PARKINSON
While conventional treatments can help manage symptoms, they don’t stop the disease from progressing or restore damaged neurons. This is where regenerative medicine offers real hope. Through advanced therapies such as stem cells, PRP, serum therapy, and exosomes, the aim is to slow the deterioration and regenerate damaged nerve tissue.
Parkinson’s disease is a chronic and progressive neurodegenerative disorder that primarily affects movement, coordination, and muscle control. It results from the loss of dopamine-producing neurons in a brain region called the substantia nigra, leading to a wide range of motor and non-motor symptoms that impair the quality of life of those affected.
The exact cause of Parkinson’s disease is not yet fully understood, but researchers have identified several factors that may increase the risk:
- Genetic factors: Mutations in genes such as LRRK2 and SNCA.
- Environmental factors: Prolonged exposure to pesticides, heavy metals, or toxins.
- Oxidative stress and neuroinflammation: Processes that impair dopaminergic neurons.
- Aging: The main risk factor; it is more common from age 60 onwards.
Symptoms of
Parkinson
Symptoms can vary in type and intensity, and evolve over time. They are divided into:
- Tremor at rest (especially in hands and legs)
- Bradykinesia (slowness of movement)
- Muscle stiffness
- Balance and posture problems
- Depression, anxiety, and mood swings
- Sleep disorders
- Constipation and other digestive problems
- Speech and swallowing difficulties
- Memory loss and cognitive decline in advanced stages
Fun fact: More than 10 million people worldwide live with Parkinson’s disease, and most cases are sporadic, with no family history.
Regenerative medicine aims to go beyond symptom relief, focusing on reversing or slowing disease progression. Some of its key actions include:
- Protecting and regenerating damaged dopaminergic neurons
- Reducing brain inflammation and oxidative stress that accelerate deterioration
- Improving brain plasticity, that is, the brain’s ability to form new connections
- To provide growth factors that promote communication between neurons
- To delay the progression of the disease, allowing for a better quality of life
These therapies are constantly being researched and evolving, but the preliminary results are encouraging.
Therapy
Diamagnetic
CRU mega 20 will allow a decrease in general inflammation and general wellness effects.
New technologies allow us to accelerate and act where traditional medicine cannot access.
Diamagnetotherapy is a non-invasive therapeutic method that harnesses the power of high-intensity, low-frequency magnetic fields. These fields can activate cellular mechanisms in many pathologies, significantly reducing treatment times and improving patients’ quality of life.
The diamagnetic therapy of the CTU Mega 20 acts on the intra- and extracellular matrix, activating drainage, regeneration and a strong biostimulation of the tissues.
Diamagnetotherapy, also known as ADM therapy (diamagnetic molecular acceleration), allows pharmacological cures both in localized and extended areas, with stratification of the active ingredients without using needles or electric currents, in the total absence of pain.
The mechanisms of action generated by diamagnetotherapy are summarized as follows:
- Transport of liquids
- Endogenous biostimulation
- Pain control
- Molecule administration and implantation
Stem Cells
Mesenchymal MSCs
Of umbilical cord origin, they will help us to reinforce the repairing action that the body itself has, cellular regeneration to fight against aging.
Regenerative medicine based on cell therapy with the use of so-called mesenchymal/stromal cells (MSCs).
Exosomes
Of umbilical cord mesenchymal stem cells origin that will help the stem cells in their repairing action and slow down the aging of our body.
Exosomes are secreted by the multivesicular bodies (MVBs) of cells through their fusion with the cell membrane. A tiny sac-like structure that forms inside a cell and contains some of the cellular proteins as well as portions of the cell’s DNA and RNA.
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