BalSoma: Turning Hope into Healing for MS Warriors
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Regenerative Medicine for Multiple Sclerosis
How can regenerative medicine help with MS?
Stem cells carry unique properties that no other cells in our bodies replicate, making them highly valuable for restoring balance within the body to address the most severe medical conditions.
Speak with a healthcare navigator today for a more personalized assessment of your condition and options available to you.
How can Regenerative Medicine Help MS?
Whether you have recently received a diagnosis or have been battling this condition for years, regenerative medicine offers a promising alternative for your journey toward better health. Regenerative therapy has been proven to help:
- Reduce Muscle Spasms
- Enhance Concentration
- Diminish Numbness
- Decrease tingling
- Improve Balance
- Increase Energy Levels
- Enhance Bladder Function
- Enhance your Sense of Touch and Vision
Who is Balsoma Network?
We are revolutionizing Healthcare with Trusted Alternative Therapies. In the wake of a global health crisis, Balsoma Network emerged as a beacon of hope and innovation in the healthcare landscape. Our journey began with a clear and profound purpose: to bridge the gap between patients and alternative, scientifically-backed therapies. We recognized the urgency to transcend traditional healthcare barriers and bring forth treatments that not only heal but also empower.
What is the Science?
Exosomes and Mesenchymal Stem act within the body in the following ways.
- Reduce Inflammation
- Repair and Regenerate Cells
- Cross the Blood - Brain Barrier
- Promote Cell Growth
- Protect Nerve Cells
Speak with a healthcare navigator today for a more personalized assessment of your condition and options available to you.
Reduce Inflammation
One of the key problems in MS is inflammation in the brain and spinal cord. MSCs and their exosomes have properties that can regulate the immune system, reducing this harmful inflammation. This can slow down the progression of MS and alleviate symptoms. Research shows MSC- derived exosomes can reduce MS inflammation by delivering healing substances across the blood-brain barrier, modulating immune responses, and promoting nerve repair.
Emerging role of mesenchymal stromal cells (MSCs)-derived exosome in neurodegeneration-associated conditions.
Repair and Regenerate Cells
MSC-derived exosomes can help in repairing damaged nerve tissues. This paper highlights several in vivo and in vitro studies demonstrating that MSC-exosomes promote angiogenesis, regenerate tissue, and reduce the scope of various injuries, including nerve injury. These exosomes mediate interactions between cells and stimulate cell proliferation, which is crucial for tissue repair and regeneration.
Mesenchymal Stem Cell-Derived Exosomes: A Promising Biological Tool in Nanomedicine.
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Cross the Blood-Brain Barrier
A big challenge in treating brain diseases is getting treatments past the blood-brain barrier, a protective shield that prevents most substances from entering the brain from the blood. MSC- derived exosomes are small enough to cross this barrier, allowing them to deliver therapeutic substances directly to the damaged areas in the brain and spinal cord.
Emerging role of mesenchymal stromal cells (MSCs)-derived exosome in neurodegeneration-associated conditions: a groundbreaking cell-free approach
Protect Nerve Cells
The substances carried by MSC-derived exosomes can protect nerve cells from further damage. This is crucial in MS, where ongoing damage to nerves can lead to worsening symptoms over time. MSC-derived exosomes, thanks to their unique immunomodulatory and regenerative properties, can effectively deliver a variety of biomolecules (proteins, miRNAs, lipids, and mRNA) to damaged brain tissue.
Emerging role of mesenchymal stromal cells (MSCs)-derived exosome in neurodegeneration-associated conditions: a groundbreaking cell-free approach
Promote Cell Growth
Exosomes can also encourage the growth of new nerve cells and the repair of the myelin sheath, the protective layer around nerves that is damaged in MS. This can help in restoring some of the functions lost due to the disease.
Exosomes contain anti-inflammatory and neuroprotective agents that could modulate the immune system and aid in the repair and remyelinating of nerve tissues, suggesting a significant therapeutic potential for MS.
Speak with a healthcare navigator today for a more personalized assessment of your condition and options available to you.
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