Neurologic

Cell therapy in neurology aims to activate the body’s natural mechanisms of nervous tissue repair. Stem cells help reduce inflammation, improve cerebral blood circulation, and support the regeneration of neuronal connections.

Key effects of cell therapy:

• support of damaged nerve cell repair
• reduction of chronic neuroinflammation
• improvement of microcirculation in the brain and nervous tissues
• stimulation of neuroplasticity
• immunomodulatory effects

As a result, stem cell therapy may contribute to improved nervous system function in various neurological conditions.

Typical symptoms include paralysis, loss of sensation, and cognitive impairments.

How stem cells may help:

• reduce secondary inflammation after injury
• support regeneration of neural pathways
• promote tissue healing
• increase the potential for functional recovery

Common symptoms include muscle weakness, sensory disturbances, fatigue, and vision problems caused by autoimmune damage to the nerves.

How stem cells may help:

• modulate immune system activity
• support regeneration of the myelin sheath of nerves
• reduce the frequency of disease flare-ups
• help slow disease progression

Common manifestations include movement disorders, muscle spasticity, and coordination difficulties resulting from early brain injury or genetic abnormalities.

How stem cells may help:

• reduce neuroinflammation
• support improved transmission of nerve impulses
• promote regeneration of neural networks
• enhance the effectiveness of rehabilitation

Typical symptoms include impairments of speech, movement, memory, and coordination caused by reduced blood supply to specific areas of the brain.

How stem cells may help:

• improve microcirculation
• reduce damaging inflammatory processes
• support the formation of new neuronal connections
• promote recovery of motor and cognitive functions

Common manifestations include memory impairment, movement difficulties, and progressive decline of brain functions.

How stem cells may help:

• protect neurons from further degeneration
• reduce inflammatory processes
• activate natural repair mechanisms
• may help slow disease progression

Autologous and donor umbilical cord blood cells

These cells help protect nervous tissue, reduce inflammation, and support brain recovery after injury. They are particularly effective in children, whose brains have a high regenerative capacity. In adults, they are typically used in combination with mesenchymal stromal cells (MSCs) to enhance therapeutic outcomes.

Mesenchymal stromal cells (MSCs) from umbilical cord and placenta

A versatile cell type with strong anti-inflammatory and regenerative properties. They are well tolerated by the body, can be administered locally or systemically, and actively support nervous tissue repair due to their biological “youthfulness.”

Autologous adipose-derived MSCs

These may be used in adult patients; however, their effectiveness depends on age, overall health, and metabolic status, and therefore requires individualized medical evaluation.

Neural crest–derived cells from hair follicles

These cells have a natural affinity for the nervous system and a high potential for restoring neuronal connections, making them a promising option in neuroregenerative therapy programs.

Cell therapy at QR Clinic is based on advanced biotechnologies, individualized selection of cell products, and comprehensive medical support for patients with neurological conditions.

Key stages of treatment:

1. Comprehensive medical evaluation

In-depth consultation, review of diagnostic findings, and assessment of the suitability of cell therapy.

2. Strategic selection of cell types

The optimal cell type — umbilical cord blood, mesenchymal stromal cells, or neural crest–derived cells — is chosen according to clinical goals.

3. Personalized treatment protocol

The method of administration, cell dosage, and treatment phases are defined.

4. Procedure under medical supervision

The cell product is administered in a clinical setting with strict adherence to safety standards.

5. Ongoing monitoring and rehabilitation support

Progress is monitored, the program is adjusted as needed, and therapy is combined with neurorehabilitation to maximize outcomes.