Conditions
Conditions
- Cancer prevention
- Cancer treatment
- Lung cancer
- Breast cancer
- Leukemia
- Autoimmune diseases
- Type 1 diabetes
- Lupus
- Multiple Sclerosis
- Crohn's disease
- Inflammatory conditions
- Inflammatory bowel disease
- Chronic Obstructive Pulmonary Disease
- Emphysema
- Chronic bronchitis
- Infectious diseases
- Hepatitis B and C
- HIV
- Cardiovascular diseases
- Stroke
- Hypertension
- Heart failure
- Ischemic heart disease
- Peripheral artery disease
- Neurological disorders
- Traumatic brain injury
- Parkinson's disease
- Spinal Cord Injury
- Autism
- Skin and soft tissue conditions
- Anti-Aging
- Burns and wounds
- Skin ulcers
- Acne scars
- Hair loss
- Psoriasis
- Eczema
- Vitiligo
- Hyperpigmentation
- Metabolic disorders
- Obesity
- Diabetes Type 2
- Eye disorders
- Macular degeneration
- Retinal diseases
- Organ damage
- Liver cirrhosis
- Chronic Kidney Disease
- Renal failure
- Limb ischemia
- Chronic pain syndromes
- Fibromyalgia
- Chronic headaches
- Inherited disorders
- Muscular dystrophy
- Cystic Fibrosis
- Psychiatric conditions
- Depression
- Anxiety disorders
- Reproductive health
- Male and female infertility
- Erectile dysfunction
- Menopause
Traumatic brain injury
Can Stem Cells Halt Nerve Cell Deterioration?
Neurological disorders encompass a wide spectrum of conditions affecting the brain, spinal cord, and nervous system. In the past, these diseases were managed primarily through symptomatic treatment, involving an array of drugs, with no viable means to slow their progression or repair the neuronal damage.
Enter the era of stem cell medicine, where groundbreaking studies have illuminated the remarkable healing potential of stem cells within the body. Research now indicates that stem cells hold the capacity to mend damaged neurons, mitigate inflammation responsible for debilitating symptoms, and even facilitate the regeneration of new nerve cells.
Unleashing Stem Cells' Potential for Traumatic Brain Injuries
Traumatic Brain Injuries (TBIs), often resulting from severe head impacts, have garnered substantial media attention, particularly in sports like football, where such incidents are unfortunately frequent. These injuries can lead to enduring disruptions in normal brain function, manifesting as diminished cognition, impaired motor abilities, or, tragically, premature mortality.
Mesenchymal stem cells, inherently prolific in producing growth and trophic factors essential for neural development and maintenance, offer newfound hope for TBI patients. By infusing MSCs, damaged neurons can be rejuvenated, and the factors secreted by these cells play a pivotal role in facilitating neuronal regeneration.
Protocol
Intrathecal transplantation of cord tissue-derived Mesenchymal Stem Cells into the affected area. This minimally invasive procedure boasts a brief duration of approximately 45 minutes and is associated with minimal downtime. Patients typically return home just two days after their scheduled appointment.
Treatment Objectives
At the core of our protocol lies the overarching aim of substantially reducing chronic low-grade inflammation throughout the body. The enduring effects are anticipated to contribute to an extended period of improved well-being.
Stem cells exhibit an innate and unique ability to gravitate toward sites of damage and inflammation within the body. Research has illuminated their capacity to orchestrate the repair and regeneration of deteriorated tissues while fine-tuning the immune system, ultimately fostering enhanced health.
Depending on the specific ailment or the patient’s initial condition, the benefits of stem cell therapy can encompass a notable reduction in distressing symptoms, a deceleration in disease progression, and an overall elevation in quality of life.