patients. 

Dr. Eunice Wang is the Chief of the Leukemia Service and Professor of Oncology at the Roswell Park Comprehensive Cancer Center in Buffalo, New York. Learn more about Dr. Wang, here.

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Transcript:

Katherine:

Where do clinical trials fit in when it comes to choosing treatment?

Dr. Wang:

Clinical trials are the mainstay of everything that we do in cancer care. Every single cancer drug that we’ve developed dating back into the 1970s at the National Institute of Health is the result of some patients and some doctors designing a clinical trial. These FLT3 inhibitors were developed over the last several years, so when I first came out of fellowship and started my training, we didn’t have these targeted therapies. Since 2017, in four years, we’ve had nine different drugs approved.

So, clinical trials are the way that we go from a finding in the laboratory to somebody having an extra birthday or going to their son or daughter’s wedding. That’s really how important it is, and those brave individuals who participate in clinical trials are helping not only themselves, but helping other people. I can’t tell you how many patients I enroll in clinical trials for AML, and I have told them – I said, “These nine drugs that we approved were because of nine different clinical trials which demonstrated benefit involving hundreds of thousands of patients.”

I can’t tell you how many times I’ve had a patient say to me, “Look, doctor, I’m going to participate in this clinical trial so that even if I’m not helped, you could learn something from me that could help the next person with their disease.” People are incredibly unselfish when it comes to clinical trials. I recommend a clinical trial for all my patients because I feel like that’s the cutting-edge clinical care.

I had patients here who I had on clinical trial drugs, and I was able to go to them and say, “Good news: Your drug has now been approved.” And, they say, “Doctor, why? I’ve been on this drug for a year.” And, I said, “That’s right, because you were part of that clinical trial, and you’re here now because of that drug, and now, a year or two later, that drug’s potency has been recognized, and now, the fact that you were in that trial has really helped us get this approval, which is going to help every other patient with that disease going down the line.” So, very important.

What Key Tests Do You Need Before Choosing an AML Treatment?

What Key Tests Do You Need Before Choosing an AML Treatment? from Patient Empowerment Network on Vimeo.

How do test results influence treatment choices for AML? Dr. Eunice Wang shares information about essential testing and explains how results aid in determining the best personalized treatment option for each patient.

Dr. Eunice Wang is the Chief of the Leukemia Service and Professor of Oncology at the Roswell Park Comprehensive Cancer Center in Buffalo, New York. Learn more about Dr. Wang, here.

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Transcript:

Katherine:

What is the role of testing when deciding on treatment for AML?

Dr. Wang:

Testing is essential in us selecting and determining the best personalized treatment option for each individual patient. As you know, AML is an aggressive hematologic malignancy and can be devastating, both in its life-threatening nature and in its rapidity and the need for a rapid diagnosis. Testing, including both pathology results as well as protein marker testing, and, importantly in this day and age, DNA and RNA testing is essential because we have numerous different treatment options that could be available to the patient if their particular disease biology matches with the targeted therapies that we have.

So, as you may or may not know, since 2017, we’ve had eight or nine different therapies approved for AML, and this is a bonanza of options, some of which are only for specific biological subsets, and some even for specific patients, such as those above the age of 75. So, doing that testing, particularly that genetic testing, is important both in establishing the diagnosis and determining whether there is less toxic, more targeted, personalized treatment approaches, some of which involve low-dose chemo or even pills available to the individual patient.

Katherine:

You’ve answered this, in part, but which tests are essential following an AML diagnosis?

Dr. Wang:

I think all of them are essential, but in this day and age, for the selection of targeted therapy, it really is the mutational testing, which is looking at the RNA of the tumor cells and determining whether that has been altered in allowing the cells to express abnormal proteins. For standard chemotherapy, we also use DNA testing, which is looking at the different chromosomes and seeing whether there’s breakages or what we call translocations, pieces of chromosomes that have been swapped. That DNA chromosome information can give us some insight into prognosis and therapy response.

So, nowadays, it’s not just determining that you have acute leukemia, but looking at the specific DNA and RNA changes, and I have to say that this is a disease that we’re really not seeing any RNA or mutational changes occurring in more than 20 percent or 30 percent of patients. So all of the mutations that we see that could be impactful really don’t occur in more than 20 percent or 30 percent, and could only occur in five or one percent.

So, really, personalizing an individual patient’s disease, both for the disease biology as well as the person that’s getting the chemotherapy or the diagnosis, is really, really important.

Katherine:

Yeah. Let’s define a few terms that are often confusing for patients. What are biomarkers?

Dr. Wang:

Biomarkers are either proteins or expression levels on the cancer cells that can serve to tell us information about the biology of the disease. Okay, so, for example, if you have evidence of residual tumor proteins in your blood, that could be a marker, for example, of minimal residual disease, okay? And, that can tell you maybe one in a million cells have that biomarker, and then you can tell that those one-in-a-million cells are leukemia cells.

So, they’re any marker that we’re using that’s specific for the tumor that can help us in predicting or finding or locating or determining if a tumor would respond to a certain therapy.

Katherine:

What is biomarker testing?

Dr. Wang:

Biomarker testing can be done in many ways. For example, biomarker testing is drawing a sample from the patient and evaluating a marker that we think is going to predict for the disease type.

So, for example, in some cancers, we don’t want to biopsy the lung mass or the tumor mass every single time to see whether it’s shrinking, or getting smaller, or responding. So, in those patients, sometimes we’ll draw a blood sample, and we’ll look for a surrogate marker – some protein that’s expressed in the blood or some DNA or RNA in the blood that is a surrogate or a marker of the tumor so you don’t have to directly biopsy it.

In acute myeloid leukemia, we are looking for – like I said – particular cells in the blood that have particular proteins, and we measure those rather than going ahead and doing that bone marrow biopsy or biopsying those tumors. So, generally, in leukemia, it involves drawing blood samples – that’s the most common; it is a bloodborne disease.

Sometimes, we actually have to go into the bone marrow and do a bone marrow sample, but those biomarkers, as I said, can really improve our ability to detect very, very low levels of disease. So, for example, using a conventional bone marrow biopsy, we can only really detect 1 out of 200 cancer cells by normal – just by visual looking at, but by measuring biomarkers and mutations and other abnormal proteins, we can improve that to 1 in 100,000 cells.

So, really, these biomarkers are very sensitive and important because we want to detect the disease at a point where it’s very, very low. We don’t want to wait until the disease gets very advanced, in which case we think our therapies are less effective.

Katherine:

What is a genetic mutation?

Dr. Wang:

A genetic mutation is a mutation that occurs in the RNA of a cancer cell. That RNA dam – RNA aberration or abnormality does lead to different RNA – what we call transcript levels that lead to abnormal proteins.

Those proteins function in the cells to make a cell a cancer cell, okay? So, all cancer cells start out as normal cells, and as they acquire a mutation, they become a little less normal, and they start acquiring multiple mutations, and some of these mutations occur without DNA changes, some of them occur with DNA changes. And as these abnormalities occur, the cell gets more and more dysfunctional, and eventually, it starts becoming almost evil-ish.

It starts acquiring behaviors that are not normal, and then it starts to grow out of control, and that unchecked growth really is the end result of potentially many mutations occurring over time to drive that cell into becoming a cancer cell, and we call that process transformation, transforming from a normal, healthy-looking cell into almost a monstrous, cancer-like cell.

Katherine:

How do biomarkers affect AML treatment choices?

Dr. Wang:

So, those biomarkers, as I talked about, those mutations can determine what type of therapy patients can have. For example, up to 25 percent or 37 percent of newly diagnosed AML patients will have leukemia cells that carry the biomarker or the mutation in a gene called FLT3, or “flit.”

Those FLT3 cells can be inhibited by specific targeted therapies, including a drug called gilteritinib (Xospata), which is a pill which blocks mutant FLT3 expressed by AML cells. So, we’ve demonstrated, actually, in a randomized clinical trial that patients who have relapsed or recurrent AML who carry cells that have that biomarker – that FLT3 mutation – will actually do better if they take a daily pill – a FLT3 inhibitor – every single day for treatment of their aggressive acute myeloid leukemia than if we gave them low- or even high-dose chemotherapy in the hospital for four to six weeks.

So, that’s the power of those targeted therapies. Because the biomarker is telling you that there’s a sensitivity of that cancer cell to a specific blockage of that pathway, that can really dramatically change the course.

That is where the importance and the power of those biomarkers really goes into play. In the past, patients who had acute myeloid leukemia with FLT3 mutations did poorly with chemotherapy and had disease that came back even after multiple rounds of that intensive chemotherapy. The fact that we can give a pill and people could do better or even go to a bone marrow transplant off treatment with the pill is pretty remarkable.

Which AML Treatment Is Right for You? What You Need to Know

Which AML Treatment Is Right for You? What You Need to Know from Patient Empowerment Network on Vimeo.

What should you know before deciding which treatment is best for YOUR AML? AML specialist Dr. Ellen Ritchie reviews key factors that guide treatment choices, including biomarker testing results, and shares advice for partnering with your team to advocate for the best care.

Dr. Ellen K. Ritchie is assistant professor of medicine and a member of the Leukemia Program at the Weill Cornell Medical College of Cornell University and the New York Presbyterian Hospital. More about Dr. Ritchie, here: weillcornell.org/ekritchie.

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Expert Advice for AML Patients When Making Treatment Choices

Transcript:

Katherine:

Hello, and welcome. I’m Katherine Banwell, your host for today’s program. Today we’re going to discuss how to access the most personalized AML therapy for your individual disease, and why it’s essential to insist on key testing. Before we meet our guest, let’s review a few important details. The reminder email you received about this program, contains a link to program materials. If you haven’t already, click that link to access information to follow along during this webinar. 

Finally, 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. All right, let’s meet our guest today. Joining me is Dr. Ellen Ritchie. Dr. Ritchie, would you please introduce yourself? 

Dr. Ritchie:

Hello, my name is Dr. Ellen Ritchie, and I am an attending with a Leukemia service, and an assistant director since, for the last 15 years. 

And I treat mainly Acute Myeloid Leukemia, Myelodysplastic syndromes, which are kind of a pre-Leukemia; and Myeloproliferative diseases. And have a particular interest in the treatment of older patients with AML.  

Katherine:

Excellent, well thank you so much for joining us today. As we begin to talk about personalized therapy and AML, let’s start with the basics. How would you define personalized medicine? 

Dr. Ritchie:

Personalized medicine, to me is really, it’s a difficult question. It’s trying to find the best treatment for a particular patient. And it’s looking at biologic issues, what kind of cancer, what type of AML is it, what are the specific mutations or chromosomal abnormalities. But it’s also looking at the person. Is the patient active or not active? Do they have lots of other diseases like diabetes and coronary artery disease? Or pulmonary disease, or are they completely healthy? 

Or, do they have support at home? If they’re sick at home is there someone who can take care of them, versus a situation where you’re older and alone and you have no real family member to rely on. So, all of these things are very important in making a personalized decision as to how you treat a patient. 

Katherine:

Well, it sounds like, each person’s AML is unique. So, let’s help our audience be clear about basic testing. What tests are necessary to help understand a patient’s specific disease at diagnosis? 

 Dr. Ritchie:

I mean certainly it’s important to do a physical exam and to find out what the general health of the patient is. In order to evaluate an AML, or any other Leukemia, I look at the peripheral blood smear. To look at what I think the type of Leukemia might be that I am dealing with. There are some Leukemias that have particular way that they look like Acute Promyelocytic Leukemia for which there is a designated therapy which works.  

And you can tell that just by looking at a peripheral blood slide. The next test is always a bone marrow biopsy. Patients are not delighted that that is a test, but it is a test that can be done in the office, usually within 15 to 20 minutes. And that test gives us a lot of information. It gives us information about what type of AML it is, what are the markers on the outside of the cell, it gives us information about the chromosomes inside the Leukemia cell. Are there missing chromosomes, or rearranged chromosomes? And if there are, that can be very relevant to the prognosis. And lastly, it’s sent for a particular mutations or markers. So, we look for IDH3 mutations, we look for FLT3 mutations, we look for IDH1 and IDH2 mutations, and we do an entire myeloid panel. Which is about 44/45 genes that are most commonly mutated in patients with AML.  

So that’s the initial work up for any AML patient. 

Katherine:

You mentioned markers Dr. Ritchie. What is genomic, or bio marker testing? 

Dr. Ritchie:

So, we’re looking really at most specifically at mutations inside individual genes that might be in your Leukemia cell. So, there are some mutations actually that confer a better prognosis. Like NPM1 or CEPBA, those can be more positive type of prognosis than some of the others.  

But we’re also looking for markers that might be targetable with certain therapies that we have. So, if you have a FLT3 ITD or TKD, we actually have particular drugs which can target those particular mutations. There are also drugs that are FDA approved to treat IDH1 and IDH2 mutations. 

There are certain mutations that have a relatively poor prognosis, like TP53 for which there are clinical trials which are available, which specifically are meant to target patients who have those sorts of mutations. And there’re other clinical trials using the FDA approved drugs that I just mentioned, for FLT3, for IDH1 and IDH2 and combining it with other agents to try and improve outcome in AML patients. 

Katherine:

Some patients may not know if they’ve received these important tests, so what key questions should they be asking their physician about testing? 

Dr. Ritchie:

So, physicians, they – financial coverage of the mutational testing is not uniform across the country and across insurances. So, Medicare and different Medicare insurances and some of the private insurances all vary in their coverage.  

So, in my clinic, I am asking – I prefer the test that we do in house at Cornell. But it’s important that I ask, what will their insurance cover. And make sure that I send the appropriate testing that will be covered by insurance. There are some insurances that will not cover this type of testing. So, it is a real question for the patient, when you go to see the doctor to say, are you going to do mutational NGS testing?  

And, will my insurance cover this? Hopefully most – if Medicare adopts the coverage of these types of mutational testing, it’s often true that private insurance will eventually pick this up. But it’s a murky field and it’s really important to talk to your doctor about this. The cost of the bone marrow biopsy, and the chromosomal evaluation is nearly always covered by insurance.  

Katherine:

Okay, that’s really great advice, thank you. How do the results of these tests affect prognosis and treatment? 

Dr. Ritchie:

Well, when a patient has AML, if they are a fit patient, if it will help us determine after initial induction, whether to cure the patient we need to do a bone marrow transplant, or we can just continue with chemotherapy.  

And those are really important things to determine. So, if you have a good prognosis AML, if you have an AML that has certain translocations like inversion 16 or 821, or if you have a CEPBA mutation or you have an NPM1 mutation, and that’s all you have, you may do particularly well with chemotherapy treatment alone. And you won’t need to have a bone marrow transplant. 

If you have certain other mutations, we know that the only way that we’re going to cure you, is with a bone marrow transplant. And if you are fit, when we finish induction and even as we’re doing induction, we’re preparing you for a bone marrow transplant down the line.  

One disadvantage, just to mention about the molecular testing, is it doesn’t come back as quickly as some of the other testing. So that you will have already started induction chemotherapy most generally before the mutational testing comes back. Which can be anywhere – depending upon the institution, between seven and 21 days. So, it takes time for those results to be available.  

Katherine:

Outside of test results Dr. Ritchie, what other factors should be considered when choosing treatment? 

Dr. Ritchie:

So, you want to choose whether a patient is most likely to benefit from intense induction chemotherapy. With strong chemotherapies where the backbone of those therapies would be an anthracycline, like Daunorubicin or Cytarabine, or Daunorubicin or Idarubicin, together with Cytarabine. And these are intensive chemotherapies. Versus, non-intensive chemotherapy which is able to be done as an outpatient, more frequently. And it is something that is gentler for a patient, they’re less likely to have severe toxicity. And the backbone of those regimens is using a drug called Azacitidine or Decitabine, together with a second drug called Venetoclax. 

So, these are the two backbones, there may be clinical trials or there may be targetable aspects of your Leukemia, which drugs would be added to either of those backbones. But those are the two backbones. And I also like to identify those patients that may not benefit from chemotherapy at all. And so, it’s very important, I think to really get to know your patient. And I spend time with my patient, particularly on the first visit, to understand not only their physical health, but their mental health. How good is their cognition, what is their mood, are they depressed, or are they happy people? And what is their circumstance? Do they have people to support them? Do they live close to family? Is a caregiver able to come, with an elderly patient for example, to visits? 

Those, and whether or not they’re living alone and need tremendous support. So that’s really important to determine and helps me to choose what the best therapy might be. And also, concurrently what I can do to shore up the patient to do better with whatever therapy that I’m giving them. I.E., if you’re depressed, let’s work on that, or if your blood pressure is too high, or if you are – your diabetes is out of control at the same time that I’m seeing you, to try and fix those particular problems. In older patients I often do sort of a miniature version of the geriatric assessment. And in trials that have been so far, the most important aspects of the geriatric assessment, are really what is your cognitive function? Do have a mild dementia or do you not have a mild dementia? Because dementia may be or mild dementia may be associated with poorer outcome. 

The other is, are you able to do what we call the incidental tasks of daily life. So, you know fundamental tasks are really brushing your teeth and combing your hair, and dressing yourself. But are you able to do your cooking and your shopping and your banking and those things? Patients who have trouble doing their cooking and shopping and banking, and those types of activities, that also has been associated with a poor overall survival in AML. So, it’s really important to determine all of those aspects and if there are any deficiencies, to really know that the only therapeutic choice for that particular patient would be a low-intensity therapy. 

Katherine:

You touched upon this earlier, but what targeted therapies or treatments are available for AML patients? 

Dr. Ritchie:

So, there have been many recent FDA approvals of drugs that are targeted. One, is the FLT3 inhibitors. And the two that are available are Midostaurin, which is most commonly – was the first drug that was really added to intensive chemotherapy. 

And clinical trials show that in those FLT3 positive population that patients had an overall better outcome if Midostaurin were added to intensive chemotherapy. There’s also a drug called gilteritinib, and this drug is also a FLT3 inhibitor that was tested in patients who had refractory leukemia. They could either get real chemotherapy regimen or they could get gilteritinib. And it turns out in the FLT3-positive patients, the gilteritinib was superior to the strong chemotherapy. So that’s been approved for patients who have refractory, or disease that didn’t really respond to initial therapy, that is IDH – or is FLT3 positive.  

Then there’s the IDH1 and IDH2 inhibitors that have also been approved, and a small proportion of AML patients will be positive for IDH1 or IDH2 mutations. 

The IDH1 inhibitor Ivosidenib, is available and can be used to treat patients if you know up front, they have an IDH1 inhibitor. So, that’s a regimen where the single agent can be used to treat an IDH1 mutated patient who’s newly diagnosed. Those patients are also eligible for many clinical trials now, where they’re combining that particular drug with other agents, in an effort to improve outcome. For IDH2 positive patients, there’s a drug called Enasidenib. And this drug is used mainly in patients in the second line setting. But it specifically targets IDH2. And patients go into remission sometimes for a prolonged period of time. So, these drugs are FDA approved, and they’re treating targetable mutations.  

TP53 mutations are a particularly bothersome mutation because it confers a poor outcome. And I’m happy to say that we have clinical trials now that are available that actually target TP53 mutations.  

So, there are – there is therapy available for that type of mutation that was not available before through the clinical trials. And I expect in coming years that we’re gonna see more and more targeted therapies develop in AML which can be used potentially in combination with what we’re already using as backbones to enhance the outcome of patients with this disease. 

Katherine:

Well, how do targeted therapies work? 

Dr. Ritchie:

So, targeted therapies work on – it’s sort of complicated. The targets which are available, IDH or the FLT3 is really on the outside of the cell and it is a drug which is targeted directly to the FLT3 on the outside of the cell. 

It works quite well in the peripheral blood, where you see the blast oftentimes disappear. The big concern always is how well it’s working getting deep into the marrow. But it’s looking at the target on the outside of the cell. IDH1 and IDH2 inhibitors work on particular chemicals which are involved in the kreb cycle, and those of you that took high school chemistry may have memories buried in the deep parts of your brain of learning the kreb cycle. And this is a fundamental metabolic cycle inside cells, and if you have a mutation, an IDH1 or IDH2, you’re unable to go through that full kreb cycle in the appropriate way. And that is something that leads to you having a cancer, in this case AML. So, these drugs actually interfere with what’s happening in that kreb cycle, and allow you to make more normal cells. 

Katherine:

You mentioned earlier Dr. Ritchie, low-intensity therapy. Could you tell us about the types of treatment options? 

Dr. Ritchie:

So, I’ll go – high-intensity therapy or intense chemotherapy always has to be given really in a hospital. And if you don’t start it – if you can start certain intensive chemotherapies, like Vyxeos, which is also intensive, in the outpatient setting, but by day seven or eight, you end up in the hospital. And in intensive chemotherapies, you lose your hair, there’s GI toxicities, you’re at high risk of developing infections and you need a lot of transfusion. And for even young people, it’s a difficult therapy for which you’re in the hospital, and 90-some percent of patients are on IV antibiotics. 

So, it’s intensive chemotherapy because it has to be given in a hospital setting and requires intensive supportive care. Low-intensity therapy can be given in the outpatient setting. So, at the present time you can get a drug like Azacitidine, for example, which is an injection that you get seven days in a row. Unfortunately, you have to come to the doctor’s office every day for those injections, but once you’ve had the injection, you can go home. Combined with Venetoclax which is an oral agent. So, an oral agent can be given at home. You need close supervision in the physician’s office when you’re on this type of therapy, but you don’t need the constant support that you need if you are getting intensive chemotherapy. So, it can be done, in the comfort really of your home and with your family. You will have to come in and have transfusions potentially as an outpatient, nearly everyone does. And there’s always the risk that you develop a fever and if you do, you have to come into the hospital for IV antibiotics. 

But in general, low-intensity means not so much support needed in a hospitalized setting, and the tolerability of this particular chemotherapy in the outpatient setting.  

Katherine:

Once a patient has begun treatment, how do you monitor whether it’s working? 

Dr. Ritchie:

So, one of the more frustrating things about being an AML patient, is you don’t know right off the bat whether or not that you have gone into remission. So, what happens is you receive the chemotherapy, and the day you start chemotherapy is really day one. And somewhere around day 14, you’re at your lowest point. So, your blood counts are low, and you often feel really terrible, and you really wonder, is this working? But unfortunately, I can’t really tell you. Some institutions do bone marrow biopsies if you have intensive chemotherapy on day 14, or if you’re getting Venetoclax therapy somewhere around day 21 to look and see whether they still see Leukemia cells, but the utility of that is different per institution.  

The real test of whether chemotherapy x`, is at the end of about 28-35 days, are your blood counts coming up, and are you making normal blood cells. Are you making platelets, which are the part of the blood that clots the blood? Or are you making neutrophils, which are the important cells needed to help you fight infection. So, the real proof of a remission, is are your platelets over 100,000? Is your neutrophil count over 1,000? And when we look in the bone marrow around that time, do we see normal cells developing and no Leukemia? 

Katherine:

How often should testing take place? And should patients be retested over time? 

Dr. Ritchie:

So, the bone marrow biopsy is done frequently once you have a diagnosis of Acute Leukemia. So certainly, it’s done upon diagnosis of the disease. 

And as I mentioned earlier in certain institutions, about halfway through your chemotherapy cycle, they’ll do a bone marrow biopsy to see whether or not they see any residual Leukemia cells. That’s not done everywhere, and it’s done differently depending upon institutions sometimes. At the end of the chemotherapy treatment, if you recover your blood counts, we do a bone marrow biopsy to confirm a remission. If by day 35, we haven’t seen that your blood counts are recovering, we may do a bone marrow biopsy to see whether or not we see Leukemia cells in there, or early recovery. So, you’re definitely going to have bone marrows at those time points. If you’ve gone into remission, it depends on what we’d do next as to when you would have another bone marrow biopsy. So, if you’re going to bone marrow transplant you may have one more biopsy, just prior to going into transplant, and another biopsy at the end of the first month after transplant. 

If you’re gonna have what we call ongoing therapy, roughly every three or four months, we may do a bone marrow biopsy to determine whether or not the remission is holding. If during ongoing therapy, we see that there is blood count abnormalities that we weren’t expecting, that might be a reason that we would do a bone marrow biopsy. And that’s unpredictable as to when that would be.  

Katherine:

Dr. Ritchie, what advice do you have for patients to help them feel more confident in speaking up and advocating, being a partner in their care? 

Dr. Ritchie:

Well, when you choose a Leukemia doctor, you need to choose someone that you can actually communicate with. Someone who you feel is not allowing you to ask questions, or is not curious about what your life is like, you may wanna think, I wanna check out somebody else.  

Because it’s really important you like the person who’s your doctor, and that you have a trust relationship together. So, it’s really – I tell some patients it’s a marriage of convenience that we have. And that you really have to think of it that way. If someone doesn’t allow you to ask questions or if they are not fully answering your questions in a way that you understand, try and speak up for yourself and make sure that the doctor tries to address that. And if the doctor won’t address those things for you, or you feel like you don’t understand what is being explained to you, then you can think about trying to see someone else. I think it’s really important if you can, to write down as many questions as you have about your disease before you come in. 

Because often what happens is you get there, you’re stunned by the amount of information, and the questions you wanted to ask, you forget. And the next day, you’re like, ugh, I didn’t ask these questions. So, before you come in, if you write questions. Questions about insurance coverage, that may not be something that we go over. Or questions about toxicities, or questions, if I’m gonna lose my hair, do you have the name of a wig facility. All these questions that you might have, put them on a piece of paper, so that they can be addressed when you’re with the doctor. And other things will come up, you’ll have other questions when you’re there, but make sure your fundamental questions are answered. 

Katherine:

Yeah, those are great suggestions. We have a couple of audience questions. Mike wants to know, what does it mean to have high-risk AML? 

Dr. Ritchie:

High-risk AML means that there is something in your chromosomes that are worrisome and may confer a worse outcome. Or that one of the mutations that you have, or the combination of mutations that you have and the genetic testing are poor risk mutations that are associated with poor outcome. So, high-risk, really means a high risk of progression, or a high risk of – it’s a high risk of not going into remission and not being treatable AML. So, these are AMLs we treat aggressively, and if we get a patient into remission, we generally send high-risk patients to a bone marrow transplant. 

Katherine:

The second question is from Craig, he says; I’m currently undergoing treatment for AML, is the Covid-19 vaccine safe and effective? 

Dr. Ritchie:

I recommend the Covid-19 vaccine to everyone, all my patients. A little immunity is better than none. And there is preliminary data, looking at patients with Myeloid malignancies, not Lymphoid, but Myeloid malignancies, where it appears there is an immune response to the Covid-19 vaccine. So, I would suggest that you get the Covid-19 vaccine. Any of them that are available, are good. Whether it’s Moderna, or Pfizer, or Johnson and Johnson. Whatever is available to you, you should go ahead and get. 

Katherine:

Are there any symptoms or issues that AML patients should be looking for post-vaccine? 

Dr. Ritchie:

Post-vaccine, there’s a lot of symptoms that people have. And they can be similar among Myeloid patients. Some of my patients have had no reaction whatsoever, some people have had a really sore arm. 

Some patients are incredibly tired after the vaccine; some patients develop a low-grade fever for a couple of days. Those are really what we watch for. Sometimes when there’s a reaction, we’re hopeful that there’s an antibody being made, or an immune response that’s developing. So, it’s not always a bad thing if you have a reaction. But I don’t think that the reactions of patients of Myeloid malignancies is any different than that of the general public. 

Katherine:

That’s what it sounds like. To close Dr. Ritchie, what would you like to leave the audience with? Are you hopeful about the future of AML treatment? 

Dr. Ritchie:

I’m very hopeful. I’ve worked in this field for 15 years and through the 15 years we have seen a lot of new drugs that have been approved for AML. It’s remarkable, the FLT3 inhibitors, IDH1 and IDH2 inhibitors, new formulations of intensive chemotherapy, like Vyxeos, the Pfizer drug; glasdegib – I can never say that one. And most importantly, venetoclax, which has really revolutionized our treatment of low-risk, or not low-risk, but the low intensity patient. 

I see in the future that there is gonna be more – there’s an emphasis on immunotherapy, so I think we’re gonna see more antibody-based therapy that’s going to be approved by the FDA. Maybe it will be used in combination with the drugs that we are already using. There are all sorts of combinations using all the FDA approved drugs in different ways together. So, we can maybe do better with the drugs that we have. And there’s always new targeted drugs which are being tested in AML. So, I think as time goes on, from a molecular perspective it will be even more targeted. And I’m hoping also that there will be oral formulations of a lot of our drugs. So, it’s kind of exciting that there’s an oral form of Decitabine called Inqovi, which is something that could potentially be given in induction therapy right off the bat with Venetoclax for an all-oral regimen at home. 

All of these things are great advances, in my opinion, and I think that the opportunity to treat patients outside the hospital, with more targeted therapy and immunotherapy is gonna be the future. 

Katherine:

Yeah. And the future sounds promising. Thank you so much for joining us today Dr. Ritchie. 

Dr. Ritchie:

Thank you for having me. 

Katherine:

And thank you to all of our partners.  

To learn more about AML, and to access tools to help you become a proactive patient, visit powerfulpatients.org. I’m Katherine Banwell, thanks for joining us.

Treatment Approaches in AML: Key Testing for Personalized Care

When it comes to Acute Myeloid Leukemia (AML), genetic testing (or biomarker testing) is essential in helping to determine the best treatment approach for YOU. In this program, AML expert, Dr. Naval Daver reviews key decision-making factors, current AML treatments and emerging research for patients with AML.

About the Guest:
Dr. Naval Daver is an Associate Professor in the Department of Leukemia at The University of Texas MD Anderson Cancer Center. More about Dr. Daver: https://faculty.mdanderson.org/profiles/naval_daver.html

AML Research Updates: News From ASH 2020

AML Research Updates: News from ASH 2020 from Patient Empowerment Network on Vimeo.

AML expert Dr. Jeffrey Lancet shares the latest news from the 2020 American Society of Hematology (ASH) annual meeting. Dr. Lancet sheds light on headlines from the meeting including FLT3 inhibitor research, combination therapies with venetoclax, a promising inhibitor therapy, and shares his optimism about the future of AML treatment.

Dr. Jeffrey Lancet is Chair and Program Lead in the Department of Malignant Hematology at Moffitt Cancer Center in Tampa, FL. He is nationally and internationally recognized for his clinical research in the field of acute leukemias. Learn more about Dr. Lancet, here.

Download Program Resource Guide

See More From INSIST! AML

Related Resources:

Navigating AML Treatment Decisions

New AML Therapies vs. Traditional Chemotherapy: What’s the Difference?

Transcript:

Katherine:      

Hello, and welcome. I’m Katherine Banwell. Today we’ll discuss the latest news from ASH 2020 and how AML patients can advocate for personalized care. Joining me is Dr. Jeffrey Lancet. Welcome. Would you please introduce yourself?

Dr. Lancet:                   

Hi, sure. My name is Dr. Jeff Lancet. I’m at the Moffitt Cancer Center in Tampa, Florida, where I am the Chair of the Malignant Hematology Department. We spend a lot of time treating patients and conducting clinical trials of Acute Myelogenous Leukemia.

Katherine:                   

Okay. Thank you. Dr. Lancet, the American Society of Hematology Annual Meeting just closed. What are the AML headlines from this year’s meeting?

Dr. Lancet:                   

Yeah, so as usual, AML was a very busy area for clinical presentations this year at the ASH meeting focusing largely on novel and targeted therapies.

I don’t believe that there were many practice changing developments per se, but rather discussions about many promising therapeutic strategies that are still under development and moving forward rapidly largely in the areas of targeted therapy, low intensity therapy, measurable residual disease and things of that nature.

Katherine:                   

What does this research news mean for patients?

Dr. Lancet:                   

Well, I think that there’s a lot to be encouraged about and maybe I’ll take the time to review some of the highlights in what was presented with respect to some of the novel therapeutic approaches that many of our patients can look forward to receiving in the not too distant future.

So, we often talk about you know, targeted therapies and, of course, one of the major targets over the years has been that of mutated FLT3 which is one of the most common mutations in AML.

And at this meeting we saw several presentations on clinical trials resolved to utilizing inhibitors of FLT3, with some emphasis on the most recently approved second generation drug called gilteritinib.

There were I thought three major presentations focusing on gilteritinib and one was an update on a randomized Phase III trial comparing gilteritinib plus azacitidine versus azacitidine alone in newly diagnosed unfit for induction chemotherapy patients with FLT3 mutations, preliminarily showing good tolerability and high composite complete response rates in the combination on.

There was another trial of gilteritinib plus venetoclax in relapsed and refractory FLT3 mutated AML.

And what was interesting was that a very high percentage of patients achieved response with this combination of gilteritinib plus venetoclax, many of whom were heavily pretreated previously and many of whom had also gotten prior FLT3 inhibitor therapy during an early stage of the disease. So, the combination of gilteritinib and venetoclax and this more refractive study, it was encouraging to see these promising responses.

And then we saw some data reporting the effects of gilteritinib in combination with more traditional chemotherapy induction with a couple of studies demonstrating both a high complete response rates as well as high rates of mutation clearance of the FLT3 mutation.

So, those were very encouraging data that were presented with respect to the FLT3 mutated AML population.      

So, another very important drug that reached the marketplace for AML recently is a drug called venetoclax, which is an inhibitor of a protein called BCL2.

And this drug was recently FDA approved for use in combination with low intensity chemotherapy drugs such as azacitidine or decitabine.

And it seems as though the combination of venetoclax plus one of these hypomethylating agent drugs, azacitidine or decitabine has resulted in very, very strong efficacy signals as recently published in a New England Journal of Medicine paper that reported on the results of the Phase III trial of venetoclax plus azacitidine.

So, that has now become standard of care for older less fit adults with newly diagnosed AML; the combination of venetoclax plus a hypomethylating agent such as azacitidine.

And naturally, there’s been interest in really kind of taking it several steps further to advance the role of these combinations and to also look at additional drugs in combination with venetoclax plus hypomethylating agent therapy.

So, we saw some of that at the ASH meeting this year. One approach would be to take venetoclax and then to combine it with more intensive chemotherapy for perhaps more fit patients or younger patients that could undergo a more intensive program.

So, we saw presentations of venetoclax being combined with a drug called CPX-351, which is a novel liposome formulation of two common chemotherapy drugs that had been approved a few years ago for secondary AML. And we also saw a combination strategy with venetoclax, and a regimen known as FLAG-IDA, which is a commonly used induction regimen in acute myeloid leukemia.

And I think it’s important to recognize that although these trials that combine the venetoclax with more intensive chemotherapy showed signs of good efficacy with good response rates, there were definitely signals of increased toxicity, hematologic toxicity primarily, which is not completely unexpected with venetoclax knowing that it can cause significant lowering of white blood cells and platelets and hemoglobin.

And then finally, there is a lot of interest in, you know, doing these types of combinations with venetoclax in different subsets of AML and one subset of AML that has been very important recently is that of the IDH mutated AML population of patients.

IDH is a fairly common mutation that occurs either in the Isoform of IDH1 or IDH2 and there’s about a 15 to 20 percent incidence of IDH mutations in AML.

Now we do have an inhibitor for both of these types of mutations: ivosidenib for IDH1 and enasidenib for IDH2, but there also appears to be a strong role for venetoclax plus azacitidine in IDH mutated AML.

We saw from a series of patients presented by a physician at MD Anderson looking at outcomes with venetoclax plus azacitidine in IDH mutated AML. And the response rates were very high when you give HMA plus venetoclax to these patients with IDH mutated AML.

But I think more importantly was that there were what we call high intro patient response rates when switching between venetoclax and HMA therapy with an IDH inhibitor containing regimen.

In other words, a patient would have a good chance of responding to the initial therapy and then if or when that therapy stops working, having a good effect from a salvage therapy with the other regimen. So, when you see initially azacitidine plus venetoclax and then had a relapse, the IDH inhibitors worked well and vice versa if you had received an IDH inhibitor and then subsequently received HMA-venetoclax at a later time point that also worked well.

So, it’s encouraging to see that you can potentially sequence these drugs and get continued responses along the way and ultimately we think will help a survivor and keep patients in a better state of health even longer.               

So, I just wanted to take a few minutes also and discuss some of the newer more novel therapies that are really hitting or approaching the landscape right now. One of these is called CC486, also known as oral azacitidine or ONUREG. And this drug was shown in recent literature to prolong overall survival in patients who are in first remission from their AML who had received induction chemotherapy.

So, this drug was used as maintenance therapy after a variable number of consolidation regimens. And people who got this ONUREG or oral azacitidine drug as maintenance therapy, it resulted in longer survival compared to those who had received placebo.

And this was presented at last year’s ASH meeting, but this year’s ASH meeting provided an update, a very important update, showing that the overall survival advantage from this drug, this oral azacitidine drug, when used as maintenance was independent of whether a patient had measurable residual disease at the time that they went onto the maintenance therapy.

In other words, whether you had MRD, measurable residual disease or not at the time of the study entry, your responses were still more favorable, your outcomes were more favorable, if you received this oral azacitidine drug.

So, this was FDA approved earlier this year for patients in the maintenance phase of therapy for AML who had gotten prior reduction chemotherapy.

And importantly, this drug was also shown to be able to convert about 25% of patients who were positive for measurable residual disease; convert them from positive to negative. So, even though they were in remission, they had measurable residual disease and this drug in about 25 percent of the cases converted that from positive to negative. So, that’s a very important finding as well.

Another important drug that I think you should keep your eye on is a drug called magrolimab. This is an antibody against a certain type of protein that is present on the immune system cell called the macrophage, and when this magrolimab drug was combined with azacitidine in a recent clinical trial, it was demonstrated very high response rates of over 65 percent.

And, in particular, in patients with P53 mutations, which is a very bad mutation to have in most cancers, including AML, in patients with this high-risk mutation, the combination of magrolimab with azacitidine appears to be effective based upon the early data that we have with high response rates.

And then finally, I just wanted to make mention of another important area in, not really just AML, but in all cancer and that’s  outcomes disparities between different races and ethnic groups. And we saw a very important presentation at the plenary session this year where the authors reported outcomes amongst younger patients with AML who were African American compared with Caucasian.

And the data clearly indicated a worse overall survival amongst Black patients compared with white patients under age 60. And this included patients who were enrolled in clinical trials. So, that it appeared that African American patients have a worse outcome than Caucasian patients with acute myeloid leukemia highlighting the need to better understand various risk factors and other factors that play into these disparate outcomes between our Black American population and a white American population, which I think could shed light on additional disease characteristics that may help everybody as well.

 

Essential Testing in AML: How Results Impact Care & Treatment Choices

Essential Testing in AML: How Results Impact Care & Treatment Choices from Patient Empowerment Network on Vimeo.

What tests should follow an AML diagnosis and why? Dr. Hetty Carraway, an AML specialist of Cleveland Clinic, reviews the essential testing for patients with AML and explains how those test results may inform treatment decisions.

Dr. Hetty Carraway is Director of the Leukemia Program at Cleveland Clinic. Dr. Carraway cares for patients with acute leukemia and bone marrow failure states. Learn more about Dr. Carraway, here.

Download Program Resource Guide

See More From INSIST! AML

Related Resources:

What Is the Patient’s Role in Making AML Treatment Decisions?

What Is the Patient’s Role in Making AML Treatment Decisions?

Navigating AML Treatment Decisions

Insist! AML Resource Guide

Transcript:

Katherine:      

Hello, and welcome. I’m Katherine Banwell. Today, we’ll discuss how you can be proactive by insisting on better AML care and personalized treatment options. Joining me is Dr. Hetty Carraway.

Welcome, Dr. Carraway. Would you please introduce yourself?

Dr. Carraway:            

Hi. My name is Dr. Hetty Carraway. I’m one of the physicians at the Cleveland Clinic. I work as the Director of the Leukemia Program, and I spend most of my time caring for patients with acute leukemia and bone marrow failure states.

Katherine:                  

Thank you.  Let’s start with the basics. What essential testing should AML patients undergo following a diagnosis?

Dr. Carraway:            

This is a pretty standard workup for patients that have this diagnosis of acute leukemia.

For most of our patients we always evaluate with a peripheral blood count including a complete blood count with differential, typically a comprehensive metabolic panel, and looking at a test called a uric acid, which looks at the cell turnover and the cellular debris in terms of the burden on the kidney. We often will get a bone marrow biopsy with aspirate for patients, and in the diagnosis of leukemia typically that’s already been done.

There are tests that are sent off of that aspirate called a test for chromosomes, whether it’s comprehensive cytogenetics or FISH, for fluorescence in situ hybridization. We’re often testing using a study called NGS or next generation sequencing looking for specific mutations of genes known to be important in the pathogenesis of leukemia.

Furthermore, we often get a test called flow cytometry from that aspirate looking at the markers on top of the leukemia cells that help us to identify the blast population. So, I would say those by and large are the tests in the bone marrow biopsy that we get, which are innumerable and detailed.

They often take some time to get back, so at the time of the diagnosis patients know that they have a diagnosis of leukemia, but those additional chromosome tests or mutation testing that can take up to two weeks if not longer to get back. And so, it’s important to follow up on that information later on and say, has that testing come back? If so, how does that change any of what the decisions are moving forward?

Katherine:                  

Genetic testing can often be confused with molecular testing. What’s the difference between the two, and why should patients undergo the testing?

Dr. Carraway:            

The chromosome testing and the mutational testing help us to really classify the risk in terms of the leukemia itself, whether or not that leukemia is responsive to chemotherapy alone, or if it means that there’s a higher likelihood of that leukemia not being controlled with leukemia only.

In that setting, we often then move towards transplant for curative intent in addition to the chemotherapy. The reasons to get the information is to really help us better tailor the therapy for each individual patient. That information really does help us guide not only the upfront therapy for some patients but even the long-term therapy. It can be incredibly overwhelming to have too much information at the get-go, so in some senses it’s better to have these pieces as they unfold over time.

For other patients, they want to know what exactly the plan is going to be A to Z from day one. That is of course more challenging now that it just takes time to get this information. I think what they need to know is that we’re working hard to get that information.

As soon as we get it, we don’t hold back. We reveal and share that information and come together to say, this is what this data or information means, and these are some of the choices that we either recommend that you consider, and these are the risks and benefits to those considerations.

Katherine:                  

Let’s look at something that is similar to what you’ve just been talking about. How do test results impact treatment and overall care?

Dr. Carraway:            

They really can. When you asked me how come chromosome or genetic information is different than mutational information, the chromosomes can help us to figure out where patients land in terms of prognosis. That information is different than the mutational testing. Both of those pieces can help us figure that out.

The mutational test, I will tell you, does help us figure out are there targets on the leukemia that allow us to use therapy that’s directed to that mutation. The key example I’ll give is a mutation in a gene called FLT3. That particular mutation has an agent now that is F.D.A. approved called Midostaurin, and so once we know that a leukemia harbors a FLT3 mutation we often add a drug called Midostaurin to the backbone therapy that is used for patients.

Now, that’s important, and now there are more and more genes that when mutated we have novel therapies that direct against that specific tag that’s on the leukemia and helps to improve eradication of the disease or control of the disease if you will.

That’s different than the genetic information when we’re looking at chromosomal changes that may allow us to say in the rare instances of  favorable cytogenetics like a translocation of chromosome 15 and 17 consistent with APL, the treatment for that type of leukemia,  acute promyelocytic leukemia, is very different than what we do for the majority of other leukemias.  

The prognosis for that leukemia is also very different. It helps to tailor the regimens, and it helps to select specific therapy that may be helpful to each individual patient.

Katherine:                  

Dr. Carraway, you just mentioned FLT3. Would you tell us about the common mutations in AML and how these may impact treatment options?

Dr. Carraway:            

There’s a multitude of mutations that we’re now following in patients. The way that we follow them is by doing this next generation sequencing test at the upfront time at diagnosis.

The reason why we’re doing that is because those mutations can regress with therapy, or they can progress where you gain additional mutations that happen as the disease progresses. Even if it’s responding to therapy or as it loses response to therapy and reemerges, it may reemerge with different mutations. As a result of that, it may change what therapy we select. Our ability at this point in being to recommend exactly at what time points we are checking the next generation sequencing we’re still learning right now as to what are the key times to do that testing.

In general, most institutions are doing that next generation sequencing at the time of diagnosis, and then also for some patients before they go to bone marrow transplant and even after bone marrow transplant.

For some of those patients that unfortunately relapse, we’re also making sure to retest the next generation sequencing mutation testing to see are there new mutations that have come about that weren’t there before?

Katherine:                 

I understand there’s something called IDH. 

Dr. Carraway:            

You were also asking about what other mutations besides FLT3 happen in patients with AML. FLT3 is one such mutation. NPM1 is another mutation that often it frequents patients that have AML. Those two mutations happen in about 30 percent of patients with AML. There are other mutations such as DNMT3A, ASXL1, and TET2 that we typically see in patients with MDS or even a pre-leukemia state called CHIP. For other patients, we have mutations that are targetable like IDH1 or IDH2.

Those two mutations happen in probably 10 percent to 15 percent of patients diagnosed with AML. Why are those important? They’re important because we have oral medications that are pills that patients can take. In the relapse setting for many patients after induction or intensive chemotherapy, they can use these oral therapies to try and control their leukemia. These are pretty exciting. 

All of these oral therapies have been approved in the last two to three years in the space of leukemia, so it’s been a game-changer in terms of identifying these mutations and then identifying drugs that target those mutations. It’s really changed the landscape for patients with AML. It’s new information, and that’s why as patients you want to hear about this so you know what questions to ask and you know, can you tell me, am I a candidate for one of these oral medications that is now available for patients with AML?

Katherine:                  

Dr. Carraway, thanks so much for joining us today.

Dr. Carraway:            

Thank you for the opportunity to be here. 

Katherine:                  

And thank you to our audience. I’m Katherine Banwell.