Essay On Dopamine

Some of the most commonly abused substances, that can cause serious psychological and physical side effects are stimulants. Substance abuse has been a problem in the United States and many other countries for a long time, stimulants are one of the biggest problems that the United States faces today. One specific drug that is abused is crack and crack cocaine. By examining the history of stimulants such as crack and crack cocaine, it 's connection to crime and violence will be revealed.

Schizophrenia is classified as a mental disorder that shows profound disruption of cognition and emotion which affects a person’s language, perception, thought and sense of self. The dopamine hypothesis states that schizophrenic’s neurones transmitting dopamine release the neurotransmitter too easily, leading to the characteristic symptoms of schizophrenia. This hypothesis claims that schizophrenics have abnormally high amounts of D2 receptors; receptors that receive dopamine, therefore resulting in a higher amount of D2 receptors binding to the receptors causing more impulses. Dopamine neurotransmitters play a

According to James G. Hollandworth of the University of Southern Mississippi, schizophrenia is primarily characterized by a disintegration of reality perception, consciousness, and thought process which results in a debilitated proficiency in social and professional faculties (Hollandworth, 1990). While schizophrenia can most arguably be classified as a predominantly genetic affliction, there are others factors which can contribute to its development even without a genetic predisposition. These elements include birth defects such as hypoxia and low birth rate, neuroanatomical anomalies, viral infections, along with low IQ and cerebral atrophy (Hollandsworth, 1990). While these components in themselves are not sufficient enough to cause the disorder, they result in an increased risk for developing the disease. One theory for the cause of schizophrenia that has been studied with great validity is the dopamine hypothesis. This theory postulates that schizophrenia is caused by an overabundance of the dopamine-dependent areas of the brain causing an imbalance that affects the entire system (Hollandsworth, 1990). For this reason many of today’s schizophrenia treatment drugs inhibit dopamine receptor activity in an attempt to return it to its natural equilibrium. Although even with advances in modern science and new drugs being developed every day, the illness is still only treatable and its symptoms still emerge even

Drugs some use them to escape pain, others use them for pleasure, and some use them to just fit in. Either way drugs are a harmful substance that may seriously affect the body. Drugs mess with the brain in ways that we couldn’t even imagine. From destroying brain cells that help with critical thinking to destroying cells that give us the ability to feel pleasure. Drugs take the place of our natural body functions of the body. They fool receptors of the body and make it to where our bodies produce less of what we need. Over a period of time this may produce very severe consequences on the body. With all the risks involved with drugs it’s a wonder why some people use them.

Many may ask what the causes of attention-deficit/hyperactive disorders are but the cause of ADHD is not completely understood yet. People suggest that there may be biological abnormalities, hereditary factors, and environmental factors for those who suffer from ADHD. Individuals with attention-deficit/hyperactive disorders may have biological abnormalities such as brain structure abnormalities or abnormal biochemical levels (Comer, 2016). Brain structural abnormalities tend to occur in the frontostriatal network of the brain. The frontostriatal network “involves the lateral prefrontal cortex, the dorsal anterior cingulate cortex, and the caudate nucleus and putamen” (Curatolo, 2010). It has been shown that patients with ADHD have

The major support and refutation of the dopamine hypothesis has come from the examination of dopamine receptors in these regions of the brain. There are two main types of dopamine receptors, D1 and D2. However, within the category of D2 receptors, there are three subtypes, D2, D3, and D4. (5) Through PET scan analysis of dopamine usage in the brain and post-mordum molecular analysis of brain tissue, researcher were able to determine relative levels of dopamine receptors in patients with schizophrenia compared to non-schizophrenics. Overall analysis of dopamine

Dopamine is a neurotransmitter associated with attention. Schizophrenics seem to have an increased number of D2 dopamine receptors on receiving neurons. This theory is support by the fact that Phenothiazines bind with D2 receptors and reduce positive symptoms. Another piece of supporting evidence is that Parkinson’s disease drug L-dopa, increase the level of dopamine and causes schizophrenic like symptoms in some people. However excess dopamine can only explain some types of schizophrenia, usually positive rather than negative.

Some dopaminergic (i.e., dopamine-releasing) neurons run from the substantia nigra to the corpus striatum; their loss gives rise to the clinical manifestations of Parkinson's Disease (Korczyn 1994); others, involved in the rewarding effects of drugs and natural stimuli, run from the mesencephalon to the nucleunucleus accumbens.

A recent report in the Journal of the American Medical Association by Zito and her

Over the years, experiments have produced evidence to suggest that dopamine plays a role in the development of Schizophrenia (Howes, McCutcheon, & Stone, 2015). Dopamine is a neurotransmitter that is produced in the substantia nigra and ventral tegmental regions of the brain. The belief that dopamine was involved in Schizophrenia arose after multiple studies performed with compounds produced an increase in extracellular concentrations of dopamine (Lieberman, Kane, & Alvir, 1987). The patients that were administered these compounds had similar symptoms to those observed from patients who were diagnosed with Schizophrenia (Lieberman et al., 1987).

Another major problem with the dopamine theory is that it only takes into consideration a single neurotransmitter and neglect the roles of other neurotransmitters in schizophrenia. The findings are inconsistent where some findings proposed that the abnormality causes the availability of dopamine transporters changed, and effect to the increased or decreased of dopamine level (Fusar-Poli, and Meyer-Lindenberg, 2012), while some other findings suggested that there are other neurotransmitter such as glutamine which involved in excitatory response in the brain has played a role in resulting cognitive deficits of schizophrenia (Stone, Howes, Egerton, Kambeitz, Allen, Lythgoe, et al, 2010). These assumptions have allowed researchers to implicate schizophrenia by using another pathway or biochemical mechanism other than dopamine hypothesis or dopaminergic

The Dopamine Hypothesis theorizes that the symptoms portrayed in Schizophrenia is can be explained by abnormal function of dopamine in the brain. There have been three versions of the Dopamine Hypothesis. The first version of the hypothesis focuses on the dopamine receptors. Antipsychotic drugs that impact the metabolization and reabsorption of dopamine where found to be effective in treating the symptoms. It was theorized that if the symptoms of a Schizophrenic episode can be treated by the use of dopamine

It serves as the brain’s command center, that helps with "editing" behavior, resisting distractions, and developing awareness (NIMH, 1996). The caudate nucleus and globus pallidus, which are more commonly known as the basal ganglia, are located near the middle of the brain. They are "at least two of the clusters of nerve cells deep in the brain" (Barkley, 1998). The caudate nucleus and globus pallidus translate the commands, given by the prefrontal cortex, into action (NIMH, 1996). Researchers have found that these parts of the brain, which are in the right hemisphere of the brain, are smaller in children with ADHD than in children without this disorder (Barkley, 1998). The right hemisphere of the brain is normally larger than the left hemisphere, but some researchers have thought that due to this abnormality in ADHD children that this could be a cause of the disorder (Barkley, 1998).

Parkinson’s disease is affected by the degeneration of dopaminergic neurons which is responsible to produce dopamine. Dopaminergic neurons have their cell bodies in substantia nigra pars compacta (SNpc) in basal ganglia (O’Sullivan and Schmitz, 2007). Basal ganglia are a collection of interconnected gray matter nuclear masses deep within the brain”. These gray matter masses are caudate, putamen, globus pallidus, subthalamic nucleus and the substantia nigra. Basal ganglia receive its input through striatum (O’Sullivan and Schmitz, 2007).

In the article “Dopamine and Teenage Logic” by Daniel Siegel he states that “Dopamine is a neurotransmitter central in creating our drive for reward” (Source B). This indicates that dopamine is one of the key causes of risk-taking. Teens often take risks because they are focused on the reward they get after they take it, rather than what would actually happen to them during and after they take the risk. There are two significant ways that dopamine affects our brains; increased impulsiveness, and the susceptibility to addiction by the release of dopamine.