This work is licensed under the Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
Medical Dictionary for the Health Professions and Nursing. Farlex; 2012 [cited 8 dec. 2019]. Available from: https://medical-dictionary.thefreedictionary.com/exercise+tolerance.Medical Dictionary for the Health Professions and Nursing2012[cited 8 dec. 2019]. Available from: https://medical-dictionary.thefreedictionary.com/exercise+tolerance.Search in Google Scholar
WHO Guidelines Approved by the Guidelines Review Committee. Global recommendations on physical activity for health 2010. Geneva: World Health Organization Copyright (c) World Health Organization; 2010.WHO Guidelines Approved by the Guidelines Review CommitteeGenevaWorld Health Organization Copyright (c) World Health Organization2010Search in Google Scholar
Salis RE. Exercise is medicine and physicians need to prescribe it! British Journal of Sports Medicine. 2009;43: 3–4.SalisREExercise is medicine and physicians need to prescribe it!2009433410.1136/bjsm.2008.05482518971243Search in Google Scholar
Nayor M, Vasan RS. Preventing heart failure: the role of physical activity. Current Opinion in Cardiology. 2015;30(5): 543–550.NayorMVasanRSPreventing heart failure: the role of physical activity201530554355010.1097/HCO.0000000000000206461571526154074Search in Google Scholar
Winzer EB, Woitek F, Linke A. Physical activity in the prevention and treatment of coronary artery disease. Journal of the American Heart Association. 2018;7(4): e00725.WinzerEBWoitekFLinkeAPhysical activity in the prevention and treatment of coronary artery disease201874e0072510.1161/JAHA.117.007725585019529437600Search in Google Scholar
Hegde SM, Solomon SD. Influence of physical activity on hyper-tension and cardiac structure and function. Current Hypertension Reports. 2015;17(10): 77.HegdeSMSolomonSDInfluence of physical activity on hyper-tension and cardiac structure and function201517107710.1007/s11906-015-0588-3462462726277725Search in Google Scholar
Spruit MA, Pitta F, McAuley E, ZuWallack RL, Nici L. Pulmonary rehabilitation and physical activity in patients with chronic obstructive pulmonary disease. American Journal of Respiratory and Critical Care Medicine. 2015;192: 924–933.SpruitMAPittaFMcAuleyEZuWallackRLNiciLPulmonary rehabilitation and physical activity in patients with chronic obstructive pulmonary disease201519292493310.1164/rccm.201505-0929CI26161676Search in Google Scholar
Qui Z, Zheng K, Zhang H, Feng J, Wang L, Zhou H. Physical exercise and patients with chronic renal failure: a meta-analysis. Bio Med Research International. 2017;2017: 7191826.QuiZZhengKZhangHFengJWangLZhouHPhysical exercise and patients with chronic renal failure: a meta-analysis201720177191826.10.1155/2017/7191826Search in Google Scholar
Bade BC, Thomas DD, Scott JB, Silvestri GA. Increasing physical activity and exercise in lung cancer. Reviewing safety, benefits, and application. Journal of Thoracic Oncology. 2015;10: 861–871.BadeBCThomasDDScottJBSilvestriGAIncreasing physical activity and exercise in lung cancer. Reviewing safety, benefits, and application20151086187110.1097/JTO.000000000000053625831230Search in Google Scholar
Jin K, Hu Q, Xu J, Wu C, Hsin MK, Zirafa CC, et al. The 100 most cited articles on thoracic surgery management of lung cancer. Journal of Thoracic Disease. 2019;11(11): 4886–4903.JinKHuQXuJWuCHsinMKZirafaCCThe 100 most cited articles on thoracic surgery management of lung cancer201911114886490310.21037/jtd.2019.11.14694024431903279Search in Google Scholar
Spruit MA, Singh SJ, Garvey C, ZuWallack R, Nici L, Rochester C, et al. An official American thoracic society/European respiratory society statement: key concepts and advances in pulmonary rehabilitation. American Journal of Respiratory and Critical Care Medicine. 2013;188: e13–e64.SpruitMASinghSJGarveyCZuWallackRNiciLRochesterCAn official American thoracic society/European respiratory society statement: key concepts and advances in pulmonary rehabilitation2013188e13e6410.1164/rccm.201309-1634ST24127811Search in Google Scholar
Carli F, Minnella EM. Preoperative functional assessment and optimization in surgical patient: changing the paradigm. Minerva Anestesiol. 2017;83: 214–218.CarliFMinnellaEMPreoperative functional assessment and optimization in surgical patient: changing the paradigm20178321421810.23736/S0375-9393.16.11564-027711026Search in Google Scholar
Glance LG, Osler TM, Neuman MD. Redesigning surgical decision making for high-risk patients. The New England Journal of Medicine. 2014;370: 1379–1381.GlanceLGOslerTMNeumanMDRedesigning surgical decision making for high-risk patients20143701379138110.1056/NEJMp1315538434412024716679Search in Google Scholar
Wasserman K, Hansen JE, Sue DY, Stringer WW, Sietsema KE, Sun XG, et al. Principles of exercise testing and interpretation. 5th ed. Philadelphia, PA: Lippincott Williams & Wilkins; 2012.WassermanKHansenJESueDYStringerWWSietsemaKESunXG5th ed.Philadelphia, PALippincott Williams & Wilkins2012Search in Google Scholar
American Thoracic Society, American College of Chest Physicians. ATS/ACCP statement on cardiopulmonary exercise testing. American Journal of Respiratory and Critical Care Medicine. 2003;167: 211–277.American Thoracic Society, American College of Chest PhysiciansATS/ACCP statement on cardiopulmonary exercise testing200316721127710.1164/rccm.167.2.21112524257Search in Google Scholar
Levett DZH, Jack S, Swart M, Carlisle J, Wilson J, Snowden C et al. Perioperative cardiopulmonary exercise testing (CPET): consensus clinical guidelines on indications, organizations, conduct, and physiological interpretation. British Journal of Anaesthesia. 2018;120: 419–421.LevettDZHJackSSwartMCarlisleJWilsonJSnowdenCPerioperative cardiopulmonary exercise testing (CPET): consensus clinical guidelines on indications, organizations, conduct, and physiological interpretation201812041942110.1016/j.bja.2017.10.02029452805Search in Google Scholar
Palange P, Ward SA, Carlsen KH, Casaburi R, Gallagher CG, Gosselink R, et al. Recommendations on the use of exercise testing in clinical practice. European Respiratory Journal. 2007;29: 185–209.PalangePWardSACarlsenKHCasaburiRGallagherCGGosselinkRRecommendations on the use of exercise testing in clinical practice20072918520910.1183/09031936.0004690617197484Search in Google Scholar
Levett DZ, Grocott MPW. Cardiopulmonary exercise testing, prehabilitation, and Enhanced Recovery After Surgery (ERAS). Canadian Journal of Anesthesia. 2015;62: 131–142.LevettDZGrocottMPWCardiopulmonary exercise testing, prehabilitation, and Enhanced Recovery After Surgery (ERAS)20156213114210.1007/s12630-014-0307-6431548625608638Search in Google Scholar
Ha D, Mazzone PJ, Ries AL, Malhotra A, Fuster M. The utility of exercise testing in patients with lung cancer. Journal of Thoracic Oncology. 2016;11(9): 1397–1410.HaDMazzonePJRiesALMalhotraAFusterMThe utility of exercise testing in patients with lung cancer20161191397141010.1016/j.jtho.2016.04.021548332627156441Search in Google Scholar
Richardson K, Levett DZH, Jack S, Grocott MPW. Fit for surgery? Perspectives on preoperative exercise testing and training. British Journal of Anaesthesia. 2017;119(S1): i34–i43.RichardsonKLevettDZHJackSGrocottMPWFit for surgery? Perspectives on preoperative exercise testing and training2017119S1i34i4310.1093/bja/aex39329161402Search in Google Scholar
Huddart S, Young El, Smith RL, Holt PJ, Prabhu PK. Preoperative cardiopulmonary exercise testing in England – a National Survey. Perioperative Medicine. 2013;2: 4.HuddartSYoungElSmithRLHoltPJPrabhuPKPreoperative cardiopulmonary exercise testing in England – a National Survey20132410.1186/2047-0525-2-4396432524472647Search in Google Scholar
Older PO, Levett DZH. Cardiopulmonary exercise testing and surgery. Annals of the American Thoracic Society. 2017;14(1): S74–S83.OlderPOLevettDZHCardiopulmonary exercise testing and surgery2017141S74S8310.1513/AnnalsATS.201610-780FR28511024Search in Google Scholar
Moran J, Wilson F, Guinan E, McCormick P, Hussey J, Moriarty J. Role of cardiopulmonary exercise testing as a risk-assessment method in patients undergoing intra-abdominal surgery: a systematic review. British Journal of Anaesthesia. 2016;116: 177–191.MoranJWilsonFGuinanEMcCormickPHusseyJMoriartyJRole of cardiopulmonary exercise testing as a risk-assessment method in patients undergoing intra-abdominal surgery: a systematic review201611617719110.1093/bja/aev45426787788Search in Google Scholar
Beckles MA, Spiro SG, Colice GL, Rudd RM. The physiologic evaluation of patients with lung cancer being considered for re-sectional surgery. Chest. 2003;123: 105S–114S.BecklesMASpiroSGColiceGLRuddRMThe physiologic evaluation of patients with lung cancer being considered for re-sectional surgery2003123105S114S10.1378/chest.123.1_suppl.105S12527570Search in Google Scholar
Colice GL, Shafazand S, Griffin JP, Keenan R, Bolliger CT. Physiologic evaluation of the patient with lung cancer being considered for resectional surgery. ACCP evidence-based clinical practice guidelines (2nd edition). Chest. 2007;132: 161S–177S.ColiceGLShafazandSGriffinJPKeenanRBolligerCTPhysiologic evaluation of the patient with lung cancer being considered for resectional surgery. ACCP evidence-based clinical practice guidelines (2nd edition)2007132161S177S10.1378/chest.07-1359Search in Google Scholar
Brunelli A, Charloux A, Bolliger CT, Rocco G, Sculier JP, Varela G, et al. ERS/ESTS clinical guidelines on fitness for radical therapy in lung cancer patients (surgery and chemo-radiotherapy). European Respiratory Journal. 2009;34: 17–41.BrunelliACharlouxABolligerCTRoccoGSculierJPVarelaGERS/ESTS clinical guidelines on fitness for radical therapy in lung cancer patients (surgery and chemo-radiotherapy)200934174110.1183/09031936.00184308Search in Google Scholar
Lim E, Baldwin D, Beckles M, Duffy J, Entwisle J, Faivre-Finn C, et al. Guidelines on the radical management of patients with lung cancer. Thorax. 2010;65(Suppl. 3): iii1–iii27.LimEBaldwinDBecklesMDuffyJEntwisleJFaivre-FinnCGuidelines on the radical management of patients with lung cancer201065Suppl. 3iii1iii2710.1136/thx.2010.145938Search in Google Scholar
Brunelli A, Kim, AW, Berger KI, Addrizzo-Haris DJ. Physiologic evaluation of the patient with lung cancer being considered for resectional surgery. Diagnosis and management of lung cancer, 3rd ed: American College of Chest Physicians evidence-based clinical practice guidelines. Chest. 2013;143: e166S–e190S.BrunelliAKimAWBergerKIAddrizzo-HarisDJPhysiologic evaluation of the patient with lung cancer being considered for resectional surgery. Diagnosis and management of lung cancer, 3rd ed: American College of Chest Physicians evidence-based clinical practice guidelines2013143e166Se190S10.1378/chest.12-2395Search in Google Scholar
Pearse RM. Moreno RP, Bauer P, Pelosi P, Metnitz P, Speis C, et al. Mortality after surgery in Europe: a 7-day cohort study. Lancet. 2012;380: 1059–1065.PearseRMMorenoRPBauerPPelosiPMetnitzPSpeisCMortality after surgery in Europe: a 7-day cohort study20123801059106510.1016/S0140-6736(12)61148-9Search in Google Scholar
Bechard D, Wetstein L. Assessment of exercise oxygen consumption as preoperative criterion for lung resection. The Annals of Thoracic Surgery. 1987;44: 344–349.BechardDWetsteinLAssessment of exercise oxygen consumption as preoperative criterion for lung resection19874434434910.1016/S0003-4975(10)63787-3Search in Google Scholar
Brunelli A, Belardinelli R, Refai M, Salati M, Socci L, Pompili C, et al. Peak oxygen consumption during cardiopulmonary exercise test improves risk stratifications in candidates to major lung re-section. Chest. 2009;135: 1260–1267.BrunelliABelardinelliRRefaiMSalatiMSocciLPompiliCPeak oxygen consumption during cardiopulmonary exercise test improves risk stratifications in candidates to major lung re-section20091351260126710.1378/chest.08-205919029436Search in Google Scholar
Smith TP, Kinasewitz GT, Tucker WY. Exercise capacity as a predictor of post-thoracotomy morbidity. The American Review of Respiratory Disease. 1984;129: 730–734.SmithTPKinasewitzGTTuckerWYExercise capacity as a predictor of post-thoracotomy morbidity198412973073410.1164/arrd.1984.129.5.7306721272Search in Google Scholar
Bayram AS, Candan T, Gebitekin C. Preoperative maximal exercise oxygen consumption test predicts postoperative pulmonary morbidity following major lung resection. Respirology. 2007;12: 505–510.BayramASCandanTGebitekinCPreoperative maximal exercise oxygen consumption test predicts postoperative pulmonary morbidity following major lung resection20071250551010.1111/j.1440-1843.2007.01097.x17587416Search in Google Scholar
Mazzone PJ. Preoperative evaluation of the lung cancer re-section candidate. Expert Review of Respiratory Medicine. 2010;4(1): 97–113.MazzonePJPreoperative evaluation of the lung cancer re-section candidate2010419711310.1586/ers.09.6820387296Search in Google Scholar
Bolliger CT, Jordan P, Solèr M, Stulz P, Grädel E, Skarvan K et al. Exercise capacity as a predictor of postoperative complications in lung resection candidates. American Journal of Respiratory and Critical Care Medicine. 1995;151: 1472–1480.BolligerCTJordanPSolèrMStulzPGrädelESkarvanKExercise capacity as a predictor of postoperative complications in lung resection candidates19951511472148010.1164/ajrccm.151.5.77356027735602Search in Google Scholar
Larsen KR, Svendsen UG, Milman N, Brenøe J, Petersen BN. Exercise testing in the preoperative evaluation of patients with bronchogenic carcinoma. European Respiratory Journal. 1997;10: 1559–1565.LarsenKRSvendsenUGMilmanNBrenøeJPetersenBNExercise testing in the preoperative evaluation of patients with bronchogenic carcinoma1997101559156510.1183/09031936.97.100715599230247Search in Google Scholar
Snowden CP, Prentis JM, Anderson HL, Roberts DR, Randles R, Renton M, et al. Submaximal exercise testing predicts complications and hospital length of stay in patients undergoing major elective surgery. Annals of Surgery. 2010;251(3): 535–541.SnowdenCPPrentisJMAndersonHLRobertsDRRandlesRRentonMSubmaximal exercise testing predicts complications and hospital length of stay in patients undergoing major elective surgery2010251353554110.1097/SLA.0b013e3181cf811d20134313Search in Google Scholar
Older P, Hall A. Clinical review: how to identify high-risk surgical patients. Critical Care. 2004;8: 369–372.OlderPHallAClinical review: how to identify high-risk surgical patients2004836937210.1186/cc2848106500215469600Search in Google Scholar
Guazzi M, Arena R, Halle M, Piepoli MF, Myers J, Lavie CJ. 2016 focused update: clinical recommendations for cardiopulmonary exercise testing data assessment in specific patient populations. Circulation. 2016;133: e694–e711.GuazziMArenaRHalleMPiepoliMFMyersJLavieCJ2016 focused update: clinical recommendations for cardiopulmonary exercise testing data assessment in specific patient populations2016133e694e71110.1161/CIR.000000000000040627143685Search in Google Scholar
Torchio R, Guglielmo M, Giardino R, Ardissone F, Ciacco C, Gulotta C, et al. Exercise ventilatory inefficiency and mortality in patients with chronic obstructive pulmonary disease undergoing surgery for non-small-cell-lung cancer. European Journal of Cardio-Thoracic Surgery. 2010;38: 14–19.TorchioRGuglielmoMGiardinoRArdissoneFCiaccoCGulottaCExercise ventilatory inefficiency and mortality in patients with chronic obstructive pulmonary disease undergoing surgery for non-small-cell-lung cancer201038141910.1016/j.ejcts.2010.01.03220356758Search in Google Scholar
Brunelli A, Belardinelli R, Pompili C, Xiumé F, Refai M, Salati M, et al. Minute ventilation-to-carbon dioxide output (VE/VCO2) slope is the strongest predictor of respiratory complications and death after pulmonary resection. The Annals of Thoracic Surgery. 2012;93: 1802–1806.BrunelliABelardinelliRPompiliCXiuméFRefaiMSalatiMMinute ventilation-to-carbon dioxide output (VE/VCO2) slope is the strongest predictor of respiratory complications and death after pulmonary resection2012931802180610.1016/j.athoracsur.2012.03.02222560968Search in Google Scholar
Shafiek H, Valera JL, Togores B, Torecillia JA, Sauleda J, Cosio BG. Risk of postoperative complications in chronic obstructive lung diseases patients considered fit for lung cancer surgery: beyond oxygen consumption. European Journal of Cardio-Thoracic Surgery. 2016;50: 772–779.ShafiekHValeraJLTogoresBTorecilliaJASauledaJCosioBGRisk of postoperative complications in chronic obstructive lung diseases patients considered fit for lung cancer surgery: beyond oxygen consumption20165077277910.1093/ejcts/ezw10427059429Search in Google Scholar
Brunelli A. Ventilatory efficiency slope: an additional prognosticator after lung cancer surgery. European Journal of Cardio-Thoracic Surgery. 2016;50: 780–781.BrunelliAVentilatory efficiency slope: an additional prognosticator after lung cancer surgery20165078078110.1093/ejcts/ezw12727076057Search in Google Scholar
Miyazaki T, Callister MEJ, Franks K, Dinesh P, Nagayasu T, Brunelli A. Minute ventilation-to-carbon dioxide slope is associated with postoperative survival after anatomical lung resection. Lung Cancer. 2018;125: 218–222.MiyazakiTCallisterMEJFranksKDineshPNagayasuTBrunelliAMinute ventilation-to-carbon dioxide slope is associated with postoperative survival after anatomical lung resection201812521822210.1016/j.lungcan.2018.10.00330429023Search in Google Scholar
Shen Y, Zhang X, Ma W, Song H, Gong Z, Wang Q. VE/VCO2 slope and its prognostic value in patients with chronic heart failure. Experimental and Therapeutic Medicine. 2015;9: 1407–1412.ShenYZhangXMaWSongHGongZWangQVE/VCO2 slope and its prognostic value in patients with chronic heart failure201591407141210.3892/etm.2015.2267435380925780443Search in Google Scholar
Weatherald W, Farina S, Bruno N, Laveneziana P. Cardiopulmonary testing in pulmonary hypertension. Annals of the American Thoracic Society. 2017;14(1): S84–S92.WeatheraldWFarinaSBrunoNLavenezianaPCardiopulmonary testing in pulmonary hypertension2017141S84S9210.1513/AnnalsATS.201610-788FR28375670Search in Google Scholar
Triandafillidou C, Manali E, Lyberopoulos P, Kolilekas L, Kagouridis K, Gyftopoulos S, et al. The role of cardiopulmonary test in IPF prognosis. Pulmonary Medicine. 2013;ID 514817: 1–9.TriandafillidouCManaliELyberopoulosPKolilekasLKagouridisKGyftopoulosSThe role of cardiopulmonary test in IPF prognosis2013ID 514817:1910.1155/2013/514817383328124288606Search in Google Scholar
Vaduc N. Physiology and clinical applications of cardiopulmonary exercise testing in lung cancer surgery. Thoracic Surgery Clinics. 2013;23: 233–245.VaducNPhysiology and clinical applications of cardiopulmonary exercise testing in lung cancer surgery20132323324510.1016/j.thorsurg.2013.01.00523566975Search in Google Scholar
Nezu K, Kushibe K, Tojo T, Takahama M, Kitamura S. Recovery and limitation of exercise capacity after lung resection for lung cancer. Chest. 1998;113: 1511–1516.NezuKKushibeKTojoTTakahamaMKitamuraSRecovery and limitation of exercise capacity after lung resection for lung cancer19981131511151610.1378/chest.113.6.15119631786Search in Google Scholar
Bolliger CT, Jordan P, Solèr M, Stulz P, Tamm M, Wyser Ch. et al. Pulmonary function and exercise capacity after lung resection. European Respiratory Journal. 1996;9: 415–421.BolligerCTJordanPSolèrMStulzPTammMWyserChPulmonary function and exercise capacity after lung resection1996941542110.1183/09031936.96.090304158729998Search in Google Scholar
Win T, Groves AM, Ritchie AJ, Wells FC, Cafferty FC, Laroche CM. The effect of lung resection on pulmonary function and exercise capacity in lung cancer. Respiratory Care. 2007;52(6): 720–726.WinTGrovesAMRitchieAJWellsFCCaffertyFCLarocheCMThe effect of lung resection on pulmonary function and exercise capacity in lung cancer2007526720726Search in Google Scholar
Gao K, Yu P, Su J, He C, Liu L, Zhou Y, et al. Cardiopulmonary exercise testing screening and pre-operative pulmonary rehabilitation reduce postoperative complications and improve fast-track recovery after lung cancer surgery: a study for 342 cases. Thoracic Cancer. 2015;6: 443–449.GaoKYuPSuJHeCLiuLZhouYCardiopulmonary exercise testing screening and pre-operative pulmonary rehabilitation reduce postoperative complications and improve fast-track recovery after lung cancer surgery: a study for 342 cases2015644344910.1111/1759-7714.12199451132226273399Search in Google Scholar
Cavalheri V, Granger C. Preoperative exercise training for patients with non-small cell lung cancer. The Database of Systematic Reviews. 2017;6: CD012020.CavalheriVGrangerCPreoperative exercise training for patients with non-small cell lung cancer20176CD012020.10.1002/14651858.CD012020Search in Google Scholar
Steffens D, Beckencamp PR, Hancock M, Solomon M, Young J. Preoperative exercise halves the postoperative complications rate in patients with lung cancer: a systematic review of the effect of exercise on complications, length of stay and quality of life in patients with lung cancer. British Journal of Sports Medicine. 2018;0: 1–9.SteffensDBeckencampPRHancockMSolomonMYoungJPreoperative exercise halves the postoperative complications rate in patients with lung cancer: a systematic review of the effect of exercise on complications, length of stay and quality of life in patients with lung cancer201801910.1136/bjsports-2017-09803229437041Search in Google Scholar
Licker M, Karenovics W, Diaper J, Frésard I, Triponez F, Ellenberger C, et al. Short-term preoperative high-intensity interval training in patients awaiting lung cancer surgery: a randomized controlled trial. Journal of Thoracic Oncology. 2015;12(2): 323–333.LickerMKarenovicsWDiaperJFrésardITriponezFEllenbergerCShort-term preoperative high-intensity interval training in patients awaiting lung cancer surgery: a randomized controlled trial201512232333310.1016/j.jtho.2016.09.12527771425Search in Google Scholar
Karenovics W, Licker M, Ellenberger C, Christodoulou M, Diaper J, Bhatia C, et al. Short-term preoperative exercise therapy does not improve long-term outcome after lung cancer surgery: a randomized controlled study. European Journal of Cardio-Thoracic Surgery. 2017;52: 47–54.KarenovicsWLickerMEllenbergerCChristodoulouMDiaperJBhatiaCShort-term preoperative exercise therapy does not improve long-term outcome after lung cancer surgery: a randomized controlled study201752475410.1093/ejcts/ezx03028419206Search in Google Scholar
Kim SK, Ahn Yh, Yoon JA, Shin MJ, Chang JH, Cho JS, et al. Efficacy of systemic postoperative pulmonary rehabilitation after lung resection surgery. Annals of Rehabilitation Medicine. 2015;39(3): 366–373.KimSKAhnYhYoonJAShinMJChangJHChoJSEfficacy of systemic postoperative pulmonary rehabilitation after lung resection surgery201539336637310.5535/arm.2015.39.3.366449650726161342Search in Google Scholar