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Endokrinní změny u populace 50+ a jejich vliv na poruchy pohybového systému člověka
Title statement Endokrinní změny u populace 50+ a jejich vliv na poruchy pohybového systému člověka [rukopis] / Magdaléna Úlehlová Additional Variant Titles Endokrinní změny u populace 50+ a jejich vliv na poruchy pohybového systému člověka Personal name Úlehlová, Magdaléna, (dissertant) Translated title Endocrine changes in population age 50+ and their effects on human musculoskeletal disorders Issue data 2021 Phys.des. 123 : il. + Hoffman A.R., Pyka G., Lieberman S.A., Ceda G.P., & Marcus R. (1993) The Somatopause. In: Müller E.E., Cocchi D., Locatelli V. (eds) Growth Hormone and Somatomedins during Lifespan. Berlin, Heidelberg: Springer. Sattler F. R. (2013). Growth hormone in the aging male. Best practice & research. Clinical endocrinology & metabolism, 27(4), 541-555. Garcia, J. M., Merriam, G. R., & Kargi, A. Y. (2019). Growth Hormone in Aging. In K. R. Feingold (Eds.) et. al., Endotext. MDText.com, Inc. Mitchell, W. K., Williams, J., Atherton, P., Larvin, M., Lund, J., & Narici, M. (2012). Sarcopenia, dynapenia, and the impact of advancing age on human skeletal muscle size and strength; a quantitative review. Frontiers in physiology, 3, 260. Larsson, L., Degens, H., Li, M., Salviati, L., Lee, Y. I., Thompson, W., Kirkland, J. L., & Sandri, M. (2019). Sarcopenia: Aging-Related Loss of Muscle Mass and Function. Physiological reviews, 99(1), 427-511. Roubenoff R. (2003). Catabolism of aging: is it an inflammatory process? Current opinion in clinical nutrition and metabolic care, 6(3), 295-299. E, L., Burns, J. M., & Swerdlow, R. H. (2014). Effect of high-intensity exercise on aged mouse brain mitochondria, neurogenesis, and inflammation. Neurobiology of aging, 35(11), 2574-2583. Jenwitheesuk, A., Nopparat, C., Mukda, S., Wongchitrat P., & Govitrapong, P. (2014). Melatonin Regulates Aging and Neurodegeneration through Energy Metabolism, Epigenetics, Autophagy and Circadian Rhythm Pathways. International Journal of Molecular Sciences, 15(9), 16848-16884. Salminen, A., Kaarniranta, K., & Kauppinen, A. (2012). Inflammaging: disturbed interplay between autophagy and inflammasomes. Aging, 4(3), 166-175. Edwards, H., Duchesne, A., Au, A. S., & Einstein, G. (2019). The many menopauses: searching the cognitive research literature for menopause types. Menopause (New York, N.Y.), 26(1), 45-65. Peterson, C. M., Johannsen, D. L., & Ravussin, E. (2012). Skeletal muscle mitochondria and aging: a review. Journal of aging research, 2012, 194821. Smith, C., Kruger, M. J., Smith, R. M., & Myburgh, K. H. (2008). The inflammatory response to skeletal muscle injury: illuminating complexities. Sports medicine (Auckland, N.Z.), 38(11), 947-969. Reid, K. F., & Fielding, R. A. (2012). Skeletal muscle power: a critical determinant of physical functioning in older adults. Exercise and sport sciences reviews, 40(1), 4-12. Gonzalez, S., Windram, J., Sathyapalan, T., Javed, Z., Clark, A., & Atkin, S. (2017). Effects of human recombinant growth hormone on exercise capacity, cardiac structure, and cardiac function in patients with adult-onset growth hormone deficiency. Journal of International Medical Research, 1708-1719. Goswami, N., Abulafia, C., Vigo, D., Moser, M., Cornelissen, G., & Cardinali, D. (2020). Falls risk, circadian rhythms and melatonin: current perspectives. Clinical interventions in aging, 15, 2165. Ochoa, J. J., Díaz-Castro, J., Kajarabille, N., García, C., Guisado, I. M., De Teresa, C., & Guisado, R. (2011). Melatonin supplementation ameliorates oxidative stress and inflammatory signaling induced by strenuous exercise in adult human males. Journal of pineal research, 51(4), 373-380. Coto-Montes, A., Boga, J. A., Tan, D. X., & Reiter, R. J. (2016). Melatonin as a Potential Agent in the Treatment of Sarcopenia. International journal of molecular sciences, 17(10), 1771 Note Ved. práce Miroslava Přidalová Another responsib. Přidalová, Miroslava, 1962- (thesis advisor) Another responsib. Univerzita Palackého. Katedra přírodních věd v kinantropologii (degree grantor) Keywords sarkopenie * somatopauza * růstový hormon * melatonin * oxidační stres * sarcopenia * somatopause * growth hormone * melatonin * oxidative stress Form, Genre bakalářské práce bachelor's theses UDC (043)378.22 Country Česko Language čeština Document kind PUBLIKAČNÍ ČINNOST Title Bc. Degree program Bakalářský Degree program Specializace ve zdravotnictví Degreee discipline Fyzioterapie 
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Kvalifikační práce Downloaded Size datum zpřístupnění 00275427-109214438.pdf 17 1 MB 09.07.2021 Posudek Typ posudku 00275427-ved-923836264.pdf Posudek vedoucího 00275427-opon-799026014.docx Posudek oponenta Průběh obhajoby datum zadání datum odevzdání datum obhajoby přidělená hodnocení typ hodnocení 00275427-prubeh-660888739.pdf 23.03.2021 09.07.2021 03.09.2021 D Hodnocení známkou
Cílem bakalářské práce je popsat dle endokrinní teorie stárnutí změny v populaci 50+, a to somatopauzu a melatopauzu na základě literární rešerše (systematic review). Teoreticky a přehledně sumarizovat faktory, které se podílí na procesu stárnutí se zaměřením na důležitost role melatoninu v organismu. Dále bych chtěla zdůraznit roli komplexní fyzioterapie v podpoře a edukaci stárnoucí populace. V diskuzi se zabývám návrhem dlohoudobého pohybového programu a optimalizaci denního režimu pro zkvalitnění celkové kondice pacienta.The aim of the bachelor thesis is to describe changes in the population age 50+, according to the endocrine theory of aging, namely somatopause and melatopause on the basis of a literature review. Theoretically and clearly summarize factors that contribute to the aging process with a focus on the important role of melatonin in the human body. I would also like to underline the irreplaceable role of comprehensive physiotherapy by supporting and educating the aging population. I discussion, I pursue with the design of a long-term exercise program and the optimization of a daily routine to improve overall condition of the patient.
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