Multiple sclerosis
This condition is caused by the destruction of myelin, the protective sheath that surrounds nerve fibers, leading to impaired conduction of electrical signals. This disruption results in a breakdown of communication within the central nervous system, ultimately damaging brain function. Stem cell therapies have shown potential not only in stabilizing the disease and delaying its progression but also in improving overall life expectancy by remyelinating affected nerve fibers. Thanks to their remyelinating and anti-inflammatory effects, these therapies go beyond disease stabilization, helping patients recover functions they had already lost. Additionally, these treatments have been associated with reductions in disease activity biomarkers in both blood and cerebrospinal fluid.
Multiple sclerosis
This condition is caused by the destruction of myelin, the protective sheath that surrounds nerve fibers, leading to impaired conduction of electrical signals. This disruption results in a breakdown of communication within the central nervous system, ultimately damaging brain function. Stem cell therapies have shown potential not only in stabilizing the disease and delaying its progression but also in improving overall life expectancy by remyelinating affected nerve fibers. Thanks to their remyelinating and anti-inflammatory effects, these therapies go beyond disease stabilization, helping patients recover functions they had already lost. Additionally, these treatments have been associated with reductions in disease activity biomarkers in both blood and cerebrospinal fluid.
Amyotrophic lateral sclerosis
It is a disease characterized by destruction of motor neurons, neurovascular damage and muscle degeneration, which leads to paralysis, respiratory failure and death. Stem cell treatment has been consolidating as a safe procedure and a promising strategy to protect motor neurons and slow down its progression.
Amyotrophic lateral sclerosis
It is a disease characterized by destruction of motor neurons, neurovascular damage and muscle degeneration, which leads to paralysis, respiratory failure and death. Stem cell treatment has been consolidating as a safe procedure and a promising strategy to protect motor neurons and slow down its progression.
Parkinson’s disease (PD)
It is caused by a progressive loss of neurons in specific dopamine-producing brain areas, which are critical in controlling movement. Stem cell therapies in Parkinson's disease offer potential benefits by regenerating these damaged neurons and controlling the inflammatory environment, restoring motor function, reduction of symptoms like tremors and rigidity, and improving overall quality of life.
Parkinson’s disease (PD)
It is caused by a progressive loss of neurons in specific dopamine-producing brain areas, which are critical in controlling movement. Stem cell therapies in Parkinson's disease offer potential benefits by regenerating these damaged neurons and controlling the inflammatory environment, restoring motor function, reduction of symptoms like tremors and rigidity, and improving overall quality of life.
Alzheimer’s disease
It is characterized by changes in the brain that lead to deposits of certain proteins that cause atrophy of the brain and death of neurons. Regarding the role of stem cells in Alzheimer's disease, there is a good theoretical basis for a potential benefit. Evidence in humans is limited but promising.
Alzheimer’s disease
It is characterized by changes in the brain that lead to deposits of certain proteins that cause atrophy of the brain and death of neurons. Regarding the role of stem cells in Alzheimer's disease, there is a good theoretical basis for a potential benefit. Evidence in humans is limited but promising.
Autism
Autism spectrum disorders (ASD) are a group of clinical conditions characterized by difficulties in communication, social behavior, and repetitive actions. Stem cells, with their anti-inflammatory, neuromodulatory, and neuroregenerative properties, have shown potential benefits. Improvements have been observed in biochemical markers of neuroinflammation as well as in scales measuring the severity of ASD symptoms, including language, social communication, repetitive behaviors, and hyperactivity.
Autism
Autism spectrum disorders (ASD) are a group of clinical conditions characterized by communication and social behavior disorders and repetitive behaviors. Due to anti-inflammatory, neuromodulatory, and neuroregenerative properties of stem cells, benefits in biochemical markers of neuroinflammation and in scales measuring the severity of ASD symptoms (such as language, social communication, repetitive behavior, and hyperactivity) have been found.
Ischemic-hypoxic encephalopathy
It is the consequence of several perinatal conditions that cause impaired blood circulation and oxygenation of nervous tissue leading to energy deprivation, cell death, and result in intellectual disability, developmental delays, and cerebral palsy. Stem cells in the central nervous system secrete paracrine factors that regulate inflammation, oxidative stress, cell death, and fibrosis translating in a neuroprotective and regenerative effect.
Ischemic-hypoxic encephalopathy
It is the consequence of several perinatal conditions that cause impaired blood circulation and oxygenation of nervous tissue leading to energy deprivation, cell death, and result in intellectual disability, developmental delays, and cerebral palsy. Stem cells in the central nervous system secrete paracrine factors that regulate inflammation, oxidative stress, cell death, and fibrosis translating in a neuroprotective and regenerative effect.
Stroke
It is a medical condition that occurs when the blood supply to a part of the brain is interrupted or reduced, depriving brain tissue of oxygen and nutrients, which can lead to the death of brain cells. Stem cell therapy shows promising benefits for hemorrhagic and ischemic strokes with better outcomes in ischemic cases. In these patients, stem cells enhance brain repair by improving blood flow, reducing inflammation, and promoting the regeneration of neurons and blood vessels, leading to improved functional recovery and reduced disability.
Stroke
It is a medical condition that occurs when the blood supply to a part of the brain is interrupted or reduced, depriving brain tissue of oxygen and nutrients, which can lead to the death of brain cells. Stem cell therapy shows promising benefits for hemorrhagic and ischemic strokes with better outcomes in ischemic cases. In these patients, stem cells enhance brain repair by improving blood flow, reducing inflammation, and promoting the regeneration of neurons and blood vessels, leading to improved functional recovery and reduced disability.
Head and Spinal Trauma
Regarding potential benefits of stem cells in central nervous system traumas, several studies have found that these cells can differentiate into various types of nervous system cells; secrete neuroprotective substances; stimulate myelin formation and neuronal development and inhibit scar formation. All these effects were demonstrated especially in partial spinal trauma patients improving their quality of life.
Head and Spinal Trauma
Regarding potential benefits of stem cells in central nervous system traumas, several studies have found that these cells can differentiate into various types of nervous system cells; secrete neuroprotective substances; stimulate myelin formation and neuronal development and inhibit scar formation. All these effects were demonstrated especially in partial spinal trauma patients improving their quality of life.
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