Neil Riordan, PhD Presents at American Academy of Anti-Aging Medicine's 22nd Annual World Congress on Anti-Aging, Regenerative and Aesthetic Medicine in Orlando, May 15

Neil Riordan, PhD Presents at American Academy of Anti-Aging Medicine's 22nd Annual World Congress on Anti-Aging, Regenerative and Aesthetic Medicine in Orlando, May 15 (via PRWeb)

Neil Riordan, PhD will Present “Umbilical Cord Mesenchymal Stem Cells in the Treatment of Autoimmune Diseases” at the 22nd Annual World Congress on Anti-Aging, Regenerative and Aesthetic Medicine at the Gaylord Palms Hotel in Orlando, Florida as…

 

Additional Tickets Released for Stem Cell Institute Public Seminar on Adult Stem Cell Therapy Clinical Trials in New York City May 17th, 2014

Additional Tickets Released for Stem Cell Institute Public Seminar on Adult Stem Cell Therapy Clinical Trials in New York City May 17th, 2014 (via PRWeb)

Stem Cell Institute is releasing additional tickets for its Adult Stem Cell Therapy Clinical Trials seminar on Saturday, May 17, 2014 in New York City at the New York Hilton Midtown from 1:00 pm to 4:00 pm. New York, NY (PRWEB) May 02, 2014 Stem Cell…

 

Stem Cell Institute Welcomes Special Guest Speaker Roberta F. Shapiro DO, FAAPM&R to Stem Cell Therapy Public Seminar in New York City May 17th, 2014

Stem Cell Institute Welcomes Special Guest Speaker Roberta F. Shapiro DO, FAAPM&R to Stem Cell Therapy Public Seminar in New York City May 17th, 2014 (via PRWeb)

The Stem Cell Institute located in Panama City, Panama, welcomes special guest speaker Roberta F. Shapiro, DO, FAAPM&R to its public seminar on umbilical cord stem cell therapy on Saturday, May 17, 2014 in New York City at the New York Hilton Midtown…

 

Stem Cell Institute Public Seminar on Adult Stem Cell Therapy Clinical Trials in New York City May 17th, 2014

New York, NY (PRWEB) April 09, 2014

The Stem Cell Institute, located in Panama City, Panama, will present an informational umbilical cord stem cell therapy seminar on Saturday, May 17, 2014 in New York City at the New York Hilton Midtown from 1:00 pm to 4:00 pm.

Speakers include:

Neil Riordan PhD – “Clinical Trials: Umbilical Cord Mesenchymal Stem Cell Therapy for Autism and Spinal Cord Injury”

Dr. Riordan is the founder of the Stem Cell Institute and Medistem Panama Inc.

Jorge Paz-Rodriguez MD – “Stem Cell Therapy for Autoimmune Disease: MS, Rheumatoid Arthritis and Lupus”

Dr. Paz is the Medical Director at the Stem Cell Institute. He practiced internal medicine in the United States for over a decade before joining the Stem Cell Institute in Panama.

Light snacks will be served afterwards. Our speakers and stem cell therapy patients will also be on hand to share their personal experiences and answer questions.

Admission is free but space in limited and registration is required. For venue information and to register and reserve your tickets today, please visit: http://www.eventbrite.com/e/stem-cell-institute-seminar-tickets-11115112601 or call Cindy Cunningham, Patient Events Coordinator, at 1 (800) 980-7836.

About Stem Cell Institute Panama
Founded in 2007 on the principles of providing unbiased, scientifically sound treatment options; the Stem Cell Institute (SCI) has matured into the world’s leading adult stem cell therapy and research center. In close collaboration with universities and physicians world-wide, our comprehensive stem cell treatment protocols employ well-targeted combinations of autologous bone marrow stem cells, autologous adipose stem cells, and donor human umbilical cord stem cells to treat: multiple sclerosis, spinal cord injury, osteoarthritis, rheumatoid arthritis, heart disease, and autoimmune diseases.

In partnership with Translational Biosciences, a subsidiary of Medistem Panama, SCI provides clinical services for ongoing clinical trials that are assessing safety and signs of efficacy for osteoarthritis, rheumatoid arthritis, and multiple sclerosis using allogeneic umbilical cord tissue-derived mesenchymal stem cells (hUC-MSC), autologous stromal vascular fraction (SVF) and hU-MSC-derived mesenchymal trophic factors (MTF). In 2014, Translation Biosciences expects to expand its clinical trial portfolio to include spinal cord injury, heart disease, autism and cerebral palsy.

To-date, SCI has treated over 2000 patients.

For more information on stem cell therapy:

Stem Cell Institute Website: http://www.cellmedicine.com

Stem Cell Institute
Via Israel & Calle 66
Plaza Pacific Office #2A
Panama City, Panama

About Medistem Panama Inc.
Since opening its doors in 2007, Medistem Panama Inc. has developed adult stem cell-based products from human umbilical cord tissue and blood, adipose (fat) tissue and bone marrow. Medistem operates an 8000 sq. ft. ISO 9001-certified laboratory in the prestigious City of Knowledge. The laboratory is fully licensed by the Panamanian Ministry of Health and features 3 class 10000 clean rooms, class 100 laminar flow hoods, and class 100 incubators.

Medistem Panama Inc.
Ciudad del Saber, Edif. 221 / Clayton
Panama, Rep. of Panama

Phone: +507 306-2601
Fax: +507 306-2601

About Translational Biosciences
A subsidiary of Medistem Panama Inc., Translational Biosciences was founded solely to conduct clinical trials using adult stem cells and adult stem cell-derived products.

Translational Biosciences webSite: http://www.translationalbiosciences.com

Email: trials(at)translationalbiosciences(dot)com

Umbilical Cord Stem Cell Therapy Clinical Trial for Multiple Sclerosis Gets Green Light

Dallas, TX (PRWEB) April 03, 2014

Translational Biosciences, a subsidiary of Medistem Panama, has received the green light for a phase I/II clinical trial using human umbilical cord-derived mesenchymal stem cells (UC-MSC) for multiple sclerosis from the Comité Nacional de Bioética de la Investigación (CNEI) Institutional Review Board (IRB) in Panama.

According to the US National Multiple Sclerosis Society, in Multiple Sclerosis (MS), an abnormal immune-mediated T cell response attacks the myelin coating around nerve fibers in the central nervous system, as well as the nerve fibers themselves. This causes nerve impulses to slow or even halt, thus producing symptoms of MS that include fatigue; bladder and bowel problems; vision problems; and difficulty walking. The Cleveland Clinic reports that MS affects more than 350,000 people in the United States and 2.5 million worldwide.

Mesenchymal stem cells harvested from donated human umbilical cords after normal, healthy births possess anti-inflammatory and immune modulatory properties that may relieve MS symptoms. Because these cells are immune privileged, the recipient’s immune system does not reject them. These properties make UC-MSC interesting candidates for the treatment of multiple sclerosis and other autoimmune disorders.

Each patient will receive seven intravenous injections of UC-MSC over the course of 10 days. They will be assessed at 3 months and 12 months primarily for safety and secondarily for indications of efficacy.

The stem cell technology being utilized in this trial was developed by Neil Riordan, PhD, founder of Medistem Panama. The stem cells will be harvested and processed at Medistem Panama’s 8000 sq. ft. ISO-9001 certified laboratory in the prestigious City of Knowledge. They will be administered at the Stem Cell Institute in Panama City, Panama.

From his research laboratory in Dallas, Texas, Dr. Riordan commented, “Umbilical cord tissue provides an abundant, non-controversial supply of immune modulating mesenchymal stem cells. Preclinical and clinical research has demonstrated the anti-inflammatory and immune modulating effects of these cells. We look forward to the safety and efficacy data that will be generated by this clinical trial; the first in the western hemisphere testing the effects of umbilical cord mesenchymal stem cells on patients with multiple sclerosis.”

The Principle Investigator is Jorge Paz-Rodriguez, MD. Dr. Paz-Rodriguez also serves as the Medical Director at the Stem Cell Institute.

For detailed information about this clinical trial visit http://www.clinicaltrials.gov . If you are a multiple sclerosis patient between the ages of 18 and 55, you may qualify for this trial. Please email trials (at) translationalbiosciences (dot) com for more information about how to apply.

About Translational Biosciences

A subsidiary of Medistem Panama Inc., Translational Biosciences was founded solely to conduct clinical trials using adult stem cells and adult stem cell-derived products.

Translational Biosciences Web Site: http://www.translationalbiosciences.com
Email: trials@translationalbiosciences.com

About Medistem Panama Inc.

Since opening its doors in 2007, Medistem Panama Inc. has developed adult stem cell-based products from human umbilical cord tissue and blood, adipose (fat) tissue and bone marrow. Medistem operates an 8000 sq. ft. ISO 9001-certified laboratory in the prestigious City of Knowledge. The laboratory is fully licensed by the Panamanian Ministry of Health and features 3 class 10000 clean rooms, class 100 laminar flow hoods, and class 100 incubators.

Medistem Panama Inc.
Ciudad del Saber, Edif. 221 / Clayton
Panama, Rep. of Panama

Phone: +507 306-2601
Fax: +507 306-2601

About Stem Cell Institute Panama

Founded in 2007 on the principles of providing unbiased, scientifically sound treatment options; the Stem Cell Institute has matured into the world’s leading adult stem cell therapy and research center. In close collaboration with universities and physicians world-wide, our comprehensive stem cell treatment protocols employ well-targeted combinations of autologous bone marrow stem cells, autologous adipose stem cells, and donor human umbilical cord stem cells to treat: multiple sclerosis, spinal cord injury, osteoarthritis, rheumatoid arthritis, heart disease, and autoimmune diseases. To-date, the Institute has treated over 2000 patients.

For more information on stem cell therapy:
Stem Cell Institute Website: http://www.cellmedicine.com

Stem Cell Institute
Via Israel & Calle 66
Plaza Pacific Office #2A
Panama City, Panama

Bone marrow aspirate from iliac crest with donor bone scaffold results in healing of 4/5 patients with acetabular bone defects in revision hip arthroplasty

Eur Rev Med Pharmacol Sci. 2013 Aug;17(16):2240-9.

Bone marrow aspirate and bone allograft to treat acetabular bone defects in revision total hip arthroplasty: preliminary report.

Vulcano E1, Murena L, Falvo DA, Baj A, Toniolo A, Cherubino P.

Author information

• 1Department of Trauma and Orthopaedic Surgery, and Department of Microbiology; University of Insubria, Varese, Italy. ettorevulcano@hotmail.com  

Abstract

OBJECTIVES:

The safety and effectiveness of autologous mesenchymal cells for treating bone defects in humans is still uncertain. The present study presents a new technique consisting of allogeneic bone grafting enriched with bone marrow concentrate to treat acetabular bone defects resulting from aseptic loosening of the acetabular cup after total hip replacement.

PATIENTS AND METHODS:

Five adult patients were included in the study. Prior to surgery, patients were tested for antibodies to common pathogens. Treatment consisted of bone allogeneic scaffold seeded with bone marrow mesenchymal cells harvested from the iliac crest and concentrated using an FDA-cleared device. Clinical and radiographic follow-up was performed at 1, 3, 6, and 12 months after surgery. To assess viability, morphology, and the immunophenotype, bone marrow nucleated cells were cultured in vitro, then tested for sterility and evaluated for the possible replication of adventitious viruses.

RESULTS:

In 4 of 5 patients, both clinical and radiographic healing of the bone defect together with bone graft integration was observed at the mean time of 3.5 months. Mean follow-up was 2 years. One patient failed to respond. No post-operative complications were observed. Bone marrow nucleated cells were enriched 3.8-fold by a single concentration step. Enriched cells were free of microbial contamination. The immunophenotype of adherent cells was compatible with that of mesenchymal stem cells. No viral reactivation was observed.

CONCLUSIONS:

Allogeneic bone scaffold enriched with concentrated autologous bone marrow cells obtained from the iliac crest, may represent a good alternative to treat acetabular bone defects observed in revision hip arthroplasty.

Autologous bone marrow concentrate review from UCLA

Review of bone marrow concentrate uses in orthopedics.

Phys Sportsmed. 2013 Sep;41(3):7-18. doi: 10.3810/psm.2013.09.2022.

Autologous bone marrow concentrate: review and application of a novel intra-articular orthobiologic for cartilage disease.

Sampson S1, Botto-van Bemden A, Aufiero D.

Author information

• 1Clinical Instructor of Medicine, David Geffen School of Medicine at UCLA; Clinical Assistant Professor, Western University of Health Sciences; Adjunct Assistant Professor, Touro University; Founder, The Orthohealing Center and The Orthobiologic Institute (TOBI), Los Angeles, CA. drsampson@orthohealing.com.

Abstract

Younger adults, aged < 65 years, increasingly present to their physicians with advanced cartilage disease or post-traumatic osteoarthritis. A number of treatments exist for lessening patient pain and improving patient function. However, many patients are becoming aware of the potential of regenerative therapies and are now seeking solutions to the impaired biology underlying their conditions rather than addressing only their symptoms. Patients do not want to merely lessen their symptoms temporarily with a surgical procedure that replaces damaged tissue, but instead seek correction and repair of the underlying biology to regenerate damaged tissue and alleviate their symptoms altogether. Current therapies for patients with cartilage disease or osteoarthritis range from non-surgical intra-articular injections with biologics, such as hyaluronic acid (HA), to total joint arthroplasty for advanced stages of disease. Total joint arthroplasty is a successful procedure for patients aged > 65 years; however, the limited long-term durability of implanted prostheses decreases the preference of using such methods in more active patients aged < 65 years. The potential of cell-based orthobiologic injection therapies (pertaining to therapeutic injectables that aim to restore the biologic environment and/or structural components of diseased or damaged musculoskeletal tissue) is of tremendous interest for younger, more active patients, and is even more appealing in that such therapy can be delivered at point-of-care in the clinic during an office visit. Notably, the exponential rate of progress in biotechnology has allowed for immediate application of myriad novel therapies prior to clear evidence of benefit from randomized clinical trials. Orthobiologic intra-articular injection therapies include HA and platelet-rich plasma (PRP). We report on current, available findings for a third-generation intra-articular orthobiologic injectable therapy for cartilage disease, bone marrow concentrate (BMC). Bone marrow concentrate contains mesenchymal stem cells (MSCs), hematopoetic stem cells, platelets (containing growth factors), and cytokines. The anti-inflammatory and immunomodulatory properties ofbone marrow stem cells (BMSCs) can facilitate regeneration of tissue. Additionally, BMSCs enhance the quality of cartilage repair by increasing aggrecan content and tissue firmness. Following bone marrow aspiration (BMA), BMC is easily prepared using centrifugation, and is available for a same-day procedure with minimal manipulation of cells, thus complying with US Food and Drug Association (FDA) restrictions. To date, there are no published randomized controlled trials on the efficacy of use of autologous BMC intra-articular injections performed as a same-day in-office procedure for treating patients with cartilage disease; however, several publications have reported the ease of use of this method, its strong safety profile, and the fundamental science suggesting great therapeutic potential.