Monday, December 2, 2019
Walking Economy in Parkinsons Disease Patients
Introduction People suffering from Parkinsonââ¬â¢s disease (PD) experience less muscle control (Meg, Clarissa Margaret, 2010). Symptoms include involuntary shaking of limbs when at rest and muscle rigidity. Patients also lose posture and become abnormally slow in performing certain life functions (Meg, Clarissa Margaret, 2010). There has been very little success in terms of developing ideal intervention mechanisms for this problem (Meg, Clarissa Margaret, 2010). To determine the extent of the problem, this paper analyses a study done by Cory et al. (2009).Advertising We will write a custom research paper sample on Walking Economy in Parkinsonââ¬â¢s Disease Patients specifically for you for only $16.05 $11/page Learn More Purpose of the Study Cory et al. sought to establish the relationship between PD and walking economies (2009, 2). In neuroscience, ââ¬Ëwalking economyââ¬â¢ is defined as the amount of energy spent on walking (Cory et al. 20 09). They also wanted to establish the effects of other factors such as gender, age and severity of the disease on walking economies (Cory et al., 2009, 5). Study Design and Subjects Cory et al. (2009) used quasi-experiment design to perform this study. Quasi-experiment design is used when there are at least two groups or waves of measurement (Baley, 2008, 18). In this case, there is experiment group and comparison group. Unlike experimental design, quasi-experiment does not randomly assign subjects to groups. A study design is also considered to be quasi-experiment if the researcher actively manipulates the independent variable (Baley, 2008, 19). In the study by Cory et al. (2009), walking speed was the independent variable. Cory et al. (2009) used human subjects. The experiment group comprised of people suffering from Parkinsonââ¬â¢s disease while the control group comprised of healthy people. Volunteers gave a written consent and were screened for PD. Those in disease stages b etween1.5 to 3 were included. Members of the control group were picked from the community. Both groups comprised of men and women between the ages of 50-80 years. Outcome Measurement Rate of oxygen intake was among measures used to determine energy consumption. Oxygen intake correlates with the amount of energy used in the body. The rates were measured when the participants were at rest and repeated while they were walking at different speeds. Walking speeds ranged from 0.8mph to 4mph. Increment from one speed to another was 0.5mph. Recording was done after every 30 seconds for each of the different speeds. Other measures used include rate of carbon dioxide output as well as minute ventilation (Cory, 2009, 8). Respiratory exchange ratios were also determined and recorded (Cory et al., 2009, 10). Participants also had their heart rates recorded. All these measures are positively correlated to the amount of energy used in the body. Use of more than one response variable enhances relia bility of the results by determining consistence.Advertising Looking for research paper on health medicine? Let's see if we can help you! Get your first paper with 15% OFF Learn More Results On average, PD patients who participated had been sick for 4.8 years with a standard deviation of 4.1. The Hoehn Yahr scores average was 2.3 with a standard deviation of 0.4 while disease severity average was 33.6 with a standard deviation of 14.4. Cory et al. (2009) found that at rest, there were significant differences in heart rates, minute ventilations and respiratory exchange ratios for the two groups. Increase in speed translated into greater increase in oxygen intake by the PD group than the other group. The gradient of 3.32 with a standard deviation of 0.07 for PD patients was steeper than the gradient of 2.77 with a standard deviation of 0.09 for the control group. T-test analysis with à ± = 0.05 produced a p-value of 0.001. Since 0.001 is less than 0.05, the differences were significant. The results showed no differences in oxygen intake between the two groups while at rest. As a show of consistence, the results also revealed significantly higher carbon dioxide output, respiratory exchange ratio, heart rate, and minute ventilation during walking in PD patients than the healthy participants. Cory et al. (2009) also found that age and PD severity did not have significant effects on oxygen intake in PD patients. In the control group, women showed a lower oxygen intake of10.8 with a standard deviation of 0.7 than men who had 11.9 with a standard deviation of 1.6 and a p-value of 0.003 (Cory et al. 2009, 32). Impairment Treated These results show that PD patients use more energy in walking as compared to healthy people. Since walking involves movement, this study treated movement impairment. Movement impairment limits performance of basic life activities such as walking, turning in bed and getting out of seats (Mehta et al 2007). Patients are considere d to be physically disabled if it reaches a point where they cannot perform such functions. Discussion Cory et al (2009) concluded that PD people experience more stress in movement than normal people. However, they did not show the role of rigidity, shaking and reduced strides in the poor walking economy. Related studies by Baltadjieva et al. (2006) and Mehta et al. (2007) observed that reduction in walking strides causes poor walking economies in healthy people (2006, 812). Another research by Dimitrova found that muscle activities in PD patients are more activated than in normal people when performing tasks that destabilize posture (2004, 490). However, there is need to perform a specific study to confirm the role of tremor, rigidity and reduced strides in poor walking economies among PD patients.Advertising We will write a custom research paper sample on Walking Economy in Parkinsonââ¬â¢s Disease Patients specifically for you for only $16.05 $11/page Learn More Conclusion This paper finds that PD causes poor walking economy. Therefore, physical therapies should be designed to improve walking economies in PD patients. But there should be another research to explain the observed poor walking economies in these people. References Bailey, R.A. (2008). Design of Comparative Experiments. Cambridge: Cambridge University. Baltadjieva, R, Giladi N, Gruendlinger L, Peretz C, Hausdorff JM. (2006). Marked Alterations in the Gait Timing and Rhythmicity of Patients with Parkinsonââ¬â¢s disease. European Journal of Neuroscience. 24(6):1815ââ¬â1820. Cory, L. Christiansen, Margaret L. Schenkman, Kim McFann, Pamela Wolfe, and Wendy M. Kohrt, (2009). Walking Economy in People with Parkinsonââ¬â¢s Disease, Movement Disorder. Denver: University of Colorado Denver. Dimitrova, D. Horak FB Nutt J. G. (2004). Postural Muscle Responses to Multidirectional Translations in Patients with Parkinsonââ¬â¢s disease: Journal of Neurophysiology. 91(1): 489-501. Mehta P, Kifley A, Wang J, Rochtchina E, Mitchell P Sue C (2007). Population prevalence and incidence of Parkinsonââ¬â¢s disease in an Australian community: Internal Medicine Journal 37: 812-814 Meg, E. Morris, Clarissa L. Margaret L. (2010). Striding out with Parkinson Disease: Evidence-Based Physical Therapy for Gait Disorders. 90:280-288Advertising Looking for research paper on health medicine? Let's see if we can help you! Get your first paper with 15% OFF Learn More This research paper on Walking Economy in Parkinsonââ¬â¢s Disease Patients was written and submitted by user Nolan Newton to help you with your own studies. You are free to use it for research and reference purposes in order to write your own paper; however, you must cite it accordingly. You can donate your paper here.
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