Answer: The most effective treatments for schizophrenia are currently antipsychotics.
Explanation:
Schizophrenia is a serious mental disorder characterized by the interpretation of reality abnormally. The causes for which a person can have schizophrenia are unknown but research shows that genetic factors play an important role when it comes to developing a disease.
Schizophrenia has no cure, treatments are focused on helping to improve the patient's quality of life. That is, the person can control the symptoms of the disease. For many years various medications have been used for the treatment of schizophrenia. Antipsychotics are the most used due to the improvements that people present.
There are the first generation antipsychotics, such as:
- Chlorpromazine
- Fluphenazine
- Haloperidol
- Perphenazine
These antipsychotics have very frequent and very significant side effects such as sedation, drowsiness, dizziness, and symptoms similar to those that a person with Parkinson's disease can have such as stiffness, tremors, and involuntary muscle contractions. The advantage that these medicines offer is their low cost.
There are also second-generation antipsychotics, such as:
- Clozapine
- Olanzapine
- Risperidone
- Ziprasidone
- Iloperidone
These antipsychotics take advantage of the first generation because the side effects are less risky, but their cost is higher.
Answer:
False
Explanation:
tomatoes is not a condiment
⇒ aids the performer in preparing physiologically for exercise reducing the chance of joint and muscle injury.
⇒ prepared the body for exercising the blood flow to the muscles allowing them to loosen up which can raise the flow of oxygen to muscle cells.
The letter choice C is correct. Vitamins A, D, E, and K are fat soluble <span />
Answer:
Explanation:
Long term effects of exercise Type of training
Cardiovascular system Cardiac hypertrophy; increased stroke volume (SV) at rest and during exercise; decrease in resting heart rate (HR); increase in cardiac output (Q); capillarisation at the lungs and muscles; increase in number of red blood cells Aerobic
Respiratory system Increased vital capacity; increase in minute ventilation (VE); increase in tidal volume (TV); decrease in breathing rate (BR); increased number of functioning alveoli; increased strength of the respiratory muscles (internal and external intercostals and diaphragm) Aerobic
Energy system Increased production of energy from the aerobic energy system; increased tolerance to lactic acid Aerobic; anaerobic
Muscular system Muscle hypertrophy; increased strength of tendons; increased strength of ligaments Resistance
Skeletal system Increase in bone density Resistance
