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BioCells Medical for you!
Innovative, science-backed treatment that’s improving lives every day!
Multisystem Atrophy is complex, fast-moving, and deeply life-altering. It affects not just movement, but core body functions — and no two cases are the same. Your treatment shouldn’t be either.
At BioCells Medical, we specialize in stage-based therapy tailored to your exact symptoms, system involvement, and daily realities.
Whether you're in the early stages or already facing major challenges, we design a plan to:
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Slow the progression of neurodegeneration
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Reduce autonomic dysfunction and motor decline
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Support essential functions like balance, speech, and bladder control
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Preserve cognitive clarity and overall quality of life
Our team brings together regenerative medicine, neurological expertise, and personalized medical care.
We’re with you at every stage — from evaluation to treatment to continuous support.
Treated Stages of
Multisystem Atrophy
Early Stage
Common symptoms:
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Mild balance problems or unsteady walking
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Occasional dizziness when standing up (orthostatic hypotension)
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Frequent urgency to urinate, possible early incontinence
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Erectile dysfunction (in men)
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Fatigue, sleep disturbances
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Mild tremor or muscle stiffness (more typical in MSA-P)
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Speech changes (slightly slurred or softer voice)
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Often still responsive to levodopa at this stage
Mid Stage
Common symptoms:
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Significant difficulty with balance and coordination (ataxia)
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Frequent falls or “freezing” episodes
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Severe blood pressure drops when standing
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Urinary retention or catheter dependence
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Worsening speech clarity and volume
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Shortness of breath, especially when lying flat
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Increased muscle rigidity or tremor (especially in MSA-P type)
Advanced Stage
Common symptoms:
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Inability to walk or stand without full assistance
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Severe difficulty swallowing (dysphagia) — risk of aspiration
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Near-total speech loss or very unclear speech
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Breathing problems, including possible need for nighttime ventilation
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Bladder and bowel incontinence
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Cognitive slowing (though dementia is less common than in other disorders)
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Complete dependence on caregivers for daily activities
Comprehensive Treatment Program
At BioCells Medical, we use a multi-phase protocol that combines cell-based therapies, neuromodulation, and immune modulation. Each step is designed to reduce inflammation, protect neurons, and support brain function. The entire program is tailored to your clinical stage — helping you maintain independence, slow progression, and improve quality of life.
T-Regulatory Cells (T-Reg Cells)
By introducing purified and concentrated T-regulatory cells into the body, we aim to calm the overactive immune response that contributes to neuroinflammation in MSA. This helps protect vulnerable neurons in the brain and spinal cord and may slow the multisystem decline associated with the disease. Restoring immune balance is a critical step in preserving function across motor and autonomic systems.
What are T-Reg Cells and how do they work?
T-regs are a highly specialized type of immune cell that help regulate abnormal immune responses. In Multisystem Atrophy (MSA), growing evidence suggests that widespread neuroinflammation plays a role in the rapid breakdown of multiple brain and autonomic systems. T-regulatory cells work to suppress this harmful inflammation, protecting neurons and supporting stability in systems like motor control, blood pressure regulation, and bladder function. Unlike typical medications, T-regs target the underlying immune imbalance that may accelerate degeneration in MSA.
Mesenchymal Stem Cells (MSCs)
MSCs are regenerative cells that help stabilize and protect nervous system tissue affected by degeneration. In Multisystem Atrophy, damage is not limited to a single region — it impacts coordination, balance, blood pressure control, and more. Mesenchymal stem cells release protective factors that reduce cell stress, support brainstem and cerebellar function, and may slow degeneration across multiple neural systems. Their role is not to replace lost cells, but to create a more stable environment where remaining neurons can function longer and better.
What benefits do Mesenchymal Stem Cells (MSCs) offer?
Once infused, MSCs naturally migrate toward regions of inflammation and degeneration throughout the brain and spinal cord. In MSA, this includes critical areas like the cerebellum, brainstem, and autonomic control centers. These cells release healing factors that reduce oxidative stress, calm inflammation, and support blood flow in damaged neural tissue. While MSCs do not regenerate lost neurons directly, they create a more stable environment — helping protect remaining networks and potentially slowing multisystem decline. In earlier stages, they may also support the brain’s own limited self-repair mechanisms.
Exosomes
Exosomes are microscopic messengers naturally released by stem cells. In the context of MSA, where degeneration affects widespread regions of the brain and nervous system, purified exosomes are used to deliver supportive signals directly to affected areas. Because they can cross the blood-brain barrier, exosomes offer a non-invasive way to reach deep brain structures — including the brainstem and cerebellum — which are heavily impacted in MSA. Their role is to promote cellular communication, reduce inflammation, and support the survival of vulnerable neurons across multiple systems.
Why exosomes matter in neuroregeneration?
We deliver exosomes intranasally — through the nose — allowing them to bypass the blood-brain barrier and reach the brain directly. In MSA, where communication between brain regions is progressively disrupted, exosomes help restore signaling between neurons. They also reduce inflammation in affected areas such as the brainstem and cerebellum, which are critical for functions like coordination, breathing, and autonomic regulation. While exosomes don’t replace lost tissue, they support the function of existing neural networks and help slow the breakdown of communication between vital systems.
Electro-Neurotherapy (ENT)
Electro-Neurotherapy (ENT) is a non-invasive treatment that uses low-frequency electrical stimulation to activate damaged or underperforming neural circuits. In MSA, many of the brain and spinal pathways involved in movement, coordination, and balance begin to deteriorate.
How Electro-Neurotherapy supports healing?
ENT helps retrain the brain and spinal cord by reactivating weakened neural circuits involved in balance, posture, and motor coordination. In MSA, where patients often struggle with unsteadiness, sudden drops in blood pressure, and loss of control over movement, ENT can improve physical stability and reduce fall risk. Sessions are non-invasive, painless, and tailored to each patient’s current stage and neurological profile. When combined with regenerative therapies like stem cells and exosomes, ENT helps translate cellular improvements into visible functional gains — turning internal healing into better mobility, control, and daily independence.
What is included in your treatment program?
Your treatment program include:
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All medical consultations and diagnostics
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Stem cell collection, processing, and lab work
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Intravenous administration of cell therapies
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Exosome protocol (including home-use kit)
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Electro-Neurotherapy sessions
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Medical supervision and follow-up care
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Storage of remaining biological material for future use (upon request)
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Patient coordination and assistance during your stay
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Transfers between clinic and hotel (if applicable)
Each program is tailored individually. Some services may vary depending on your treatment plan.
Treatment Results
Results may vary for each individual, but in most cases you can expect the following improvements after treatment:
Stopping the Progression of MSA up to 3.5 Years - Many patients have experienced a complete halt in the progression of their disease after treatment lasting up to three and a half years.
Improved coordination and postural stability - Many patients experience better balance and fewer sudden falls, especially when ENT is combined with cell-based therapies.
Reduction in blood pressure fluctuations - By supporting autonomic regulation, treatment may help reduce orthostatic hypotension (dizziness or fainting when standing up).
Better control over bladder and urinary function - Some patients regain improved bladder emptying or reduced urgency, improving comfort and dignity in daily life.
Clearer speech and easier communication - Voice volume, articulation, and clarity may improve, especially in earlier or moderate stages of the disease.
Less muscle stiffness and better range of motion - Cellular therapies can help reduce rigidity, allowing for smoother, more natural movement.
Improved breathing and sleep quality - Stabilization of brainstem function may ease symptoms like shallow breathing or nighttime breathing disruptions.
Safety for all ages
Ensuring safety for individuals of all ages is a cornerstone of responsible healthcare.
From newborns to the elderly people, our treatment method and intervention is tailored to meet the unique physiological needs and considerations of different life stages.
Safe and Sound
Whether it's the development of age-appropriate medications, the careful adjustment of treatment protocols, or the specific focus on age-related vulnerabilities, our goal remains steadfast: to provide safe, effective, and compassionate care that upholds the dignity and well-being of every patient, at every age.
Trusted by Patients Worldwide
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BioCells Medical
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