Thursday, October 17, 2019
Does induce Therapeutic Hypothermia Impact Neurologic Function and Research Paper
Does induce Therapeutic Hypothermia Impact Neurologic Function and Improve Patients Outcome post cardiac arrest - Research Paper Example Cardiac arrest is one of the medical conditions, which are known to result into low or insufficient blood flow into the body of a patient. The process of executing therapeutic hypothermia on patients involves the use of a catheter, which is placed in the inferior vena cava through the femoral veins in the legs through a method known as invasive therapeutic hypothermia. Non-invasive therapeutic hypothermia involves an external application of a blanket that is made extremely cold by water. Strict adherence to the therapeutic hypothermia has been proved to reduce the level of risks for ischemic brain injuries that patients under such conditions of insufficient blood supply are exposed to. The development of therapeutic hypothermia to help reduce the levels of risks that patients recovering from cardiac arrest are exposed was developed by Greek physician Hippocrates when he advocated for the packing of wound soldiers in snow ice, a form of non-invasive therapeutic hypothermia. Studies in to the application of therapeutic hypothermia in modern medicine began in 1945 when the first publication on the topic was made as documented by Storm, Steffen and Schefold, (2008). This paper will evaluate how induced therapeutic hypothermia affects the neurological functions and help post cardiac arrest patients recover. The impacts of the practice in reducing the development ischemic injury in cardiac arrest patients will also be evaluated. Literature review The aftermaths of cardiac arrest involves neurological injuries, which results into impairment of oxygen flow into the brain, causes anaerobic metabolism in the brain. As stated by Riana, Abella and Mary, (2006), anaerobic metabolism disrupts adenosine triphosphate dependent cellular pumps, which lead to generation of excess calcium and glutamate in the excretions. This results into excitation of the brain, which magnifies hypoxemia resulting into mitochondrial and cellular death. Disruption of blood brain barrier results int o initial injury resulting into increased fluid flow into the brain resulting into worsens state of cerebral edema. This is exactly how persistent cardiac arrest result into increased level of neurological defects, a condition that can be arrested using therapeutic hypothermia. The application of therapeutic hypothermia results into counteractions of the neuroexcitations in the brain cells through process that stabilize the calcium and glutamate release resulting into decreased apoptosis in the brain. It also acts to stabilize the blood brain barrier resulting into reduced flow of fluids into the brain tissues thus reducing the instances of developing cerebral edema. Therapeutic hypothermia thus reduces the destructive mechanisms of cardiac arrest thus reducing the damaging impacts it may produce to the brain and the central nervous system according to Tsai, Barbut and Wang, (2008a). Based on Matthias, Fries and Rossaint (2012), therapeutic hypothermia is done following a three phas e procedure, which includes induction, maintenance and re-warming which must be done under controlled environments to prevent potential adverse effects of the procedure. The induction phase enables the attainment of a patientââ¬â¢s target body temperature within the shortest time possible. This is done using solid ice packs, ice lavage or even
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