Regenerative therapy is new frontier in injury recovery – TCPalm

Fran Foster, The Newsweekly 1:01 a.m. ET March 8, 2017

Regenerative Biologics Institute (RBI) Managing Director Jason Griffeth in the procedure room where he performs advanced regenerative medicine treatments. He has been studying the science of stem cells for nearly 20 years.(Photo: Fran Foster)

Whenever their bodies are ailing, people usually look for a magical solution or an easy-to-swallow pill to make things better. Turns out, in some situations, that sought-for remedy may be in your own fat cells.

Beth Darraugh, 50, lives here in Vero Beach as well as in New York City. She has been active all of her life from volleyball in her youth to walking along the beach in Mexico. Shes experienced plenty of aches and pains but, as she has gotten older, she realized she wasnt recovering as quickly.

I had already had some orthopedic problems with my knee and was told I was probably going to have to succumb to surgery, she says. I wasnt ready for that and started researching about other techniques. While in Mexico, walking with my mom, something didnt feel right and I knew I had to do something. (Living) part time in New York City requires a lot of walking and it was getting harder and harder.

This is where Regenerative Biologics Institute, located here in Vero Beach, entered Darraughs life. RBI provides an option for treating orthopedic conditions and pain besides pills, cortisone shots, arthroscopic surgery or total joint replacements, which can all have significant drawbacks.

Many people are not aware that they can harness and concentrate their own bodys natural healing ability in the form of stem cells and platelets, said RBI Managing Director Jason Griffeth. There are safe and effective options that are treating these conditions through regenerative medicine.

Basically stem cells are the bodys natural repair cells, from which all other cells are derived. According to multiple research sources, stem cells can regenerate and heal injured tissue, as well as decrease inflammation. As we age, the amount of stem cells in our body declines as does our bodys ability to repair an injury.

RBIs Managing Director Jason Griffeth with Medical Director Dr. Brett Haake at their office across from Indian River Medical Center in Vero Beach(Photo: Fran Foster)

We found out that fat tissue is one of the richest sources of stem cell in the body and it works really well to unlock our bodies as a natural way of healing itself, Griffeth said, joking that Its not that bad to carry around a little extra fat.

The science behind it has been around since 1981 but has received more attention since money started pouring into the research. Professional athletes such as Mets pitcher Bartolo Colon and tennis star Rafael Nadal have reportedly used regenerative therapy to speed up injury recovery time.

In 2013, Harvard Medical School received a 10-year, multimillion grant from the National Football League Players Association for an initiative to prevent, treat and study football-related injuries.

The Mayo Clinic calls the therapy a "game-changing area of medicine," offering effective therapy for people whose conditions seem beyond repair.

Griffeth, a University of Florida masters graduate, studied biotechnology and cell science. He became fascinated with the human anatomy and its ability to help itself when he was working in Fort Lauderdale, in 2009, doing clinical studies with patients with damaged heart tissue.

RBI, located in Vero Beach, is committed to using stem cells for regenerative healing therapies once available only to professional athletes.(Photo: Fran Foster)

We would take a muscle biopsy from the thigh muscle, isolate the stem cells from that, then culture and expand them for about three weeks in our laboratory, he explained. Then we would use those cells to inject directly into the heart wall to help the damaged heart tissue. Of those studies, about a third of patients were significantly better, another third somewhat and the last third stayed the same but thats not necessarily a bad thing considering they didnt decline.

Currently, RBI is working on orthopedic conditions: arthritis, knee and other sport injuries.

Regenerative medicine is also not without its detractors. The FDA has approved just a handful of procedures (mainly for blood diseases such as leukemia) and insurance doesnt cover the treatment which can run into the thousands of dollars.

However, there are very few known side effects and very little recovery time. Plus, it's a treatment that addresses the underlying cause degenerating tissue as opposed to just treating symptoms.

Darragh said the only discomfort she had was when the cells were discharged into her knee there really wasnt a lot of room in there.

The guys (at RBI) laughed at me and said, You are only the second person that has complained about that. The other was a CrossFit athlete with little to no body fat especially around her joints.

Nevertheless, she walked out just fine, the same day.

RBI Medical Director Dr. Brett Haake believes there are a lot of misunderstandings about what regenerative medicine can do, as well as the science behind it.

The first way the public came to know about stem cells was through the embryonic stem cell research debate, where you are potentially destroying embryos, and the politics that come around that discussion, he said.

Haake explains, Its a simple process. We make a small incision, which doesnt even require stitches, go in and retract the fatty tissues. In about 45 minutes, we can isolate and concentrate on stem cells, combine them with your own highly concentrated platelets, which have a ton of growth factors, and inject them back to the area needed perhaps an elbow, a knee or an ankle.

Darragh says she researched treatments extensively and recommends others do the same.

Having this regenerative therapy is one of the best three things Ive done for myself. I had no idea it was available, although its very prominent in Europe and a lot of athletes use it, she says. The procedure makes perfect sense to me in that my body is healing itself. Im not introducing foreign objects, putting it through surgical trauma, taking pain medications. Its literally taking cells from one area to help heal another area. Your own body is healing your own body.

In regards to the procedure being ineligible for insurance coverage, she said that her insurance deductible was just as high, if not higher.

And the procedure only took a few hours. She loved the fact that the staff at RBI explained the entire process with enthusiasm and really believe in the work they are doing.

I have to say it lived up to exactly what they said it would do. I was in and out of the office the same day and was moving around right away, she said. Eight weeks later, its better than it has been for the past five years. Im planning on going back this December to have them work on my shoulder next.

Regenerative Biologics Institute (RBI) is located at 3755 Seventh Terrace, Suite 102 in Vero Beach. Visit their website at http://www.rbistemcell.com or call 772-492-6973.

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Regenerative therapy is new frontier in injury recovery - TCPalm

New Method Rescues Donor Organs to Save Lives – Laboratory Equipment

A multidisciplinary team led by Gordana Vunjak-Novakovic, Mikati Foundation Professor of Biomedical Engineering and Medical Sciences at Columbia Engineering, and Matt Bacchetta, associate professor of surgery at Columbia University Medical Center and NewYork-Presbyterian has--for the first time--maintained a fully functional lung outside the body for several days. In a study published today on Nature Biomedical Engineering's website, the researchers describe the cross-circulation platform that maintained the viability and function of the donor lung and the stability of the recipient over 36 to 56 hours. They used the advanced support system to fully recover the functionality of lungs injured by ischemia (restricted blood supply), and made them suitable for transplant.

The team was inspired by the critical need to expand the pool of donor lungs. Transplantation remains the only definitive treatment for patients with end-stage lung disease, but the number of donor lungs is much smaller than the number of patients in need, and many patients die while on the wait list. In addition, lungs quickly lose their function outside the body and during transport: four out of five lungs evaluated at transplant centers are rejected. If these lungs could be kept viable outside the body long enough, it would be possible to improve their function and use them for transplantation.

Over the past five years, Vunjak-Novakovic has been collaborating with Bacchetta and Hans Snoeck, professor of medicine, to investigate how to improve low-quality donor lungs and possibly bioengineer lungs for transplantation. Rather than attempting to build new lungs, they developed strategies to rescue damaged donor lungs. One approach was to use a stem cell therapy of the lung to replace defective cells with new therapeutic cells derived from the transplant recipient. While this technique was applicable to low-quality lungs that are rejected for transplantation, there was a problem: the support of the lung outside the body was too short for the therapeutic cells to start improving lung function.

As often happens, unmet clinical needs inspire new ideas and drive the development of new technologies. The Columbia team realized that "cross circulation"--an abandoned surgical procedure used in the 1960s to exchange blood flow between two patients--could enable long-term support of living organs outside the body by providing critical systemic and metabolic factors that are missing from all current technologies. The team embraced this idea and devised an entirely new approach to support lungs outside the body long enough to enable therapeutic interventions needed to recover their health and normal function.

"This is the most complex study we have ever done, and the one with the highest potential for clinical translation," Vunjak-Novakovic said. "The lung is a masterpiece of 'engineering by nature,' with its more than 40 cell types, and a gas exchange surface area of 100 square meters - half a tennis court. It is amazing that such an intricate organ can be maintained outside the body and even recovered following injury."

"Our team worked hard to innovate a suite of imaging and targeted delivery technologies and ultimately completed this challenging, paradigm-shifting study in less than a year. This was only possible because of our uniquely talented team of bioengineers and surgeons, and the highly collaborative environment at Columbia that fosters innovation," Vunjak-Novakovic said.

The team's breakthrough was realizing that cross-circulation could be re-configured to help recover damaged donor organs. The study's lead authors, Ph.D. candidate John O'Neill and postdoctoral research fellow Brandon Guenthart, looked at clinical studies from the 1960s that used cross-circulation of blood between a healthy individual and a patient suffering from a critical but potentially reversible illness. Working in Vunjak-Novakovic's Laboratory for Stem Cells and Tissue Engineering, they developed a radically new technology to support fully functional lung outside the body for several days.

"Our cross-circulation platform will likely allow us to extend the duration of support to a week or longer if needed, potentially enabling the recovery of severely damaged organs," observed O'Neill. "Beyond prolonging support time, we also demonstrated several therapeutic interventions that vastly improve and accelerate recovery."

As the team was developing their cross-circulation platform, they overcame many challenges to keep the lungs viable outside the body much longer than any platform had before. To prevent the outer surface of the lung from drying out and to provide normal body temperature, they designed a humidification system with ambient temperature control and a re-circulating warm water organ basin to provide normal body temperature to mimic the chest cavity.

Then they needed to tackle the perfusion circuit. To allow for adequate blood flow into and out of the lungs during cross-circulation, they developed new components and techniques and used a donor vessel as a "bio-bridge." They engineered a dynamic system capable of height and hydrostatic pressure adjustments and feedback-regulated pressure-controlled flow. They also developed image-guided techniques for the controlled delivery of drugs and cells in precisely targeted regions of the lung without the need for repeated lung biopsies.

"As our work progressed, we continued to innovate out of necessity and refine and streamline our cross-circulation setup and procedure," said Guenthart.

The researchers say their new platform could be readily extended to recover other organs that are in high demand for transplant or in need of repair, including livers and kidneys, and they have already begun studies in these directions.

"Cross-circulation has proven to be a valuable tool for investigation and has fostered interdisciplinary collaborations," Bacchetta said. "Our study is giving researchers new opportunities to investigate donor-recipient immunologic interactions, therapeutic cell delivery, stem cell differentiation, acute lung injury, and the development of new pulmonary theranostics."

Vunjak-Novakovic added, "Our goal was to develop a platform that harnesses the full potential of tissue engineering and regenerative medicine toward organ rescue. We hope that our unique technology will benefit the many patients in need and help them live fuller and happier lives."

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New Method Rescues Donor Organs to Save Lives - Laboratory Equipment