surgery

Byron’s story

/ Kevin McCormack / 2 Comments

Bryon Jenkin’s is one of the people we profiled in our recent 18 Month Report. The theme of the report is “Perseverance” and Byron certainly epitomizes that. This is his story.

Photo of Byron Jenkins – hand on the plane – in his Navy fighter pilot days

A former Navy flight officer and accomplished athlete Byron Jenkins learned in June 2013 that he had multiple myeloma, an incurable blood cancer, and that it was eating through his bones. After five years of, chemotherapy, radiation, immunotherapy, and experimental procedures, he found himself bed ridden, exhausted, barely able to move. Byron says: “I was alive, but I wasn’t living.” 

Byron in the hospital

As the treatments lost their ability to hold the cancer at bay, Byron’s wife, family and close friends had made preparations for his seemingly inevitable demise. 

Then Byron took part in a CIRM-funded CAR-T clinical trial for a treatment developed by Poseida Therapeutics. The team used Byron’s own immune system cells, re-engineered in the lab, to recognize the cancer and to fight back. Within two weeks Byron was feeling so much better he was able to stop taking all of his medications. “I haven’t taken so much as an aspirin since then.”  

Two years later he is once again able to enjoy a full, active life with his family; biking, hiking and skiing with his wife and kids. He is back working full-time and only checks in with his oncologist once in a while.

Byron taking a selfie with his family

Byron says despite his ordeal he never lost faith, that the love of his family helped give him the strength to continue to fight. “Hope kept me going through this long arduous process. This is the first treatment to give me a continued normal life. CAR-T was the answer to my prayers.”

Byron: Photo courtesy Miranda Drummond of Catherine Rae Photography

UC Davis Surgeons Begin Clinical Trial that Tests New Way to Deliver Stem Cells; Heal Bone Fractures

/ cirmweb / Leave a comment

Each year, approximately 8.9 million people worldwide will suffer a bone fracture. Many of these fractures heal with the help of traditional methods, but for some, the road to recovery is far more difficult.

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After exhausting traditional treatments—such as surgically implanted pins or plates, bed rest and injections to spur bone growth—these patients can undergo a special type of stem cell transplant that directs stem cells extracted from the bone marrow to the fracture site to speed healing.

This procedure has its drawbacks, however. For example, the act of extracting cells from one’s own bone marrow and then injecting them into the fracture site requires two very painful surgical procedures: one to extract the cells, and another to implant them. Recovery times for each procedure, especially in older patients, can be significant.

Enter a team of surgeons at UC Davis. Who last week announced a ‘proof-of-concept’ clinical trial to test a device that can extract and isolate stem cells far more efficiently than before—and allow surgeons to implant the cells into the fracture in just a single surgery.

As described in HealthCanal, he procedure makes use of a reamer-irrigator-aspirator system, or RIA, that normally processes wastewater during bone drilling surgery. As its name implies, this wastewater was thought to be useless. But recent research has revealed that it is chock-full of stem cells.

The problem was that the stem cells were so diluted within the wastewater that they couldn’t be used. Luckily, a device recently developed by Sacramento-based SynGen, Inc., was able to quickly and efficiently extract the cells in high-enough concentrations to then be implanted into the patient. Instead of having to undergo two procedures—the patient now only has to undergo one.

“The device’s small size and rapid capabilities allow autologous stem cell transplantation to take place during a single operation in the operation room rather than requiring two procedures separated over a period of weeks,” said UC Davis surgeon Mark Lee, who is leading the clinical trial. “This is a dramatic difference that promises to make a real impact on healing and patient recovery.”

Hear more from Lee about how stem cells can be used to heal bone fractures in our 2012 Spotlight on Disease.