Antiparkinson drug

An antiparkinson medication is a type of drug which is intended to treat and relieve the symptoms of Parkinson's disease. Most of these agents act by either increasing dopamine activity or reducing acetylcholine activity in the central nervous system. An antiparkinson medication is a type of drug which is intended to treat and relieve the symptoms of Parkinson's disease. Most of these agents act by either increasing dopamine activity or reducing acetylcholine activity in the central nervous system. Parkinson's disease is a motor system disorder of the nervous system. It is outlined as a progressive disorder that affects movement and results in the loss of dopamine-producing brain cells, causing tremor in the hands, arms, legs, jaw, and face and/or rigidity or stiffness of the limbs and trunk. The primary symptoms are muscular rigidity, slowness of movement, a resting tremor, and postural instability. Parkinson's disease is caused by degeneration of the nigrostriatal system, which is the dopamine-secreting neurons of the substantia nigra that send axons to the basal ganglia. The basal ganglia control the automatic, habitual responses performed by the human body. Diagnosing Parkinson's disease is difficult, as no specific test exists for it. Doctors usually perform other tests to rule out other conditions. Lewy bodies are often seen in the dopaminergic neurons in the brains of patients who have Parkinson's disease; they are abnormal circular structures found within the cytoplasm. Lewy bodies have a dense protein core, surrounded by a halo of radiating fibers. Mutations on chromosome 4 can cause Parkinson's disease. This gene produces a protein known as a-synuclein, which is normally found in the presynaptic terminals and is thought to be involved in synaptic transmission in dopaminergic neurons. The mutation produces what is known as a toxic gain of function because it produces a protein that results in effects that are toxic to the cell. Parkinson's disease can also be caused by a mutation on chromosome 6. This gene has been named parkin; its mutation causes a loss of function, and it is a recessive disorder. The goal of the most common antiparkinson drugs is to either replace the dopamine levels in the brain or mimic the actions of dopamine. The main categories of antiparkinson drugs are anticholinergic drugs and dopaminergic drugs. Anticholinergic drugs block the action of acetylcholine, compensating for the low levels of dopamine. As stated before, dopaminergic drugs aim to replace dopamine or inhibit the degradation of dopamine in the brain. Once a preliminary diagnosis is made, carbidopa-levodopa can be given as an antiparkinson medication. If this medication shows improvement, doctors likely can confirm their diagnoses. This standard treatment for Parkinson's disease is referred to as L-DOPA, the precursor of dopamine. L-DOPA causes the person's remaining dopaminergic neurons to produce and secrete more dopamine, thus counteracting the effects of Parkinson's disease. However, the nigrostriatal dopaminergic neurons in the brain eventually drop to a low enough count to where the symptoms of Parkinson's disease become worse. This is due to the short half-life of L-DOPA in the body, typically 1.5–2.0 hours. L-DOPA also activates DA neurons in the mesolimbic/mesocortical system and produces side effects such as hallucinations and delusions. A medicine that can be given with L-DOPA, or separately, is deprenyl. It inhibits the activity of the enzyme MAO-B, which then will slow the progression of Parkinson's disease. Deprenyl, however, does not completely stop the degeneration of dopaminergic neurons. Deprenyl delays the time before other antiparkinson drugs, like L-DOPA, need to be used. Tyrosine hydroxylase catalyzes the formation of L-DOPA, the rate-limiting step in the biosynthesis of dopamine. In other words, it is a precursor to neurotransmitters and increases plasma neurotransmitter levels of dopamine and norepinephrine. This medication should not be used when taking L-DOPA, as L-DOPA interferes with the absorption of Tyrosine. Apomorphine has also been used to treat Parkinson's disease. It is a dopamine receptor agonist, but it does cause severe side effects when used on its own. Anticholinergic drugs include benzhexol and orphenadrine, which reduce the effect of acetylcholine in the brain by antagonizing cholinergic receptors. This helps restore the acetylcholine/dopamine balance within the brain. Again with these treatments, about 70% of patients taking anticholinergics develop serious side effects, including hallucinations, dyskinetic movements, vision effects, difficulty swallowing, dry mouth, and urine retention.