Koroner Arter Bypass Greft Cerrahisi sonrası Fizyoterapi Programlarının Etkinliğinin Belirlenmesi
Year 2021,
Volume: 10 Issue: 2, 13 - 24, 31.12.2021
İrem Hüzmeli
,
Nihan Katayıfçı
,
İyad Fansa
,
Bircan Yucekaya
,
Eren Timurtaş
,
Mine Gülden Polat
Abstract
Amaç: Bu çalışmanın amacı, koroner arter bypass greft (KABG) cerrahisi sonrası insentif spirometrenin solunum kas gücü, egzersiz kapasitesi ve hemodinamik yanıtlar üzerine etkilerini araştırmaktı.
Yöntem: Haziran 2017 ve Aralık 2018 arasında KABG ameliyatı geçiren toplam 35 hasta bu prospektif randomize kontrollü çalışmaya dâhil edildi. Hastalar insentif spirometre (IS) ve fizyoterapi (PT) gruplarına ayrıldı. Tüm hastalara postoperatif standart fizyoterapi uygulandı. Ayrıca, IS grubuna volüm duyarlı insentif spirometre verildi. Solunum kas kuvveti (ağız basıncı cihazı) postoperatif 2. ve 5. günlerde, egzersiz kapasitesi (6-dakika yürüme testi (6-DYT)) postoperatif 3. günde, kan gazları ameliyat sonrası ilk gün fizyoterapiden önce ve hemen sonra değerlendirdi.
Sonuçlar: Grupların demografik özellikleri her iki grupta benzerdi. Her iki grupta da maksimal inspiratuar basınç (MIP), maksimal ekspiratuar basınç (MEP), % MIP ve % MEP değerlerinde istatistiksel olarak anlamlı artış gözlendi (p <0.05) ancak gruplar arasında istatistiksel olarak anlamlı fark yoktu (p> 0.05). PT ve IS grubu arasında 6 DYT parametrelerinde anlamlı fark yoktu (p> 0.05). Her iki grupta postoperatif birinci gün arteriyel kan gazı değerlerinde anlamlı fark bulunmadı (p> 0.05).
Sonuç: Her iki grupta da solunum kas kuvveti düzeldi ve kan gazı değerleri korundu. KABG ameliyatından sonra IS ile kombine edilmiş fizyoterapinin, solunum kas kuvvetinin artmasında ve arteriyel kan gazı sonuçlarının korunmasında üstünlüğü yoktu. Fizyoterapi ile kombine edilen IS, kalp cerrahisi sonrası erken dönemden itibaren güvenle kullanılabilir.
Supporting Institution
Hatay Mustafa Kemal Üniversitesi Bap Koordinatörlüğü
References
- Chen, Y. C., Chen, K. C., Lu, L. H., Wu, Y. L., Lai, T. J., & Wang, C. H. 2018. Validating the 6-minute walk test as an indicator of recovery in patients undergoing cardiac surgery: A prospective cohort study. Medicine; 97(42).
- Çırak, Y., Karahan, Z., Yelvar, G. D. Y., Erden, İ., & Demirkılıç, U. 2015. Is physiotherapy effective on the occurrence of postoperative pulmonary complications in patients undergoing coronary artery bypass graft surgery? A randomised controlled trial. Turkish Journal of Thoracic and Cardiovascular Surgery; 23(4).
- Eltorai, A. E., Baird, G. L., Eltorai, A. S., Healey, T. T., Agarwal, S., Ventetuolo, C. E., ... & Daniels, A. H. 2019. Effect of an incentive spirometer patient reminder after coronary artery bypass grafting: a randomized clinical trial. JAMA surgery; 154(7):579-588.
- Enright, P. L., & Sherrill, D. L. 1998. Reference equations for the six-minute walk in healthy adults. American journal of respiratory and critical care medicine; 158(5): 1384-1387.
- Filbay, S. R., Hayes, K., & Holland, A. E. 2012. Physiotherapy for patients following coronary artery bypass graft (CABG) surgery: limited uptake of evidence into practice. Physiotherapy theory and practice;28(3):178-187.
- Fiorina, C., Vizzardi, E., Lorusso, R., Maggio, M., De Cicco, G., Nodari, S., ... & Dei Cas, L. 2007. The 6-min walking test early after cardiac surgery. Reference values and the effects of rehabilitation programme. European Journal of Cardio-thoracic Surgery; 32(5): 724-729.
- Freitas, E. R., Soares, B. G., Cardoso, J. R., & Atallah, A. N. 2007. Incentive spirometry for preventing pulmonary complications after coronary artery bypass graft. Cochrane Database of Systematic Reviews;(3).
- Ghavami, H., Safarzadeh, F., & Asl, R. G. A. 2018. Effect of self-care interventions on sleep quality in post-coronary artery bypass grafting patients: A single-center, randomized-controlled study. Turkish Journal of Thoracic and Cardiovascular Surgery;26(4), 550.
- Haeffener, M. P., Ferreira, G. M., Barreto, S. S. M., Arena, R., & Dall'Ago, P. 2008. Incentive spirometry with expiratory positive airway pressure reduces pulmonary complications, improves pulmonary function and 6-minute walk distance in patients undergoing coronary artery bypass graft surgery. American heart journal;156(5): 900- e1.
- Holland, A. E., Spruit, M. A., Troosters, T., Puhan, M. A., Pepin, V., Saey, D., ... & Singh, S. J. 2014. An official European Respiratory Society/American Thoracic Society technical standard: field walking tests in chronic respiratory disease. Eur Respiratory Soc;1428-1446.
- Hong, S., Milross, M., & Alison, J. 2018. Physiotherapy mobility and walking management of uncomplicated coronary artery bypass graft (CABG) surgery patients: A survey of clinicians’ perspectives in Australia and New Zealand. Physiotherapy theory and practice;36(1): 226-240.
- Hulzebos, E. H., Van Meeteren, N. L., De Bie, R. A., Dagnelie, P. C., & Helders, P. J. 2003. Prediction of postoperative pulmonary complications on the basis of preoperative risk factors in patients who had undergone coronary artery bypass graft surgery. Physical therapy; 83(1):8-16.
- İnönü, H.2011. The effects of heart surgery on early and late pulmonary functions: The results of three-year follow-up. Turkish Journal of Thoracic and Cardiovascular Surgery;19(2).
- Krousel-Wood, M. A., Chambers, R. B., & Muntner, P. 2006. Clinicians' Guide to Statistics for Medical Practice and Research: Part I. The Ochsner Journal; 6(2):68.
Laveneziana, P., Albuquerque, A., Aliverti, A., Babb, T., Barreiro, E., Dres, M., ... & Verges, S. 2019. ERS statement on respiratory muscle testing at rest and during exercise. European Respiratory Journal; 53(6).
- Martínez-González, B., Reyes-Hernández, C. G., Quiroga-Garza, A., Rodríguez-Rodríguez, V. E., Esparza-Hernández, C. N., Elizondo-Omaña, R. E., & Guzmán-López, S.2017. Conduits used in coronary artery bypass grafting: a review of morphological studies. Annals of Thoracic and Cardiovascular Surgery; 23(2):55-65.
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- Patman, S., Bartley, A., Ferraz, A., & Bunting, C. 2017. Physiotherapy in upper abdominal surgery–what is current practice in Australia?. Archives of physiotherapy; 7(1): 11.
Renault, J. A., Costa-Val, R., Rosseti, M. B., & Houri Neto, M. 2009. Comparison between deep breathing exercises and incentive spirometry after CABG surgery. Brazilian Journal of Cardiovascular Surgery; 24(2): 165-172.
- Restrepo, R. D., Wettstein, R., Wittnebel, L., & Tracy, M. 2011. Incentive spirometry: 2011. Respiratory care;56(10):1600-1604.
- Romanini, W., Muller, A. P., Carvalho, K. A. T. D., Olandoski, M., Faria-Neto, J. R., Mendes, F. L., ... & Guarita-Souza, L. C. 2007. The effects of intermittent positive pressure and incentive spirometry in the postoperative of myocardial revascularization. Arquivos brasileiros de cardiologia; 89(2): 105-110.
- Santos, P. M. R., Ricci, N. A., Suster, É. A., Paisani, D. M., & Chiavegato, L. D. 2017. Effects of early mobilisation in patients after cardiac surgery: a systematic review. Physiotherapy;103(1): 1-12.
- Siafakas, N. M., Mitrouska, I., Bouros, D., & Georgopoulos, D. 1999. Surgery and the respiratory muscles. Thorax; 54(5); 458-465.
- Troosters, T., Gosselink, R., & Decramer, M. 2000. Short-and long-term effects of outpatient rehabilitation in patients with chronic obstructive pulmonary disease: a randomized trial. The American journal of medicine; 109(3): 207-212.
- Westerdahl, E., Lindmark, B., Eriksson, T., Hedenstierna, G., & Tenling, A. 2005. Deep-breathing exercises reduce atelectasis and improve pulmonary function after coronary artery bypass surgery. Chest; 128(5):3482-3488.
Determination of the Effectiveness of Physiotherapy Techniques after Coronary Artery Bypass Graft Surgery
Year 2021,
Volume: 10 Issue: 2, 13 - 24, 31.12.2021
İrem Hüzmeli
,
Nihan Katayıfçı
,
İyad Fansa
,
Bircan Yucekaya
,
Eren Timurtaş
,
Mine Gülden Polat
Abstract
Objective: The aim of this study was to investigate the effects of incentive spirometer on respiratory muscle strength, exercise capacity and hemodynamic responses after CABG surgery.
Methods: Between June 2017 and December 2018, a total of 35 patients underwent CABG surgery were included this prospective randomized controlled study. Patients divided into incentive spirometer (IS) group and physiotherapy (PT) group. All patients received standard physiotherapy postoperatively. In addition, IS group received volume-oriented incentive spirometer. Respiratory muscle strength (mouth pressure device) on 2nd and 5th postoperative day, exercise capacity (6-min.walking test (6-MWT)) on 3rd postoperative day, before and immediately after physiotherapy on the first post-operative day blood gases were assessed.
Results: Demographic characteristics of the groups were similar in both groups. Statistically significant increases in maximal inspiratory pressure (MIP), maximal expiratory pressure (MEP), %MIP and %MEP values were observed in both two groups (p<0.05) but there was no statistically significant difference between the groups (p > 0.05). There were no significant differences in 6 MWT parameters between PT and IS group (p > 0.05). No significant difference was found in arterial blood gas values on first postoperative day in both groups (p > 0.05).
Conclusion: Respiratory muscle strength improved and blood gas values maintained in both groups. There was no superiority of IS combined with PT in increasing respiratory muscle strength and in maintaining arterial blood gas results after CABG surgery. IS combined with physiotherapy could be used safely from the early period after cardiac surgery.
References
- Chen, Y. C., Chen, K. C., Lu, L. H., Wu, Y. L., Lai, T. J., & Wang, C. H. 2018. Validating the 6-minute walk test as an indicator of recovery in patients undergoing cardiac surgery: A prospective cohort study. Medicine; 97(42).
- Çırak, Y., Karahan, Z., Yelvar, G. D. Y., Erden, İ., & Demirkılıç, U. 2015. Is physiotherapy effective on the occurrence of postoperative pulmonary complications in patients undergoing coronary artery bypass graft surgery? A randomised controlled trial. Turkish Journal of Thoracic and Cardiovascular Surgery; 23(4).
- Eltorai, A. E., Baird, G. L., Eltorai, A. S., Healey, T. T., Agarwal, S., Ventetuolo, C. E., ... & Daniels, A. H. 2019. Effect of an incentive spirometer patient reminder after coronary artery bypass grafting: a randomized clinical trial. JAMA surgery; 154(7):579-588.
- Enright, P. L., & Sherrill, D. L. 1998. Reference equations for the six-minute walk in healthy adults. American journal of respiratory and critical care medicine; 158(5): 1384-1387.
- Filbay, S. R., Hayes, K., & Holland, A. E. 2012. Physiotherapy for patients following coronary artery bypass graft (CABG) surgery: limited uptake of evidence into practice. Physiotherapy theory and practice;28(3):178-187.
- Fiorina, C., Vizzardi, E., Lorusso, R., Maggio, M., De Cicco, G., Nodari, S., ... & Dei Cas, L. 2007. The 6-min walking test early after cardiac surgery. Reference values and the effects of rehabilitation programme. European Journal of Cardio-thoracic Surgery; 32(5): 724-729.
- Freitas, E. R., Soares, B. G., Cardoso, J. R., & Atallah, A. N. 2007. Incentive spirometry for preventing pulmonary complications after coronary artery bypass graft. Cochrane Database of Systematic Reviews;(3).
- Ghavami, H., Safarzadeh, F., & Asl, R. G. A. 2018. Effect of self-care interventions on sleep quality in post-coronary artery bypass grafting patients: A single-center, randomized-controlled study. Turkish Journal of Thoracic and Cardiovascular Surgery;26(4), 550.
- Haeffener, M. P., Ferreira, G. M., Barreto, S. S. M., Arena, R., & Dall'Ago, P. 2008. Incentive spirometry with expiratory positive airway pressure reduces pulmonary complications, improves pulmonary function and 6-minute walk distance in patients undergoing coronary artery bypass graft surgery. American heart journal;156(5): 900- e1.
- Holland, A. E., Spruit, M. A., Troosters, T., Puhan, M. A., Pepin, V., Saey, D., ... & Singh, S. J. 2014. An official European Respiratory Society/American Thoracic Society technical standard: field walking tests in chronic respiratory disease. Eur Respiratory Soc;1428-1446.
- Hong, S., Milross, M., & Alison, J. 2018. Physiotherapy mobility and walking management of uncomplicated coronary artery bypass graft (CABG) surgery patients: A survey of clinicians’ perspectives in Australia and New Zealand. Physiotherapy theory and practice;36(1): 226-240.
- Hulzebos, E. H., Van Meeteren, N. L., De Bie, R. A., Dagnelie, P. C., & Helders, P. J. 2003. Prediction of postoperative pulmonary complications on the basis of preoperative risk factors in patients who had undergone coronary artery bypass graft surgery. Physical therapy; 83(1):8-16.
- İnönü, H.2011. The effects of heart surgery on early and late pulmonary functions: The results of three-year follow-up. Turkish Journal of Thoracic and Cardiovascular Surgery;19(2).
- Krousel-Wood, M. A., Chambers, R. B., & Muntner, P. 2006. Clinicians' Guide to Statistics for Medical Practice and Research: Part I. The Ochsner Journal; 6(2):68.
Laveneziana, P., Albuquerque, A., Aliverti, A., Babb, T., Barreiro, E., Dres, M., ... & Verges, S. 2019. ERS statement on respiratory muscle testing at rest and during exercise. European Respiratory Journal; 53(6).
- Martínez-González, B., Reyes-Hernández, C. G., Quiroga-Garza, A., Rodríguez-Rodríguez, V. E., Esparza-Hernández, C. N., Elizondo-Omaña, R. E., & Guzmán-López, S.2017. Conduits used in coronary artery bypass grafting: a review of morphological studies. Annals of Thoracic and Cardiovascular Surgery; 23(2):55-65.
- Oliveira, G. U., Carvalho, V. O., de Assis Cacau, L. P., de Araújo Filho, A. A., de Cerqueira Neto, M. L., da Silva, W. M., ... & de Santana Filho, V. J. 2014. Determinants of distance walked during the six-minute walk test in patients undergoing cardiac surgery at hospital discharge. Journal of cardiothoracic surgery;9(1): 95.
- Patman, S., Bartley, A., Ferraz, A., & Bunting, C. 2017. Physiotherapy in upper abdominal surgery–what is current practice in Australia?. Archives of physiotherapy; 7(1): 11.
Renault, J. A., Costa-Val, R., Rosseti, M. B., & Houri Neto, M. 2009. Comparison between deep breathing exercises and incentive spirometry after CABG surgery. Brazilian Journal of Cardiovascular Surgery; 24(2): 165-172.
- Restrepo, R. D., Wettstein, R., Wittnebel, L., & Tracy, M. 2011. Incentive spirometry: 2011. Respiratory care;56(10):1600-1604.
- Romanini, W., Muller, A. P., Carvalho, K. A. T. D., Olandoski, M., Faria-Neto, J. R., Mendes, F. L., ... & Guarita-Souza, L. C. 2007. The effects of intermittent positive pressure and incentive spirometry in the postoperative of myocardial revascularization. Arquivos brasileiros de cardiologia; 89(2): 105-110.
- Santos, P. M. R., Ricci, N. A., Suster, É. A., Paisani, D. M., & Chiavegato, L. D. 2017. Effects of early mobilisation in patients after cardiac surgery: a systematic review. Physiotherapy;103(1): 1-12.
- Siafakas, N. M., Mitrouska, I., Bouros, D., & Georgopoulos, D. 1999. Surgery and the respiratory muscles. Thorax; 54(5); 458-465.
- Troosters, T., Gosselink, R., & Decramer, M. 2000. Short-and long-term effects of outpatient rehabilitation in patients with chronic obstructive pulmonary disease: a randomized trial. The American journal of medicine; 109(3): 207-212.
- Westerdahl, E., Lindmark, B., Eriksson, T., Hedenstierna, G., & Tenling, A. 2005. Deep-breathing exercises reduce atelectasis and improve pulmonary function after coronary artery bypass surgery. Chest; 128(5):3482-3488.