Respiration Dysfunction in Persons with Spinal Cord Injury in the Adaptation Phase of the Damage
Authors:
J. Štěpánová 1; K. Neumannová 2
Authors‘ workplace:
Katedra aplikovaných pohybových aktivit, Fakulta tělesné kultury, Univerzita Palackého v Olomouci
1; Katedra fyzioterapie, Fakulta tělesné kultury, Univerzita Palackého v Olomouci
2
Published in:
Rehabil. fyz. Lék., 25, 2018, No. 2, pp. 62-69.
Category:
Original Papers
Overview
Spinal cord injury brings about permanent health consequences, which significantly influence the quality of life and lifestyle of the patient with spinal lesion in the adaptation (chronic) phase of the damage. The article was aimed at a more detailed clarification of the problems of acquired respiration dysfunctions associated with the motional regimen of persons with spinal lesion in the adaptation stage of the damage. Characteristic changes in the respiration dynamics and in respiration volumes are typical in patients with spinal lesion. Other frequent health complications are connected with chronic inflammations of lower respiratory pathways and lungs, chronic coughing, and dyspnea. Chronic respiratory diseases and acquired respiratory dysfunctions belong to a series of permanent health consequences of spinal damage, which unfavorably influence common daily activities and exert negative influence on the fulfillment of individual motion rehabilitation plan. This plan should be based on methods of pulmonary rehabilitation and respiratory physiotherapy with combined support of the patient´s behavior leading to maintain principles of healthy lifestyle, which includes adequate regimen and performing optimal amount of locomotor activity is sufficient frequency, intensity and duration.
Keywords:
spinal lesion, pathophysiology od respiration, pulmonary rehabilitation, active lifestyle
Sources
1 American dietetic association: Position of American Dietetic Association: Nutrition in comprehensive program planning for people with developmental disabilities. Journal of American Dietetic Association, roč. 97, 1997, č. 2, s. 189-192.
2. BAUMAN, W. A., SPUNGEN, A. M.: Coronary heart disease in individuals with spinal cord injury: assessment of risk factors. Spinal Cord, roč. 46, 2008, č. 7, s. 466-476.
3. BEDNAŘÍK, J., AMBLER, Z., RŮŽIČKA, E.: Klinická neurologie, Praha, Triton, 2010.
4. BROWN, R., DIMARCO, A. F., HOIT, J. D., GARSHICK, E.: Respiratory disfunction and management in spinal cord injury. Respiratory Care, roč. 51, 2006, s. 853-867.
5. BOLTON, C. E., BEVAN SMITH, E. F., BLAKEY J. D., CROWE, P., ELKIN, S. L., GARROT, R., WALMSLEY, S.: British thoracic society guidelines on pulmonary rehabilitation in adults. Thorax, roč. 68, 2013, č. 2, s. 1-30. Retrieved 1. 10. 2016 from the World Wide Web: https://www.brit-thoracic.org.uk/document-library/clinical-information/pulmonary-rehabilitation/bts-guideline-for-pulmonary-rehabilitation/.
6. BRYCE, T., N.: Spinal cord injury. New York, USA, Demos Medical, 2010.
7. Česká společnost pro míšní léze: Statistika počtu pacientů na spinálních rehabilitačních jednotkách 2005–2013. 2014, Retrieved from: http://www.spinalcord.cz/_userfiles/dokumenty/statistiky.
8. ČIHÁK, R.: Anatomie 1. Praha, Grada publishing, 2001.
9. FALTÝNKOVÁ, Z.: Vše okolo tetraplegie. Praha, Česká asociace paraplegiků – CZEPA, 2014.
10. GARSHICK, E., KELLEY, A., COHEN, S. A., GARRISON, A., TUN, C. G., GAGNON, D., BROWN, R.: A prospective assessment of mortality in chronic spinal cord injury. Spinal Cord, roč. 43, 2005, s. 408-416.
11. HART, N., LAFFONT, I., LA-SOTA, A. P., LEJAILLE, M., MACADOU, G., POLKEY M. I., DENYS, P., LAFASO, F.: Respiratory effects of combined truncal and abdominal support in patients with spinal cord injury. Archives of Physical Medicine Rehabilitation, roč. 86, 2005, s. 1447-1451.
12. HETZ, S. P., LATIMER, A. E., BUCHHOLZ, A. C., MARTIN GINIS, K. A.: Increased participation in activities of daily living is associated with lower cholesterol levels in people with spinal cord injury. Archives of Physical Medicine and Rehabilitation, roč. 90, 2009, č. 10, s. 1755-1759.
13. HODGES, P. W.: Is there a role for transversus abdominis in lumbo-pelvic stability? Manual Therapy, roč. 4, 1999, č. 2, s. 74-86.
14. HOUTTE, S. V., VANLANDEWIJCK, Y., GOSSELINK, R.: Respiratory muscle training in persons with spinal cord injury: A systematic review. Respiratory Medicine, roč. 100, 2006, s. 1886-1895.
15. KOLÁŘ, P.: Rehabilitace v klinické praxi. Praha, Galen, 2009.
16. KŘÍŽ, J.: Spinální program v České republice – historie, současnost, perspektivy. Neurologie pro praxi, roč. 14, 2013, č. 3, s. 140-143.
17. KŘÍŽ, J., HLINKOVÁ, Z.: Respirační komplikace u pacientů po poškození míchy a jejich řešení na spinální jednotce FN Motol. Rehabilitace a fyzikální lékařství, roč. 21, 2014, č. 1, s. 16-20.
18. LATIMER, A. E., MARTIN GINIS, K. A., CRAVEN, B. C., HICKS, A. L.: The physical activity recall assessment for people with spinal cord injury. Official Journal of the American College of Sports Medicine, roč. 1, 2006, s. 209-216.
19. LINN, W. S., SPUNGEN, A. M., GONG, H., ADKINS, R. H., BAUMAN, W. A., WATERS, R. L.: Forced vital capacity in two large outpatient populations with chronic spinal cord injury. Spinal Cord, roč. 39, 2001, s. 263-268.
20. MARTIN GINIS, K. A., HICKS, A. L., LATIMER, A. E., WARBURTON, D. E. R., BOURNE, C., DITOR, D. S., WOLFE, D. L.: The development of evidence-informed physical activity guidelines for adults with spinal cord injury. Spinal Cord, roč. 49, 2011, s. 1088-1096.
21. MARTIN GINIS, A. K., LATIMER, A. E., BUCHHOLZ, A. C., BRAY1, S. R., CRAVEN, B. C., HAYES, K. C., HICKS, A. L., MCCOLL, M. A., POTTER, P. J., SMITH, K., WOLFE D. L.: Establishing evidence-based physical activity guidelines: Methods for the study of health and activity in people with spinal cord injury (SHAPE SCI). Spinal Cord, roč. 46, 2008, s. 216-221.
22. NÁHLOVSKÝ, J.: Neurochirurgie. Praha, Galen, 2006.
23. NELSON, M. D., WIDMAN, L. M., ABRESCH, R. T., STANHOPE, K., HAVEL, P. J., STYNE, D. M., MCDONALD, C. M.: Metabolic syndrome in adolescents with spinal cord dysfunction. Journal Spinal Cord Medicine, roč. 30, 2007, č. 1, s. 127-139.
24. NEUMANNOVÁ, K., DOUŠOVÁ, T., SEDLÁK, V., ZATLOUKAL, J., KOS, S., ZATLOUKAL, J.: Doporučený postup ČPFS a ČSDP pro dlouhodobou domácí léčbu poruch expektorace pomocí přístroje CoughAssist. Česká a slovenská neurologie a neurochirurgie, roč. 80, 2017, č. 4, s. 480-484.
25. NEUMANNOVÁ, K., ZATLOUKAL, J., KOBLÍŽEK, V.: Doporučený postup plicní rehabilitace. 2016, Retrieved from the World Wide Web: http://www.pneumologie.cz/guidelines/
26. NOVOSAD, L.: Tělesné postižení, jeho fenomén i životní realita. Praha, Portál, 2011.
27. POKUTA, J., SLAVÍKOVÁ, S., HONZÁTKOVÁ, L.: Vliv nadváhy na kvalitu života lidí po poranění míchy. Aplikované pohybové aktivity v teorii a praxi, roč. 5, 2014, č. 2, s. 53.
28. SCHILERO, G. J., SPUNGEN, A. N., BAUMAN, W. A., RADULOVIC, M., LESSER, M.: Pulmonary function and spinal cord injury. Respiratory Physiology & Neurobiology, roč. 166, 2009, s. 129-141.
29. SOMERS, M. F.: Spinal cord injury: Functional Rehabilitation, Third Edition. Pittsburgh, USA, Pearson, 2010.
30. SPUNGEN, A. M., DICPINIGAITIS, P. V., ALMENOFF, P. L., BAUMAN, W. A.: Pulmonary obstruction in individuals with cervical spinal cord lesions unmasked by bronchodilator administration. Paraplegia, roč. 31, 1993, s. 404-407.
31. SPUNGEN, A. M., GRIMM, D. R., LESSER, M., BAUMAN, W. A., ALMENOFF, P. L.: Selfreported prevalence of pulmonary symptoms in subjects with spinal cord injury. Spinal Cord, roč. 35, 1997, s. 652-657.
32. ŠTĚPÁNOVÁ, J., KUDLÁČEK, M.: Zásady pohybové aktivity pro dospělé osoby s poraněním míchy. APA v teorii a praxi, roč. 6, 2016, č. 1, s. 34-38.
33. VÁGNEROVÁ, M.: Psychopatologie pro pomáhající profese. Praha, Portál, 2008.
34. VÁZQUEZ, R. G., SEDES, P. R., FARIÑA, M. M., MARQUÉS, A. M., VELASCO, M. E. F.: Respiratory Management in the Patient with Spinal Cord Injury. Hindawi Publishing Corporation BioMed Research International, 2013, s. 1-12.
35. WEST, CH. R., GOOSEY-TOLFREY, V. J., CAMPBELL, I. G., ROMER, L. M.: Effect of abdominal binding on respiratory mechanics during exercise in athletes with cervical spinal cord injury. Journal Applied Physiology, roč. 117, 2014, s. 36-45.
36. ZIMMER, M. B., NANTWI, K., GOSHGARIAN, H. G.: Effect of spinal cord injury on theneural regulation of respiratory function. Experimental Neurology, roč. 209, 2008, s. 399-406
Labels
Physiotherapist, university degree Rehabilitation Sports medicineArticle was published in
Rehabilitation and Physical Medicine
2018 Issue 2
Most read in this issue
- The Influence of Motion Activity and a Morphological Type of Foot on the Occurrence of Flatfoot
- The Effect of Mechanotherapy on Swelling after LCA Plasty
- Effects of Combined Therapy by Botulotoxin and Functional Stimulation on Spastic Gait of Patients after Cerebral Vascular Event
- Expected Functional Outcomes in Motor Complete Spinal Cord Lesions