October 22, 2020 BY RONDA
WENDLER
When Trena Robertson’s left hip began aching, she
visited an orthopedic specialist in Baton Rouge, Louisiana, her
hometown.
“The doctor said I might have arthritis,” Trena recalls.
“He prescribed some pain and anti-inflammatory medications, but they didn’t
help.”
Little did Trena know that her painful hip was not
arthritis, but instead was a symptom of multiple myeloma, a blood cancer
that develops in the bone marrow where blood is made. A year would pass
before she would be diagnosed with the disease.
As Trena’s pain worsened, she began limping. Navigating
the long hallways in the school where she worked as a speech therapist became
increasingly difficult.
“I was holding onto walls, trying to walk from one end
to the other,” she recalls.
By the time the school year ended, Trena’s entire body
was in pain.
“My yearly physical exam was coming up,” she says, “and
I was just holding on for that appointment. I needed to understand what was
happening with my body.”
A multiple myeloma diagnosis
Bloodwork ordered by her family doctor pointed to
possible lupus, a connective tissue disorder that runs in Trena’s family.
Her doctor referred her to a rheumatologist. But it
turns out Trena didn’t have lupus. After “undergoing more medical tests than
I’d ever had in my life,” the rheumatologist told Trena he was 99% certain she
had multiple myeloma.
“I'd never heard of it,” Trena says, “but I knew enough
about medicine to recognize that the suffix ‘oma’ usually means cancer.”
The rheumatologist referred Trena to an oncologist who
ordered a bone marrow biopsy. The results left no doubt.
Not only did Trena have multiple myeloma; the cancer had also taken over 90% of
her bone marrow.
The doctor explained that multiple myeloma weakens the
bones and increases the risk of fractures. Trena had multiple small breaks in
bones throughout her body, in various stages of healing.
“I finally had an explanation for my pain,” she says.
Multiple myeloma is incurable, but treatable, the doctor
explained. Many patients do well for years at a time before needing to return
to the hospital for additional treatment. She warned Trena that treatment would
be intense, and would last about a year.
“With only three days before the start of the new school
year, I notified my principal that I needed to take a year-long leave of
absence,” Trena says.
Multiple myeloma treatment:
chemotherapy plus a targeted therapy
The oncologist prescribed an oral chemotherapy called lenalidomide and
a targeted therapy called bortezomib,
which is injected just under the skin of the abdomen.
Bortezomib targets particles inside myeloma cells called
proteasomes, which act like little garbage disposals by digesting unneeded or
damaged proteins inside the cells. Bortezomib targets these proteasomes, and
blocks them from digesting and discarding the proteins. The proteins build up
inside the myeloma cells, and the cells die. All cells contain proteasomes, but
myeloma cells are more dependent on proteasomes than normal cells.
Trena’s doctor warned that the two-drug combo, while
effective, would have an unwanted side effect: Healthy blood cells would also
be damaged and die along with the cancer cells. After finishing the medication,
Trena would need a stem cell transplant to replenish her
bone marrow with immature stem cells taken from her own body. These would
quickly mature into healthy blood cells.
The doctor urged Trena to make an appointment at MD
Anderson, one of the world's largest stem cell transplant centers.
Next step: Stem cell transplant
At MD Anderson, oncologist Krina Patel, M.D., explained that she would
work with Trena’s hometown oncologist to coordinate her care.
Together, the two doctors agreed to step up the frequency
and dosage of Trena’s medications.
Two months later, her myeloma cell count had dropped low
enough to start the next step of her treatment: an autologous stem cell transplant, which would
use her own stem cells for treatment.
Trena began taking a special medication called
Neupogen that "tricks" the bone marrow into overproducing
stem cells. She'd need 5 million for her transplant. Instead, she produced over
18 million.
“I’ve always been an overachiever,” she says.
After undergoing high-dose chemotherapy to kill any
remaining cancer cells, Trena received her stem cell transplant Dec. 12, 2018.
Much like a blood transfusion, the cells were delivered intravenously. The
procedure lasted only 30 minutes.
“I was awake and aware,” she says. “It was completely
painless. I felt nothing.”
Stem cells are smart, Patel explains. After they’re
infused into the bloodstream, they find their way back to the bone marrow and
get to work.
“Remember, when the stem cells arrive in the bone
marrow, things are in bad shape – almost all of the old marrow cells have
been killed by the chemotherapy,” Patel explains. “The stem cells start working
immediately to produce new blood cells. Within one to two weeks, those new
cells are mature enough to work correctly.”
Trena recovered with no complications, and was pleased
with the result.
“Before my transplant, I was using crutches and a
wheelchair to get around because I was so weak,” she says. “By the time I came
home, I was walking on my own and doing well. School was about to start, and I
was excited to go back to work.”
Another treatment option: CAR T cell
therapy clinical trial
But two months later, Trena relapsed.
“The myeloma figured out how to get around the stem cell
transplant,” Patel told her. “But we have another option.”
A new clinical trial for relapsed multiple
myeloma had recently been approved by the Food and Drug Administration, and was
now underway at MD Anderson and four other cancer centers throughout the
country.
The clinical trial was testing a relatively new cancer
treatment known as CAR T cell therapy, which was already being
used to treat some people with relapsed leukemia and lymphoma. The therapy changes a patient’s own
disease-fighting T cells so they’re able to recognize and attack cancer.
Here’s how it works: Patients’ T cells are extracted
from their blood and sent to a lab to be genetically engineered. In the lab,
scientists modify the T cells so they produce a protein (called a receptor)
that recognizes another protein (called an antigen) on the surface of cancer
cells. This allows the genetically altered T cells to identify and attack the
cancer. These specially engineered T cells are then multiplied by the hundreds
of millions in the lab, and infused back into the patient to fight the cancer.
Patel, who leads the MD Anderson arm of the clinical
trial, urged Trena to join.
“Sign me up,” Trena agreed. “What do I have to lose?”
She took another leave of absence from work and repeated
the same bortezomib, lenalidomide and high-dose chemotherapy regimen as before.
But this time, instead of stem cells, she received an infusion of her own
amped-up, cancer-fighting T cells.
Careful monitoring and treatment
Ten months later, Trena is back at work – virtually for
now. Her scans no longer show any signs of cancer. Patel says this doesn’t mean
the cancer is gone.
“Multiple myeloma is currently an incurable disease,”
she explains. “When you're in partial remission, a few cancer cells still
remain in your body. Treatments can't kill every single cancer cell, but there
are so few that tests can’t detect them.”
The goal in managing multiple myeloma, Patel says, is to
stay one step ahead of the disease with careful monitoring and treatment as
needed.
Trena undergoes monthly blood screenings in Baton Rouge,
and sees Patel for follow-up appointments every three months in Houston.
Managing multiple myeloma is a lifelong commitment, Patel says.
That’s fine with Trena.
“If it gives me the best shot at long-term remission,”
she says, “I’m all in.”
Request an appointment at MD Andreson online or by calling 1-877-266-2893.
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