Treating Neuropathy with stem cells
Traditional treatment for neuropathy includes pain management and physical rehabilitation to prevent further damage. However, the underlying cause of neuropathic symptoms is often not addressed.
Patients with Neuropathy (be it autonomic neuropathy, peripheral neuropathy, or diabetic neuropathy) face three main concerns:
- Chronic inflammation and metabolic dysregulation due to stress, toxins, underlying conditions and chronic infections.
- Chronic nerve pain that can be focal, proximal, peripheral, autonomic, post-herpetic or diabetic. Whatever the source and area affected, the pain is not easily alleviated, and can be relentless.
- Chronic irritation, stress, exhaustion, mood alteration that lead to loss of mobility, decreased quality of life and often to a loss of independence.
Regenerative stem cell therapy for Neuropathy
An efficient way to help restore the quality of life of these individuals is to address these three aspects of the disease in parallel, using natural anti-inflammatory, detoxifying, and neuropathic pain relieving protocols alongside regenerative therapy in the form of stem cell treatment.
Neuropathy Treatment Plan
Our treatment plans generally last between 2 and 5 weeks, depending on your overall health, your condition, and the severity of your Neuropathy symptoms. Anyone can sign up for stem cell treatment for Neuropathy. Each stem cell treatment candidate will receive a tailored plan to help achieve the highest success rate for maximum therapy efficiency. Typically, stem cell therapy for Neuropathy will resemble a program such as the one below, and will last for 5 weeks plus weekly visits for 6 months.
Stem cells
20 stem cell IVs
Plurisomes
4 Plurisomes IVs
Peptides & Nutraceuticals
20 IVs
Chelation
regular CaNa2 EDTA IVs
Ozone
4 sessions
Physiotherapy & Massage
4 sessions
Treatments
- Anti-Aging
- Alzheimer's disease
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- Treated by Stem Cells
Benefits of stem cell therapy for Neuropathy patients
Because we utilize a stem cell type that is cultured in our laboratory, rather than using autologous stem cells (mesenchymal stem cells, adult stem cells, multipotent stem cells) coming from the patient's bone marrow or adipose tissue (Adipose-derived stem cells) , we completely avoid the potential risks associated with invasive cell-removal procedures.
The role of stem cell treatments with pluripotent stem cells in treating neuropathy is to clear aggravating inflammation, trigger nerve regeneration to repair damaged nerve tissue, and the bring about the functional recovery of sensory nerves and peripheral nerves. Patients who undergo this form of regenerative medicine may expect the following:
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Reduced Inflammation
The first benefit from stem cell treatment is immune regulation. Stem cells and their exosomes release immune, transcription factors that help to quench the inflammatory cytokine storms causing nerve aggravation. Peptide and detoxification IVs also help to modulate immune function. This gives room for the stem cells to repair the nerve damage and tissue.
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Reduced Pain
The second level of benefit from pluripotent stem cell transplantation is a palpable reduction of chronic pain. The suppression of pain is usually observed after a minimum of 2 weeks of pulsing IVs and injections. In neuropathy, damaged nervous tissue fibers co-exists side by side with healthy uninjured nervous fibers. The damaged fibers aggravate the intermingling healthy fibers, leading to neuropathic pain. Pluripotent stem cells release powerful neurotrophic factors (secretory proteins, nerve growth factor, endothelial growth factor etc.) that protect the healthy fibers and assist the regeneration of damaged nerve tissue, nerve cells, neurons and endothelial cells simultaneously.
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Improved Quality of Life
As pain wanes and patients have pain-free moments in the day, they experience a renewed sense of vitality, improved mobility, have more energy and clear vision of the future once again.
Frequently Asked Questions
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How does stem cell therapy help neuropathy?
Stem cell therapy helps neuropathy by directly addressing the nerve damage that causes the pain, numbness, and tingling. Think of our pluripotent stem cells as a specialized repair crew for your nervous system.
When introduced into your body, these cells get to work in two primary ways:
They help rebuild damaged nerves. The stem cells release a range of natural growth factors—powerful signals that protect your healthy nerve fibers and encourage your damaged nerves to regenerate and heal.
They reduce inflammation. They also work to calm the chronic inflammation that can irritate nerve fibers and contribute to pain.
By both repairing the physical damage and soothing the area, this therapy targets the root cause of neuropathy.
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Does pluripotent stem cell therapy treat diabetic neuropathy?
Yes. Our therapy is designed to help with diabetic neuropathy through a powerful, two-pronged approach.
First, it works to directly repair the nerve damage caused by the condition, just as it does for other forms of neuropathy. Second, and just as importantly, our therapy can help address the underlying cause by working to restore and rejuvenate function in the pancreas. By tackling both the symptom (nerve pain) and the underlying disease (diabetes), we aim to provide comprehensive and lasting relief.
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What are the other treatments for neuropathy?
Our focus is on repairing nerve damage, which sets our therapy apart from other approaches. How we view other treatments depends on the root cause of the nerve pain.
For example, if a nerve is being physically pinched by the spine, a chiropractor may be able to help with the structural issue. If neuropathy is caused by an infection like Lyme disease, antibiotics may be used to fight the bacteria.
However, these treatments often can't fix the damage that has already been done. That is where our therapy comes in. We focus on the crucial next step: actually repairing the nervous system to restore function and relieve pain.
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How does stem cell therapy address chronic nerve pain?
Stem cell therapy addresses chronic nerve pain by breaking the cycle of damage and inflammation. Chronic nerve pain persists because the nerves are not only damaged but are also constantly irritated and inflamed.
Our therapy interrupts this cycle by:
Actively Repairing Nerves: The stem cells deliver growth factors that help rebuild damaged nerve tissue, fixing the source of the problem.
Powerfully Reducing Inflammation: The cells and their healing signals calm the chronic inflammation, which provides relief from the persistent pain, burning, and aggravation.
By both repairing the nerve and calming the area, the therapy allows your body to finally heal. Many of our patients have reported a significant, and in some cases, a near-total reduction in their chronic nerve pain symptoms.
References and Literature
1. Potential role of stem cells for neuropathic pain disorders - PubMed
2. Stem Cell Therapy and Its Significance in Pain Management - PubMed
3. Concise review: stem cell therapies for neuropathic pain - PubMed
4. Generation of Cortical, Dopaminergic, Motor, and Sensory Neurons from Human Pluripotent Stem Cells - PubMed
