Autism is a complex neurodevelopmental disorder that affects social interaction, communication and behavior. But there are many brain disorders that mimic autism, making it difficult to know when someone needs help. Here are some of them:
Autism and schizophrenia share symptom overlap
People with this condition have a tendency to take tests more literally than others, and may endorse questions that suggest psychosis such as “˜Do you see things that other people don’t?” Although autism and schizophrenia share symptom overlap, including social detachment and isolation, psychosis in autistic people doesn’t typically include hallucinations.
This condition main characteristic is involuntary, slow, twisting movements of the arms and legs. Often the joints of the neck and trunk will also move. These are usually the symptoms of severe and regressive autism.
Some children who read early or show signs of high intelligence can get a diagnostic of autism because they don’t fit the typical child development model, but the conditions do not always go hand in hand.
A new study links gene mutations linked to autism with a specific area of the nervous system that regulates how nerve cells communicate with each other. In the study, researchers compared mice with two gene mutations linked to autism (Mecp2 and Gabrb3) with mice without them. The results showed that the mutations affected how nerve cells respond to touch, anxiety and social behaviors.
Medical Health Authority’s neurology specialists conduct thorough assessments of our patients, including a detailed history and physical examination. Our team can then identify the dysregulated networks in the brain that are causing autism-like symptoms using biofeedback and neurostimulation.
To do this, they place 19 sensors on the scalp to measure brainwave activity, and then compared with an FDA-registered normative database of asymptomatic individuals of the same age. Once they identify these networks our medical director will create a personalized treatment protocol, using neurofeedback and neurostimulation, to reduce those symptoms.
Treatment for neurological disorders
A neurological disorder can be among the most terrifying health problems that humans can face. Unlike an infected ear or a malfunctioning pancreas, which can be managed with medicine, a functional neurological disorder often strikes at the very core of a person’s existence. Even worse, these disorders are rarely easily explained or understood, adding a layer of fear and horror that is not present with cancer or a broken arm.
The human nervous system is comprised of the brain, spinal cord and a network of nerves distributed throughout the body. It is responsible for the ability to move, swallow, speak, think and feel. Damage to the nervous system can be present from birth or acquired later in life. This damage can be caused by genetic abnormalities, traumatic brain or spinal cord injury, bacterial and viral infections (such as HIV, Lyme disease), metabolic disorders, exposure to toxins and heavy metals, malnutrition and chronic stress.
Treatment for a neurological disorder may include a combination of therapies, medications and surgery. For example, immediate treatment after a stroke includes preventing further damage by removing the blood clot that is causing the stroke or limiting the bleeding from hemorrhagic stroke. Treatment for ALS, which is also known as Lou Gehrig’s disease, focuses on improving quality of life, relieving symptoms and slowing the progression of the disease.
Other medical treatments for neurological disorders can include medication to control seizures, reduce anxiety and depression, or treat other mental health conditions that can exacerbate functional neurologic disorder. These may include cognitive behavioral therapy, which helps people become aware of inaccurate or negative thinking that can cause or aggravate their symptoms.
Nervous system diseases and treatments
The nervous system is a complex network of nerves and cells that transmit signals between different parts of the body. It controls everything from basic bodily functions to complex cognitive processes. Unfortunately, the nervous system is vulnerable to a range of diseases and disorders, and that can have a devastating impact on a person’s quality of life.
From Alzheimer’s disease to Parkinson’s disease to multiple sclerosis, there are many conditions that can affect the nervous system. Today, we will explore the different types of nervous system diseases and the treatments available for each.
Whether you are a healthcare professional looking to expand your knowledge or someone affected by a nervous system disease seeking information, this aims to provide comprehensive and up-to-date insights into this important topic.
Understanding the importance of studying nervous system diseases is crucial for several reasons. Firstly, these diseases can have a significant impact on an individual’s quality of life. They can cause debilitating symptoms such as pain, weakness, loss of coordination, and cognitive impairment. By studying these diseases, researchers and healthcare professionals can gain a better understanding of their underlying causes, progression, and potential treatments.
Secondly, studying nervous system diseases can lead to the development of innovative treatment options. The more we understand about how these diseases affect the nervous system, the better equipped we are to develop targeted therapies and interventions. This can provide hope for individuals affected by these conditions and can potentially improve their outcomes and quality of life.
Thirdly, studying nervous system diseases can contribute to advancements in medical knowledge as a whole. Many diseases of the nervous system have complex mechanisms without full understanding.
Researchers uncover new insights into the nervous system
By unraveling these mechanisms, researchers can uncover new insights into how the nervous system functions in both health and disease. This can have implications beyond just nervous system diseases and can contribute to our overall understanding of biology and medicine.
Additionally, studying nervous system diseases can help identify risk factors and preventive measures. By identifying the factors that contribute to the development of these diseases, researchers can highlight potential risk factors and develop strategies to mitigate them. This can have a significant impact on public health by helping individuals make informed lifestyle choices and providing opportunities for early intervention and prevention.
Overall, studying nervous system diseases is essential for improving patient care, developing new treatments, advancing medical knowledge, and promoting public health. Through continued research and exploration, we can hope to gain a deeper understanding of these diseases and ultimately improve the lives of those affected by them