Dr. Ahmet Özyiğit was born in 1981 in the Famagusta district of Cyprus. Ozgen and Dr. He is the youngest of Savaş Özyiğit's three children.

After completing his high school education at Türk Maarif College in 1998, he completed his undergraduate and graduate studies in economics in the American state of Kansas. Özyiğit, who later completed his doctorate education in the same field of science, published many articles in this field.

Özyiğit, who later became interested in medical science, studied medicine at the University of Nicosia Faculty of Medicine. In addition to this education, he received his master's degree in Clinical Embryology from the University of Leeds and postgraduate education in Endocrinology from the University of South Wales.

With an eclectic academic background, Dr. Özyiğit continues his clinical studies, especially on weight loss, metabolism and healthy aging. An active member of the American Academy of Anti-Aging Medicine, Dr. Özyiğit applies anti-aging, weight loss and brain function improving treatments to his patients.

Brain Health

Neuroprotection and Brain Health

The brain is one of the most important organs of our body and plays a huge role in our mental health. Throughout life, the brain can be exposed to a variety of factors and change naturally over time. However, neuroprotection strategies and thoughtful approaches to brain health can help support brain function and protect against neurodegenerative diseases.

What is Neuroprotection?

Neuroprotection is a process that involves the protection of brain cells (neurons) and the nervous system against harmful factors that negatively affect them. Neuroprotective strategies aim to support the health and functionality of brain tissue, minimize brain damage, and slow the progression of neurodegenerative diseases.

Factors Affecting Brain Health:

Healthy eating

A balanced and nutritious diet is important to support brain health. Consumption of foods containing omega-3 fatty acids, antioxidants and B vitamins may be beneficial for brain functions.

Physical Activity

Regular physical activity can contribute to improving brain health. Exercise can support mental functions by increasing brain blood flow and improving the communication of neurons.

Sleep Quality

Quality sleep can help repair brain cells and strengthen memory. Getting enough and regular sleep improves mental performance and protects brain health.

Stress Management

Chronic stress can negatively impact brain health. Using stress coping techniques supports mental health and protects against the development of neurodegenerative diseases.

Mental Exercise

The brain can be strengthened through mental activities and challenges. Activities such as solving puzzles, learning, acquiring new skills and reading books improve brain health.

Components with Proven Neuroprotective Effects:

1. antioxidants: Antioxidants such as vitamin C, vitamin E and flavonoids protect brain cells from the harmful effects of free radicals and have neuroprotective effects.

2. Omega-3 Fatty Acids: Omega-3 fatty acids, especially found in fish and walnuts, are important for brain health. It supports brain functions and may reduce the risk of neurodegenerative diseases.

3. curcumin: Curcumin found in turmeric has anti-inflammatory and antioxidant properties. It may help support brain health and slow the progression of neurodegenerative diseases.

Neuroprotective Peptide Therapies:

Neuroprotective peptide treatments consist of special peptides used to protect brain cells and strengthen defense mechanisms against neurological diseases. Peptides are protein fragments in the form of short chains of amino acids. These treatments help support brain health by protecting neurons from the damaging effects of free radicals, oxidative stress, and inflammatory responses.

How Do They Work?

Neuroprotective peptides can increase neuroplasticity by helping regulate neurons, synapses, and connections in brain cells. Neuroplasticity is the ability of brain cells to shape and adapt their connections and is closely related to learning processes. Peptides may also help reduce inflammation in the brain and prevent oxidative stress. This may contribute to slowing the progression of neurodegenerative diseases by extending the lifespan of neurons.

Potential Benefits:

1. Prevention of Neurological Diseases: Neuroprotective peptide treatments may have a preventive effect against neurological diseases such as Alzheimer's, Parkinson's, and multiple sclerosis. Protecting neurons and supporting healthy nerve cells can reduce the risk of such diseases.

2. Memory and Learning Enhancement: Neuroprotective peptides may improve memory and learning by strengthening the connections of neurons and increasing nerve conduction.

3. Anti-Aging Effects: Maintaining brain health can reduce the effects of the aging process. Neuroprotective peptide treatments may help prevent aging-related cognitive decline.

4. Post Trauma Treatment: After brain injuries and traumas, neuroprotective peptide treatments can contribute to the repair and recovery of brain cells.

Neuroprotective peptide treatments are an exciting treatment approach developed to protect brain health and protect against neurological diseases. These peptides increase neuroplasticity and support neurological functions by protecting brain cells from harmful effects such as oxidative stress, inflammation and neurodegeneration. Neuroprotective peptide therapies are a promising approach to prevent cognitive decline that occurs with the aging process, heal brain injuries, and prevent neurodegenerative diseases.

Neurodegenerative diseasesIt is a group of diseases that cause serious effects on brain cells. Some of these diseases are genetically transmitted diseases, and some are age-related diseases. Common neurodegenerative diseases can be classified as follows.

1. Dementia Group Diseases: Dementia refers to a group of neurological disorders in which cognitive functions (memory, thinking, decision-making, language ability, problem solving) are severely affected. Although these diseases usually occur with age and are associated with aging, they can also occur at younger ages. Here are some diseases included in the dementia group:

Alzheimer's Disease: It is the most common type of dementia. It manifests itself with symptoms such as memory loss, cognitive impairments and behavioral changes. It is characterized by abnormal protein accumulations (beta-amyloid plaques and neurofibrillary tangles) in the brain.

Vascular Dementia: This type of dementia occurs as a result of blockage or damage to the brain vessels. Symptoms may vary depending on the location of the vascular problems, such as fluctuations in cognitive abilities and movement disorders.

Lewy bodies Dementia: Lewy bodies are a disease that causes abnormal protein deposits in the brain. Symptoms include visual hallucinations, parkinsonism, and mental disorders.

Frontotemporal Dementia: This type of dementia refers to a group of neurodegenerative diseases that affect the frontal and temporal lobes. Personality changes, language disorders and behavioral problems are at the forefront.

Huntington's Disease: Huntington's disease, a genetic disease, causes abnormal accumulation of a certain protein. It is characterized by movement disorders, mental disorders and emotional changes.

Creutzfeldt-Jakob Disease (CJD): It is a rare disease in which brain tissue is rapidly damaged due to the accumulation of abnormal proteins called prions. It progresses with rapid cognitive and motor disorders.

Wernicke-Korsakoff Syndrome: Occurs as a result of chronic alcohol use. Memory loss and cognitive impairments may develop over time.

The symptoms of dementia may vary depending on the type of disease, but they generally have common features such as impairment of cognitive functions and difficulty in daily living activities. It is important to consult a specialist for the diagnosis and management of these diseases.

2. Parkinson's Disease: In Parkinson's disease, dopamine-producing neurons are lost or damaged. Dopamine deficiency impairs movement control and leads to symptoms such as muscle stiffness, tremors and imbalance.

3. ALS (Amyotrophic lateral sclerosis): ALS causes motor neurons to slowly die. These neurons control muscles, so the disease leads to muscle weakness, atrophy, and loss of movement.

The effects of these neurodegenerative diseases on brain cells are related to complex mechanisms such as cell death, disruption of neuronal communication, and damage to brain tissue. Although the exact causes of these diseases are not fully known, genetic, environmental and age-related factors are thought to play a role.

Although the diseases are different from each other, neurodegenerative diseases generally have common aspects. For example, factors such as the death of brain cells and the failure of new cells to form in their place, the deterioration of the connection between neurons and the lack of effective communication are common aspects of all neurodegenerative diseases.

There are certain treatments that can be applied to relieve the symptoms of neurodegenerative diseases and slow the course of the disease. Some of these treatments are:

Peptide Treatments

Dr. The main neuroprotective peptide treatments applied by Ahmet Özyiğit are:

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Didn't find the answer?

What is brain health and neuroprotection?

Neuroprotection is a discipline that includes protection, treatment and rehabilitation methods for the brain and nervous system.

How long do neuroprotection treatments last and what is the success rate?

The duration of neuroprotection treatments varies depending on the type of disease, its severity, and the rate of response to treatment. Although the success of neuroprotection treatments varies depending on the type of disease, the success rate is high in patients treated promptly and appropriately.

What are the most important factors for protecting brain health?

Quality sleep, healthy nutrition, regular exercise, brain exercises and avoiding stress are the most important factors for maintaining brain health.

How effective are neuroprotective peptide treatments?

Neuroprotective peptide treatments are very successful in slowing disease progression. However, since they do not offer a complete treatment, the progression of the disease may not be prevented. Treatment effectiveness may vary depending on the stage of disease progression, the method of application and duration of treatment. Therefore, the application of neuroprotective peptide treatments should be done in the early stages of the disease and under the supervision of a specialist physician.