Stem Cell Therapy
Stem cell therapy uses the body’s natural regenerative potential to heal damaged tissues. Whether you’re recovering from injuries, battling autoimmune disorders, or managing age-related conditions, this therapy offers a groundbreaking path to recovery.
The Science Behind Stem Cell Therapy
Stem cells are the building blocks of life, with the unique ability to divide and develop into various cell types. In regenerative medicine, stem cells are harvested, processed, and delivered to areas of injury or degeneration to repair tissues, reduce inflammation, and promote healing. Research has shown that these cells can regenerate cartilage, nerve tissue, and even damaged organs, making them an effective treatment option for otherwise untreatable conditions.
The Science Behind Stem Cell Therapy
Restore Tissue Functions
Helps regenerate damaged tissues by differentiating into specific cell types (e.g., muscle, cartilage, or neural cells).
Reduces Inflammation
Proven efficacy in reducing inflammation and promoting recovery in autoimmune and degenerative diseases.
Improves Mobility
Backed by global studies demonstrating significant improvement in mobility, pain reduction, and overall quality of life.
Minimally Invasive
Provides an advanced, non-surgical treatment option with faster recovery times and wide applications.
Why Choose JCRC-ABT CellGene Innovations?
Backed by global expertise and cutting-edge research, our stem cell therapy is designed to transform lives, one patient at a time. From the moment you reach out to us, we are committed to walking with you every step of the way, ensuring compassionate care, personalized solutions, and life-changing results.
1. What conditions can stem cell therapy treat?
Stem cell therapy is effective for a wide range of conditions, including autoimmune diseases, degenerative disorders, neurological conditions, and injuries such as osteoarthritis and spinal cord damage.
2. How safe is stem cell therapy?
At JCRC-ABT, we adhere to the highest safety standards, using GMP-certified stem cells and globally recognized protocols. All procedures are conducted by experienced medical professionals.
3. Where do the stem cells come from?
We use ethically sourced stem cells provided by trusted partners such as Cellcolab, which comply with EU-GMP (Good Manufacturing Practice) standards to ensure quality and safety.
4. How long does it take to see results?
The timeline for improvement varies by condition and individual. Some patients report improvements within weeks, while others may require several months to experience full benefits.
5. What are the risks and side effects?
Stem cell therapy is minimally invasive and generally well-tolerated. Some patients may experience mild swelling or discomfort at the injection site, which typically resolves quickly.
CASE STUDY
Case Studies on Bone Marrow-Derived Stem Cells
(Stem Cell Therapy)
Diabetic Foot Ulcers
A clinical trial in Diabetes Care found that local BM-MSC therapy accelerated healing in chronic diabetic foot ulcers, achieving complete closure in 73% of patients after 12 weeks, compared to 37% in the control group.
Osteoarthritis Treatment
Research in Stem Cells International showed that intra-articular BM-MSC injections in patients with knee osteoarthritis reduced pain and improved joint function over 12 months. MRI scans revealed regeneration of cartilage in some cases, suggesting structural benefits.
Cardiac Repair
A study published in The Lancet demonstrated significant improvements in heart function in patients with myocardial infarction after intramyocardial injection of bone marrow-derived mesenchymal stem cells (BM-MSCs). Left ventricular ejection fraction increased by an average of 5% within six months, with no severe adverse effects reported.
Liver Cirrhosis
In a trial published in Hepatology, patients with liver cirrhosis received BM-MSC infusions via the hepatic artery. Significant improvements were seen in liver function tests, fibrosis markers, and patient-reported symptoms over 6 months, indicating potential for disease modification.
Spinal Cord Injury
A study in Cell Transplantation reported improved motor function in paraplegic patients after BM-MSC transplantation. Functional recovery correlated with enhanced nerve regeneration and reduced inflammation observed through imaging and biomarkers.
