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Sometimes, however, Dr. Rogers’ guinea pigs pay visits to her workplace. Every Halloween, she dresses them up and shows off their photos to just about everyone. Patients, coworkers, and even random people in the elevator get glimpses of the furry pair, who pose as dinosaurs, bats, aquarium shrimp, sharks, spiders, and bumblebees.
“Being in the hospital is not funny, but guinea pigs dressed up for Halloween is incredibly funny,” Dr. Rogers said. “They make a lot of people smile.”
For physician-scientist Dr. Rogers, a native of suburban Chicago, quality of life for patients is a priority, even when she’s not trying to entertain them and lift their spirits.
The field of hematology “is trying to figure out not only what’s biologically effective for disease, but also what might be best for people living with the condition,” she said. “This is especially true in terms of patient preference for a treatment you complete vs an ongoing or continuous treatment. I really like this idea of having more attention paid to what matters to patients, which the field of medicine sometimes forgets.”
In an interview, Dr. Rogers spoke about the appeal of storytelling in medicine, advances in treatment for CLL and hairy cell leukemia, and the challenges of college football loyalty.
How did you get drawn to medicine?
Ever since I was a kid, I thought, “Oh, I really want to be a doctor. That sounds fun.” At its core, medicine blends things I really like: science, helping people with a problem, and storytelling.
The practice of medicine is a lot about stories — talking to people, figuring out what they’re telling you about what’s going on, then explaining what you know in a way that makes sense to them.
What changes have you seen in leukemia care during your career?
The biggest change is the move from chemotherapies to targeted agents. When I first did a fellowship here at Ohio State, we had studies of ibrutinib, the first-in-class covalent Bruton tyrosine kinase (BTK) inhibitor. We’d see patients who’d been on chemotherapy for the past 10 or 15 years, and then they got in a clinical trial. Ibrutinib worked better than any of the chemotherapy, and they felt better and had fewer side effects.
Now, chemoimmunotherapy is not recommended for CLL, and you can see the impact of targeted agents on the lives of patients. Instead of telling people they need to put aside work and personal plans to take intensive chemotherapy for 6 months, you say: “You’ve got to come to some more appointments to make sure the treatment is going well, and you don’t have too many side effects. But you can expect to continue to work full-time and go to your niece’s wedding out of state or whatever else you want to do.”
What are you most excited about working on?
I’m the principal investigator of a study combining obinutuzumab, ibrutinib, and venetoclax for a fixed duration, a defined treatment course of a little over a year. I just reported the median progression-free survival for phase 2 at the European Hematology Association meeting this spring. It was over 7 years for both patients who had prior treatment and those who hadn’t.
The idea that people could take a year of treatment and get a huge benefit after completing it is quite important. The regimen has gone into phase 3 testing, and we’re now trying to understand the impact in terms of which patients got longer responses or which didn’t.
What are some challenges that remain in CLL?
There are still patients whose CLL becomes resistant to our two most commonly used classes of agents: BTK inhibitors and the BLC2 inhibitor, venetoclax. There are some more BCL2 inhibitors in development, but venetoclax is the only one currently approved.
I am also principal investigator on another study that added venetoclax to ibrutinib when resistance mutations developed that would predict ultimate resistance to ibrutinib. The median progression-free survival in that study was 40.7 months, whereas the expectation with venetoclax alone is 24 months. So, it really improved the amount of time people were in remission. This study is ongoing.
We’ve just started a phase 2 study to have patients take pirtobrutinib, a noncovalent BTK inhibitor, in combination with venetoclax in cases where CLL has become resistant to a covalent BTK inhibitor. Patients will take this combination for about a year and a half.
It’s been really exciting to see the impact of some of these combinations both as first-line CLL treatment and in CLL that’s become resistant. But trying to understand what predicts response is a harder thing. I wish I knew the answers for what causes this synergy between those two classes of drugs.
You also specialize in hairy cell leukemia. Could you talk about what it is?
CLL is the most prevalent adult leukemia in the Western world, whereas hairy cell leukemia is very rare. It’s a slow-growing B-cell cancer that got its name because under the microscope, the cells have hairy projections on them.
It had a survival of only about 2-4 years before the development of purine analogs. After a course of pentostatin or cladribine (2-chlordeoxyadenosine), some people never need treatment again in our natural lifespan.
But some patients don’t benefit from purine analogs, either because they have a devastating infection that makes them unsuitable or for another reason. Or they end up needing treatment every 2-3 years, which isn’t something you want to do for 30 years of someone’s lifespan.
What are some challenges in hairy cell leukemia?
It’s a rare condition, so it can be hard to do a really large clinical trial. A lot of physicians think that the prognosis is good and miss out on an opportunity for better treatment and to generate new knowledge.
Also, some people perceive that it’s not actually a problem for people living with it. Cladribine and pentostatin are not terrible chemotherapies, and most people tolerate them very well. But we can make treatment for hairy cell more effective and more tolerable for our patients if we put more effort into researching it.
I’ve heard that you’re a big college football fan. How do you balance your history as a University of Michigan medical school alum with your work for archrival Ohio State?
I went to Northwestern for undergrad, as did several people in my family. So, I usually just claim Northwestern is my football affiliation. It doesn’t inspire much vitriol if you cheer for Northwestern!
And I understand that you live with a pair of guinea pigs. Do tell.
I adopted guinea pigs as pets in medical school. They’re cute and friendly, and they make all this noise for you when you come home.
Once, one of my clinic patients said, “I don’t want to be your guinea pig.” I thought, “you should be so lucky.” They have quite a lifestyle: They’ve trained me to bring them vegetables, they nap most of the time, and they have a play space, a guinea pig playground.
I thought I liked the guinea pigs more than they liked me. But last fall, I was gone for about 10 days. When I got back, I’d never heard them make so much noise. They were extremely happy to see me. Then for the next 48 hours, one would randomly start whistling for me to come over. I thought, “oh, these things do like me a little bit.”
Dr. Rogers disclosed receiving research funding from Genentech, AbbVie, Novartis, and AstraZeneca and consulting/advisory relationships with AstraZeneca, AbbVie, Genentech, Janssen, Pharmacyclics, BeiGene, Loxo@Lilly, and Alpine Immune Sciences.
A version of this article first appeared on Medscape.com.
Sometimes, however, Dr. Rogers’ guinea pigs pay visits to her workplace. Every Halloween, she dresses them up and shows off their photos to just about everyone. Patients, coworkers, and even random people in the elevator get glimpses of the furry pair, who pose as dinosaurs, bats, aquarium shrimp, sharks, spiders, and bumblebees.
“Being in the hospital is not funny, but guinea pigs dressed up for Halloween is incredibly funny,” Dr. Rogers said. “They make a lot of people smile.”
For physician-scientist Dr. Rogers, a native of suburban Chicago, quality of life for patients is a priority, even when she’s not trying to entertain them and lift their spirits.
The field of hematology “is trying to figure out not only what’s biologically effective for disease, but also what might be best for people living with the condition,” she said. “This is especially true in terms of patient preference for a treatment you complete vs an ongoing or continuous treatment. I really like this idea of having more attention paid to what matters to patients, which the field of medicine sometimes forgets.”
In an interview, Dr. Rogers spoke about the appeal of storytelling in medicine, advances in treatment for CLL and hairy cell leukemia, and the challenges of college football loyalty.
How did you get drawn to medicine?
Ever since I was a kid, I thought, “Oh, I really want to be a doctor. That sounds fun.” At its core, medicine blends things I really like: science, helping people with a problem, and storytelling.
The practice of medicine is a lot about stories — talking to people, figuring out what they’re telling you about what’s going on, then explaining what you know in a way that makes sense to them.
What changes have you seen in leukemia care during your career?
The biggest change is the move from chemotherapies to targeted agents. When I first did a fellowship here at Ohio State, we had studies of ibrutinib, the first-in-class covalent Bruton tyrosine kinase (BTK) inhibitor. We’d see patients who’d been on chemotherapy for the past 10 or 15 years, and then they got in a clinical trial. Ibrutinib worked better than any of the chemotherapy, and they felt better and had fewer side effects.
Now, chemoimmunotherapy is not recommended for CLL, and you can see the impact of targeted agents on the lives of patients. Instead of telling people they need to put aside work and personal plans to take intensive chemotherapy for 6 months, you say: “You’ve got to come to some more appointments to make sure the treatment is going well, and you don’t have too many side effects. But you can expect to continue to work full-time and go to your niece’s wedding out of state or whatever else you want to do.”
What are you most excited about working on?
I’m the principal investigator of a study combining obinutuzumab, ibrutinib, and venetoclax for a fixed duration, a defined treatment course of a little over a year. I just reported the median progression-free survival for phase 2 at the European Hematology Association meeting this spring. It was over 7 years for both patients who had prior treatment and those who hadn’t.
The idea that people could take a year of treatment and get a huge benefit after completing it is quite important. The regimen has gone into phase 3 testing, and we’re now trying to understand the impact in terms of which patients got longer responses or which didn’t.
What are some challenges that remain in CLL?
There are still patients whose CLL becomes resistant to our two most commonly used classes of agents: BTK inhibitors and the BLC2 inhibitor, venetoclax. There are some more BCL2 inhibitors in development, but venetoclax is the only one currently approved.
I am also principal investigator on another study that added venetoclax to ibrutinib when resistance mutations developed that would predict ultimate resistance to ibrutinib. The median progression-free survival in that study was 40.7 months, whereas the expectation with venetoclax alone is 24 months. So, it really improved the amount of time people were in remission. This study is ongoing.
We’ve just started a phase 2 study to have patients take pirtobrutinib, a noncovalent BTK inhibitor, in combination with venetoclax in cases where CLL has become resistant to a covalent BTK inhibitor. Patients will take this combination for about a year and a half.
It’s been really exciting to see the impact of some of these combinations both as first-line CLL treatment and in CLL that’s become resistant. But trying to understand what predicts response is a harder thing. I wish I knew the answers for what causes this synergy between those two classes of drugs.
You also specialize in hairy cell leukemia. Could you talk about what it is?
CLL is the most prevalent adult leukemia in the Western world, whereas hairy cell leukemia is very rare. It’s a slow-growing B-cell cancer that got its name because under the microscope, the cells have hairy projections on them.
It had a survival of only about 2-4 years before the development of purine analogs. After a course of pentostatin or cladribine (2-chlordeoxyadenosine), some people never need treatment again in our natural lifespan.
But some patients don’t benefit from purine analogs, either because they have a devastating infection that makes them unsuitable or for another reason. Or they end up needing treatment every 2-3 years, which isn’t something you want to do for 30 years of someone’s lifespan.
What are some challenges in hairy cell leukemia?
It’s a rare condition, so it can be hard to do a really large clinical trial. A lot of physicians think that the prognosis is good and miss out on an opportunity for better treatment and to generate new knowledge.
Also, some people perceive that it’s not actually a problem for people living with it. Cladribine and pentostatin are not terrible chemotherapies, and most people tolerate them very well. But we can make treatment for hairy cell more effective and more tolerable for our patients if we put more effort into researching it.
I’ve heard that you’re a big college football fan. How do you balance your history as a University of Michigan medical school alum with your work for archrival Ohio State?
I went to Northwestern for undergrad, as did several people in my family. So, I usually just claim Northwestern is my football affiliation. It doesn’t inspire much vitriol if you cheer for Northwestern!
And I understand that you live with a pair of guinea pigs. Do tell.
I adopted guinea pigs as pets in medical school. They’re cute and friendly, and they make all this noise for you when you come home.
Once, one of my clinic patients said, “I don’t want to be your guinea pig.” I thought, “you should be so lucky.” They have quite a lifestyle: They’ve trained me to bring them vegetables, they nap most of the time, and they have a play space, a guinea pig playground.
I thought I liked the guinea pigs more than they liked me. But last fall, I was gone for about 10 days. When I got back, I’d never heard them make so much noise. They were extremely happy to see me. Then for the next 48 hours, one would randomly start whistling for me to come over. I thought, “oh, these things do like me a little bit.”
Dr. Rogers disclosed receiving research funding from Genentech, AbbVie, Novartis, and AstraZeneca and consulting/advisory relationships with AstraZeneca, AbbVie, Genentech, Janssen, Pharmacyclics, BeiGene, Loxo@Lilly, and Alpine Immune Sciences.
A version of this article first appeared on Medscape.com.
Sometimes, however, Dr. Rogers’ guinea pigs pay visits to her workplace. Every Halloween, she dresses them up and shows off their photos to just about everyone. Patients, coworkers, and even random people in the elevator get glimpses of the furry pair, who pose as dinosaurs, bats, aquarium shrimp, sharks, spiders, and bumblebees.
“Being in the hospital is not funny, but guinea pigs dressed up for Halloween is incredibly funny,” Dr. Rogers said. “They make a lot of people smile.”
For physician-scientist Dr. Rogers, a native of suburban Chicago, quality of life for patients is a priority, even when she’s not trying to entertain them and lift their spirits.
The field of hematology “is trying to figure out not only what’s biologically effective for disease, but also what might be best for people living with the condition,” she said. “This is especially true in terms of patient preference for a treatment you complete vs an ongoing or continuous treatment. I really like this idea of having more attention paid to what matters to patients, which the field of medicine sometimes forgets.”
In an interview, Dr. Rogers spoke about the appeal of storytelling in medicine, advances in treatment for CLL and hairy cell leukemia, and the challenges of college football loyalty.
How did you get drawn to medicine?
Ever since I was a kid, I thought, “Oh, I really want to be a doctor. That sounds fun.” At its core, medicine blends things I really like: science, helping people with a problem, and storytelling.
The practice of medicine is a lot about stories — talking to people, figuring out what they’re telling you about what’s going on, then explaining what you know in a way that makes sense to them.
What changes have you seen in leukemia care during your career?
The biggest change is the move from chemotherapies to targeted agents. When I first did a fellowship here at Ohio State, we had studies of ibrutinib, the first-in-class covalent Bruton tyrosine kinase (BTK) inhibitor. We’d see patients who’d been on chemotherapy for the past 10 or 15 years, and then they got in a clinical trial. Ibrutinib worked better than any of the chemotherapy, and they felt better and had fewer side effects.
Now, chemoimmunotherapy is not recommended for CLL, and you can see the impact of targeted agents on the lives of patients. Instead of telling people they need to put aside work and personal plans to take intensive chemotherapy for 6 months, you say: “You’ve got to come to some more appointments to make sure the treatment is going well, and you don’t have too many side effects. But you can expect to continue to work full-time and go to your niece’s wedding out of state or whatever else you want to do.”
What are you most excited about working on?
I’m the principal investigator of a study combining obinutuzumab, ibrutinib, and venetoclax for a fixed duration, a defined treatment course of a little over a year. I just reported the median progression-free survival for phase 2 at the European Hematology Association meeting this spring. It was over 7 years for both patients who had prior treatment and those who hadn’t.
The idea that people could take a year of treatment and get a huge benefit after completing it is quite important. The regimen has gone into phase 3 testing, and we’re now trying to understand the impact in terms of which patients got longer responses or which didn’t.
What are some challenges that remain in CLL?
There are still patients whose CLL becomes resistant to our two most commonly used classes of agents: BTK inhibitors and the BLC2 inhibitor, venetoclax. There are some more BCL2 inhibitors in development, but venetoclax is the only one currently approved.
I am also principal investigator on another study that added venetoclax to ibrutinib when resistance mutations developed that would predict ultimate resistance to ibrutinib. The median progression-free survival in that study was 40.7 months, whereas the expectation with venetoclax alone is 24 months. So, it really improved the amount of time people were in remission. This study is ongoing.
We’ve just started a phase 2 study to have patients take pirtobrutinib, a noncovalent BTK inhibitor, in combination with venetoclax in cases where CLL has become resistant to a covalent BTK inhibitor. Patients will take this combination for about a year and a half.
It’s been really exciting to see the impact of some of these combinations both as first-line CLL treatment and in CLL that’s become resistant. But trying to understand what predicts response is a harder thing. I wish I knew the answers for what causes this synergy between those two classes of drugs.
You also specialize in hairy cell leukemia. Could you talk about what it is?
CLL is the most prevalent adult leukemia in the Western world, whereas hairy cell leukemia is very rare. It’s a slow-growing B-cell cancer that got its name because under the microscope, the cells have hairy projections on them.
It had a survival of only about 2-4 years before the development of purine analogs. After a course of pentostatin or cladribine (2-chlordeoxyadenosine), some people never need treatment again in our natural lifespan.
But some patients don’t benefit from purine analogs, either because they have a devastating infection that makes them unsuitable or for another reason. Or they end up needing treatment every 2-3 years, which isn’t something you want to do for 30 years of someone’s lifespan.
What are some challenges in hairy cell leukemia?
It’s a rare condition, so it can be hard to do a really large clinical trial. A lot of physicians think that the prognosis is good and miss out on an opportunity for better treatment and to generate new knowledge.
Also, some people perceive that it’s not actually a problem for people living with it. Cladribine and pentostatin are not terrible chemotherapies, and most people tolerate them very well. But we can make treatment for hairy cell more effective and more tolerable for our patients if we put more effort into researching it.
I’ve heard that you’re a big college football fan. How do you balance your history as a University of Michigan medical school alum with your work for archrival Ohio State?
I went to Northwestern for undergrad, as did several people in my family. So, I usually just claim Northwestern is my football affiliation. It doesn’t inspire much vitriol if you cheer for Northwestern!
And I understand that you live with a pair of guinea pigs. Do tell.
I adopted guinea pigs as pets in medical school. They’re cute and friendly, and they make all this noise for you when you come home.
Once, one of my clinic patients said, “I don’t want to be your guinea pig.” I thought, “you should be so lucky.” They have quite a lifestyle: They’ve trained me to bring them vegetables, they nap most of the time, and they have a play space, a guinea pig playground.
I thought I liked the guinea pigs more than they liked me. But last fall, I was gone for about 10 days. When I got back, I’d never heard them make so much noise. They were extremely happy to see me. Then for the next 48 hours, one would randomly start whistling for me to come over. I thought, “oh, these things do like me a little bit.”
Dr. Rogers disclosed receiving research funding from Genentech, AbbVie, Novartis, and AstraZeneca and consulting/advisory relationships with AstraZeneca, AbbVie, Genentech, Janssen, Pharmacyclics, BeiGene, Loxo@Lilly, and Alpine Immune Sciences.
A version of this article first appeared on Medscape.com.