Cell Surgical Network of FL Newest Member C. Mark Homra, MD Introduces Stem Cell Treatments for Urologic Disorders In Jacksonville, Florida Clinic

Thursday May 28th, 2015

Dr. Mark Homra obtained his undergraduate degree from Vanderbilt University, and graduated from the University of Louisville Medical School and completed his Urology residency. He had lived in Jacksonville since 1997, and currently is Chief of Surgery and Chairman of the Credentials Committee at St. Vincent’s Southside Hospital. Dr. Homra is board certified by the American Board of Urology.

Dr. Homra is currently treating the following conditions:

Erectile Dysfunction
http://stemcellrevolution.com/currently-studying/urology/erectile-dysfunction

Interstitial Cystitis
http://stemcellrevolution.com/currently-studying/urology/interstitial-cystitis

Peyronies Disease
http://stemcellrevolution.com/currently-studying/urology/peyronies-disease

Male Incontinence
http://stemcellrevolution.com/currently-studying/urology/male-incontinence

Background of Cell Surgical Network of Florida

The Cell Surgical Network of Florida (CSN Florida), is an advanced Stem Cell Surgical Center and Stem Cell Research Facility located in Jacksonville, Florida. With more than three decades of plastic surgery experience in the area of cellular therapies and adult fat, Dr. Lewis J. Obi spearheads the advanced stem cell research being conducted here at CSN Florida. The Cell Surgical Network of Florida is a research affiliate of the Cell Surgical Network founded by Dr. Elliot Lander and Dr. Mark Berman at the Cell Surgical Network in Los Angeles.

At our stem cell surgical center, we use adipose (fat) derived mesenchymal stem cells for deployment and clinical research. Early stem cell research was traditionally associated with the controversial use of embryonic stem cells. This new focus is on nonembryonic adult mesenchymal stem cells, which are found in a person’s own blood, bone marrow and fat. Most stem cell treatment centers in the world are currently using stem cells derived from bone marrow. But recent technologic