Sunday, October 13, 2019

Neuropsychology & Spouse/Family Members :: Chemistry Chemical Neuropsychological Papers

I intend to explore the effects of a parietal brain injury from the perspective of a neuropsychologist; ranging from types of tests that are employed when trying to determine the extent of the damage, to gaining an understanding of how this damage will affect the rest of the brain and/or the body. I will also explore the effects of a brain injury from the perspective of the family members, and their experiences with the changes that occur during the rehabilitation process. According to The Neuropsychology Center, â€Å"neuropsychological assessment is a systematic clinical diagnostic procedure used to determine the extent of any possible behavioral deficits following diagnosed or suspected brain injury†(www.neuropsych.com). As mentioned previously, a brain injury can be the result of many types of injuries or disorders, thus a broad range of assessment procedures have been developed to encompass these possibilities. Two types of assessment procedures that are currently being used are the Luria-Nebraska Neuropsychological Battery (LNNB), and the Halstead Russell Neuropsychological Evaluation System (HRNES-R). The LNNB is used to diagnose cognitive deficits, while the HRNES-R indicates both the presence and degree of impairment. Both procedures involve tasks that require the patient to complete a series of functions that test abilities and/or perceptions. Such tasks would include, but are not limited to, problem solving, memory, sensorimotor functioning, and psychological/emotional status. Other testing procedures that are commonly employed, in order to gain a better visual image of the excitatory activity in the brain are the PET scan and the MRI. According to Kalat (2004), these methods are non-invasive, meaning that they don’t require the insertion of objects into the brain, yet they yield results that allow researchers to record brain activity. The PET scan (positron emission tomography) involves the researcher injecting a radioactive chemical into the patient’s body, which is then absorbed mainly by the brain’s most active cells. With the use of radioactive detectors, placed around the patient’s head, a map is produced that shows which areas of the brain are most active. The MRI, on the other hand is less expensive and much safer (as it doesn’t expose the patient to potentially harmful radioactive chemicals). The MRI or magnetic resonance imaging device, as an safer alternative, applies a powerful magnetic field around the head of the patient.

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