Adult Stem Cells

Injuries Treated

Adult stem cells at Aspen Integrative Medicine are used to treat:

  • Partial Tendon / Ligament Tears
  • Joint Repair
  • Cartilage Disorders
  • Osteoarthritis / Osteoporosis
  • Chronic sports injuries
  • Degenerative Joint & Disc Disease
  • Chronic sprains and strains
  • Cervical, thoracic, and lumbar spine strains
  • Brain injuries
  • Arthritic Joints
  • Shoulder pain, hip pain, and knee pain
  • Ligament laxity or tears
  • Tendon and ligament injuries
  • Carpal Tunnel Syndrome
  • Traumatic Brain Injuries

The Procedure

The adult stem cells are extracted from the patients blood by a simple blood draw the day before infusion. Within a 24 hour window of stem cell harvesting, the stem cells are activated and injected into the patient’s injured areas. The procedure can last up to 2 hours. The typical recovery time after the procedure is generally 3-5 days, with the ultimate results appearing within 1-3 months.*

*Results may vary; no guarantee of specific results

What to Know Before Getting Stem Cells

What Is a Stem Cell?

Basically a “blank” cell, an adult stem cell is capable of becoming another cell type in the body, such as a skin cell, a muscle cell, or a nerve cell. Adult stem cell therapy can be administered to help replace or even heal damaged tissues and cells, serving as a built-in repair system for the human body and replenishing other cells.

Recent stem cell research by the University of Texas Health Science Center at Houston (UTHealth) suggests that this cellular therapy can help reduce neuroinflammation, preserve brain tissue and improve cognitive function following traumatic brain injury (TBI). Meanwhile, other studies have indicated that adult neural stem cells have regenerative and reparative properties for the treatment of injuries or diseases in the central nervous system.

By definition, stem cells are undifferentiated biological cells that can differentiate into specialized cells and divide to produce more stem cells. There are three ways adult stem cells can be obtained: from bone marrow, adipose tissue, or blood. Unlike embryonic stem cells, the use of adult stem cells in research and therapy is not considered to be controversial, as they are derived from adult tissue samples rather than discarded human embryos. By law, these adult stem cells have to be injected or infused into the patient within 24 hours after being obtained.

Adult stem cells have the ability to divide and generate all cell types of the organ from which they originate. They possess two properties: self-renewal and multi-potency, meaning they can go through numerous cycles of cell division while still maintaining their undifferentiated state and hold the ability to generate into several distinct cell types, including neural cells found in the brain. Regenerative stem cell therapy can stimulate tissue re-growth and greater blood flow to the affected areas.* The goal of treatment with stem cells is to replace damaged cells and to promote the growth of new blood vessels and tissues in order to help the target organ function at a greater capacity.*

*Results may vary; no guarantee of specific results

What Are the Different Types of Stem Cells?

Technology Used at Aspen Integrative Medicine

The stem cells are extracted using the Tithon Biotech technology. This patented procedure termed PBD-PSC Technology, is founded in discoveries involving a unique population of pluripotent stem cells. These cells were initially isolated from adipose-tissue (fat), but were later found to originate in bone marrow and distributed in peripheral blood as well as other body fluids. These cells are in abundance in peripheral blood and in reproductive tissue secretions and dissipate in number and function in humans as they age. Tithon Biotech scientists have determined that these cells play a large role in future stem cell based therapeutic applications in both humans and animals.

“Traditionally, inflammation continues to be considered a natural, but sometimes harmful, response to injury, inch said Helen Blau, PhD, professor of microbiology plus immunology and director of Stanford’s Baxter Laboratory intended for Stem Cell Biology. “But we wondered whether there can be a component in the pro-inflammatory signaling cascade that also activated muscle repair. We found that a single exposure to prostaglandin E2 has a profound effect on the proliferation of muscle tissue stem cells in living animals. We postulated that individuals could enhance muscle regeneration by simply augmenting this organic physiological process in existing stem cells already situated along the muscle fiber.”

Scientific References