Objective Cardiopulmonary exercise testing(CPET)is helpful to identify right ventriclar(RV)dysfunction in patients with rapair of Tetralogy of Fallot(rTOF),but its predictive value on early outcomes of pulmonary valve...Objective Cardiopulmonary exercise testing(CPET)is helpful to identify right ventriclar(RV)dysfunction in patients with rapair of Tetralogy of Fallot(rTOF),but its predictive value on early outcomes of pulmonary valve replacement(PVR)of these patients is unclear when similar preoperative ventricular size and function in cardiovascular magnetic resonance(CMR)exist.The aim of this study is to evaluate whether CPET is useful to predict the early outcomes of rTOF patients after PVR.展开更多
Cardiopulmonary exercise testing (CPX) has become the cornerstone of risk stratification for heart failure patients. Peak oxygen consumption (VO2) was the first CPX variable to demonstrate prognostic value and is stil...Cardiopulmonary exercise testing (CPX) has become the cornerstone of risk stratification for heart failure patients. Peak oxygen consumption (VO2) was the first CPX variable to demonstrate prognostic value and is still the most frequently analyzed variable in clinical practice. More recently, several investigations have shown that ventilatory efficiency, typically expressed as the minute ventilation/carbon dioxide production (VE/VCO2) slope, is a strong prognostic marker in patient with HF. The majority of studies report the VE/VCO2 slope to be prognostically superior to peak VO2 which underscore the clinical importance of assessing ventilatory efficiency in HF patients. Other expressions of ventilatory inefficiency like exercise oscillatory breathing (EOB), oxygen uptake efficiency slope (OUES), end-tidal carbon dioxide pressure (PET CO2) at rest, and haemodynamic responses such as heart rate recovery (HRR) are strong predictors of outcomes in patients with heart failure (HF). So there is a need for simplified approaches that integrate the additive prognostic information from cardiopulmonary exercise testing.展开更多
Rationale: Patients with cancer commonly experience dyspnea originating from ventilatory, circulatory and musculoskeletal sources, and dyspnea is best determined by cardiopulmonary exercise testing (CPET). Objectives:...Rationale: Patients with cancer commonly experience dyspnea originating from ventilatory, circulatory and musculoskeletal sources, and dyspnea is best determined by cardiopulmonary exercise testing (CPET). Objectives: In this retrospective pilot study, we evaluated patients with hematologic and solid malignancies by CPET to determine the primary source of their dyspnea. Methods: Subjects were exercised on a cycle ergometer with increasing workloads. Minute ventilation, heart rate, breathing reserve, oxygen uptake (V’O<sub>2</sub>), O<sub>2</sub>-pulse, ventilatory equivalents for carbon dioxide and oxygen (V’<sub>E</sub>/V’CO<sub>2</sub> and V’<sub>E</sub>/V’O<sub>2</sub>, respectively) were measured at baseline and peak exercise. The slope and intercept for V’<sub>E</sub>/V’CO<sub>2</sub> was computed for all subjects. Peak V’O<sub>2</sub> 4% predicted indicated a circulatory or ventilatory limitation. Results: Complete clinical and physiological data were available for 36 patients (M/F 20/16);32 (89%) exhibited ventilatory or circulatory limitation as shown by a reduced peak V’O<sub>2</sub> and 10 subjects with normal physiologic data. The largest cohort comprised the pulmonary vascular group (n = 18) whose mean ± SD peak V’O<sub>2</sub> was 61% ± 17% predicted. There were close associations between V’O<sub>2</sub> and spirometric values. Peak V’<sub>E</sub>/V’O<sub>2</sub> and V’<sub>E</sub>/V’CO<sub>2</sub> were highest in the circulatory and ventilatory cohorts, consistent with increase in dead space breathing. The intercept of the V’<sub>E</sub>-V’CO<sub>2</sub> relationship was lowest in patients with cardiovascular impairment. Conclusion: Dyspneic patients with malignancies exhibit dead space breathing, many exhibiting a circulatory source for exercise limitation with a prominent pulmonary vascular component. Potential factors include effects of chemo- and radiation therapy on cardiac function and pulmonary vascular endothelium.展开更多
The prognostic role of cardiopulmonary exercise test (CPET) in elderly women with chronic heart failure (HF) has not yet been clarified. We assessed the incremental value of CPET variables for risk stratification in f...The prognostic role of cardiopulmonary exercise test (CPET) in elderly women with chronic heart failure (HF) has not yet been clarified. We assessed the incremental value of CPET variables for risk stratification in female HF patients with preserved or reduced left ventricular ejection fraction (LVEF). We prospectively followed up 131 female HF outpatients aged 72 [interquartile range 62 - 77] years after a symptom limited CPET. 34% had ischemic heart disease and 14% permanent atrial fibrillation, 24% were in NYHA class III. LVEF was 50% [interquartile range 36 - 62], peak oxygen consumption was 11.3 [interquartile range 9.2 - 13.5] ml/kg/min;the slope of the regression line relating ventilation to CO2 output was 33.9 [interquartile range 30.3 - 44.9];40% of patients showed exercise oscillatory breathing during CPET. During a median follow-up of 18 months [interquartile range 8 - 54], overall 39 patients (29.7%) met the combined end-point of cardiovascular mortality or HF admission using a time-to-first event approach. Moderate to severe mitral regurgitation, slope, exercise oscillatory breathing were independently associated to cardiovascular mortality or HF admission. When CPET ventilatory variables were added to clinical and echocardiographic parameters, prediction of the combined point improved significantly (AUC 0.755 (95% CI 0.662 to 0.832) vs 0.634 (95% CI 0.536 to 0.725), p = 0.016). In conclusion, among elderly female HF patients the CPET derived parameters EOB and VE/VCO2 slope emerged as strong prognostic markers, with additive predictive value to clinical and echocardiographic parameters in patients with both reduced and preserved LVEF.展开更多
BACKGROUND Vascular endothelial dysfunction is an underlying pathophysiological feature of chronic heart failure(CHF).Patients with CHF are characterized by impaired vasodilation and inflammation of the vascular endot...BACKGROUND Vascular endothelial dysfunction is an underlying pathophysiological feature of chronic heart failure(CHF).Patients with CHF are characterized by impaired vasodilation and inflammation of the vascular endothelium.They also have low levels of endothelial progenitor cells(EPCs).EPCs are bone marrow derived cells involved in endothelium regeneration,homeostasis,and neovascularization.Exercise has been shown to improve vasodilation and stimulate the mobilization of EPCs in healthy people and patients with cardiovascular comorbidities.However,the effects of exercise on EPCs in different stages of CHF remain under investigation.AIM To evaluate the effect of a symptom-limited maximal cardiopulmonary exercise testing(CPET)on EPCs in CHF patients of different severity.METHODS Forty-nine consecutive patients(41 males)with stable CHF[mean age(years):56±10,ejection fraction(EF,%):32±8,peak oxygen uptake(VO2,mL/kg/min):18.1±4.4]underwent a CPET on a cycle ergometer.Venous blood was sampled before and after CPET.Five circulating endothelial populations were quantified by flow cytometry:Three subgroups of EPCs[CD34+/CD45-/CD133+,CD34+/CD45-/CD133+/VEGFR2 and CD34+/CD133+/vascular endothelial growth factor receptor 2(VEGFR2)]and two subgroups of circulating endothelial cells(CD34+/CD45-/CD133-and CD34+/CD45-/CD133-/VEGFR2).Patients were divided in two groups of severity according to the median value of peak VO2(18.0 mL/kg/min),predicted peak VO2(65.5%),ventilation/carbon dioxide output slope(32.5)and EF(reduced and mid-ranged EF).EPCs values are expressed as median(25th-75th percentiles)in cells/106 enucleated cells.RESULTS Patients with lower peak VO2 increased the mobilization of CD34+/CD45-/CD133+[pre CPET:60(25-76)vs post CPET:90(70-103)cells/106 enucleated cells,P<0.001],CD34+/CD45-/CD133+/VEGFR2[pre CPET:1(1-4)vs post CPET:5(3-8)cells/106 enucleated cells,P<0.001],CD34+/CD45-/CD133-[pre CPET:186(141-361)vs post CPET:488(247-658)cells/106 enucleated cells,P<0.001]and CD34+/CD45-/CD133-/VEGFR2[pre CPET:2(1-2)vs post CPET:3(2-5)cells/106 enucleated cells,P<0.001],while patients with higher VO2 increased the mobilization of CD34+/CD45-/CD133+[pre CPET:42(19-73)vs post CPET:90(39-118)cells/106 enucleated cells,P<0.001],CD34+/CD45-/CD133+/VEGFR2[pre CPET:2(1-3)vs post CPET:6(3-9)cells/106 enucleated cells,P<0.001],CD34+/CD133+/VEGFR2[pre CPET:10(7-18)vs post CPET:14(10-19)cells/106 enucleated cells,P<0.01],CD34+/CD45-/CD133-[pre CPET:218(158-247)vs post CPET:311(254-569)cells/106 enucleated cells,P<0.001]and CD34+/CD45-/CD133-/VEGFR2[pre CPET:1(1-2)vs post CPET:4(2-6)cells/106 enucleated cells,P<0.001].A similar increase in the mobilization of at least four out of five cellular populations was observed after maximal exercise within each severity group regarding predicted peak,ventilation/carbon dioxide output slope and EF as well(P<0.05).However,there were no statistically significant differences in the mobilization of endothelial cellular populations between severity groups in each comparison(P>0.05).CONCLUSION Our study has shown an increased EPCs and circulating endothelial cells mobilization after maximal exercise in CHF patients,but this increase was not associated with syndrome severity.Further investigation,however,is needed.展开更多
Background It is still unclear whether pulmonary function tests (PFTs) are sufficient for predicting perioperative risk,and whether all patients or only a subset of them need a cardiopulmonary exercise test (CPET)...Background It is still unclear whether pulmonary function tests (PFTs) are sufficient for predicting perioperative risk,and whether all patients or only a subset of them need a cardiopulmonary exercise test (CPET) for further assessment.Thus, this study was designed to evaluate the CPET and compare the results of CPET and conventional PFTs to identify which parameters are more reliable and valuable in predicting perioperative risks for high risk patients with lung cancer.Methods From January 2005 to August 2008, 297 consecutive lung cancer patients underwent conventional PFTs (spirometry + single-breath carbon monoxide diffusing capacity of the lungs (DLCOsb) for diffusion capacity) and CPET preoperatively. The correlation of postoperative cardiopulmonary complications with the parameters of PFT and CPET was retrospectively analyzed using the chi-square test, independent sample t test and binary Logistic regression analysis.Results Of the 297 patients, 78 did not receive operation due to advanced disease stage or poor cardiopulmonary function. The remaining 219 underwent different modes of operations. Twenty-one cases were excluded from this study due to exploration alone (15 cases) and operation-related complications (6 cases). Thus, 198 cases were eligible for evaluation. Fifty of the 198 patients (25.2%) had postoperative cardiopulmonary complications. Three patients (1.5%)died of complications within 30 postoperative days. The patients were stratified into groups based on VO2max/pred respectively. The rate of postoperative cardiopulmonary complications was significantly higher in the group with cardiopulmonary complications were significantly correlated with age, comorbidities, and poor PFT and CPET results.used to stratify the patients' cardiopulmonary function status and to predict the risk of postoperative cardiopulmonary predicting perioperative risk. If available, cardiopulmonary exercise testing is strongly suggested for high-risk lung cancer patients in addition to conventional pulmonary function tests, and both should be combined to assess cardiopulmonary function status.展开更多
Physical inactivity remains in high levels after cardiac surgery,reaching up to 50%.Patients present a significant loss of functional capacity,with prominent muscle weakness after cardiac surgery due to anesthesia,sur...Physical inactivity remains in high levels after cardiac surgery,reaching up to 50%.Patients present a significant loss of functional capacity,with prominent muscle weakness after cardiac surgery due to anesthesia,surgical incision,duration of cardiopulmonary bypass,and mechanical ventilation that affects their quality of life.These complications,along with pulmonary complications after surgery,lead to extended intensive care unit(ICU)and hospital length of stay and significant mortality rates.Despite the well-known beneficial effects of cardiac rehabilitation,this treatment strategy still remains broadly underutilized in patients after cardiac surgery.Prehabilitation and ICU early mobilization have been both showed to be valid methods to improve exercise tolerance and muscle strength.Early mobilization should be adjusted to each patient’s functional capacity with progressive exercise training,from passive mobilization to more active range of motion and resistance exercises.Cardiopulmonary exercise testing remains the gold standard for exercise capacity assessment and optimal prescription of aerobic exercise intensity.During the last decade,recent advances in healthcare technology have changed cardiac rehabilitation perspectives,leading to the future of cardiac rehabilitation.By incorporating artificial intelligence,simulation,telemedicine and virtual cardiac rehabilitation,cardiac surgery patients may improve adherence and compliance,targeting to reduced hospital readmissions and decreased healthcare costs.展开更多
文摘Objective Cardiopulmonary exercise testing(CPET)is helpful to identify right ventriclar(RV)dysfunction in patients with rapair of Tetralogy of Fallot(rTOF),but its predictive value on early outcomes of pulmonary valve replacement(PVR)of these patients is unclear when similar preoperative ventricular size and function in cardiovascular magnetic resonance(CMR)exist.The aim of this study is to evaluate whether CPET is useful to predict the early outcomes of rTOF patients after PVR.
文摘Cardiopulmonary exercise testing (CPX) has become the cornerstone of risk stratification for heart failure patients. Peak oxygen consumption (VO2) was the first CPX variable to demonstrate prognostic value and is still the most frequently analyzed variable in clinical practice. More recently, several investigations have shown that ventilatory efficiency, typically expressed as the minute ventilation/carbon dioxide production (VE/VCO2) slope, is a strong prognostic marker in patient with HF. The majority of studies report the VE/VCO2 slope to be prognostically superior to peak VO2 which underscore the clinical importance of assessing ventilatory efficiency in HF patients. Other expressions of ventilatory inefficiency like exercise oscillatory breathing (EOB), oxygen uptake efficiency slope (OUES), end-tidal carbon dioxide pressure (PET CO2) at rest, and haemodynamic responses such as heart rate recovery (HRR) are strong predictors of outcomes in patients with heart failure (HF). So there is a need for simplified approaches that integrate the additive prognostic information from cardiopulmonary exercise testing.
文摘Rationale: Patients with cancer commonly experience dyspnea originating from ventilatory, circulatory and musculoskeletal sources, and dyspnea is best determined by cardiopulmonary exercise testing (CPET). Objectives: In this retrospective pilot study, we evaluated patients with hematologic and solid malignancies by CPET to determine the primary source of their dyspnea. Methods: Subjects were exercised on a cycle ergometer with increasing workloads. Minute ventilation, heart rate, breathing reserve, oxygen uptake (V’O<sub>2</sub>), O<sub>2</sub>-pulse, ventilatory equivalents for carbon dioxide and oxygen (V’<sub>E</sub>/V’CO<sub>2</sub> and V’<sub>E</sub>/V’O<sub>2</sub>, respectively) were measured at baseline and peak exercise. The slope and intercept for V’<sub>E</sub>/V’CO<sub>2</sub> was computed for all subjects. Peak V’O<sub>2</sub> 4% predicted indicated a circulatory or ventilatory limitation. Results: Complete clinical and physiological data were available for 36 patients (M/F 20/16);32 (89%) exhibited ventilatory or circulatory limitation as shown by a reduced peak V’O<sub>2</sub> and 10 subjects with normal physiologic data. The largest cohort comprised the pulmonary vascular group (n = 18) whose mean ± SD peak V’O<sub>2</sub> was 61% ± 17% predicted. There were close associations between V’O<sub>2</sub> and spirometric values. Peak V’<sub>E</sub>/V’O<sub>2</sub> and V’<sub>E</sub>/V’CO<sub>2</sub> were highest in the circulatory and ventilatory cohorts, consistent with increase in dead space breathing. The intercept of the V’<sub>E</sub>-V’CO<sub>2</sub> relationship was lowest in patients with cardiovascular impairment. Conclusion: Dyspneic patients with malignancies exhibit dead space breathing, many exhibiting a circulatory source for exercise limitation with a prominent pulmonary vascular component. Potential factors include effects of chemo- and radiation therapy on cardiac function and pulmonary vascular endothelium.
文摘The prognostic role of cardiopulmonary exercise test (CPET) in elderly women with chronic heart failure (HF) has not yet been clarified. We assessed the incremental value of CPET variables for risk stratification in female HF patients with preserved or reduced left ventricular ejection fraction (LVEF). We prospectively followed up 131 female HF outpatients aged 72 [interquartile range 62 - 77] years after a symptom limited CPET. 34% had ischemic heart disease and 14% permanent atrial fibrillation, 24% were in NYHA class III. LVEF was 50% [interquartile range 36 - 62], peak oxygen consumption was 11.3 [interquartile range 9.2 - 13.5] ml/kg/min;the slope of the regression line relating ventilation to CO2 output was 33.9 [interquartile range 30.3 - 44.9];40% of patients showed exercise oscillatory breathing during CPET. During a median follow-up of 18 months [interquartile range 8 - 54], overall 39 patients (29.7%) met the combined end-point of cardiovascular mortality or HF admission using a time-to-first event approach. Moderate to severe mitral regurgitation, slope, exercise oscillatory breathing were independently associated to cardiovascular mortality or HF admission. When CPET ventilatory variables were added to clinical and echocardiographic parameters, prediction of the combined point improved significantly (AUC 0.755 (95% CI 0.662 to 0.832) vs 0.634 (95% CI 0.536 to 0.725), p = 0.016). In conclusion, among elderly female HF patients the CPET derived parameters EOB and VE/VCO2 slope emerged as strong prognostic markers, with additive predictive value to clinical and echocardiographic parameters in patients with both reduced and preserved LVEF.
基金Greece and the European Union(European Social Fund-ESF)through the Operational Programme“Human Resources Development,Education and Lifelong Learning”in the context of the project“Strengthening Human Resources Research Potential via Doctorate Research”(MIS-5000432),implemented by the State Scholarships Foundation(ΙΚΥ)the special account for research grants of the National and Kapodistrian University of Athens,Athens,Greece.
文摘BACKGROUND Vascular endothelial dysfunction is an underlying pathophysiological feature of chronic heart failure(CHF).Patients with CHF are characterized by impaired vasodilation and inflammation of the vascular endothelium.They also have low levels of endothelial progenitor cells(EPCs).EPCs are bone marrow derived cells involved in endothelium regeneration,homeostasis,and neovascularization.Exercise has been shown to improve vasodilation and stimulate the mobilization of EPCs in healthy people and patients with cardiovascular comorbidities.However,the effects of exercise on EPCs in different stages of CHF remain under investigation.AIM To evaluate the effect of a symptom-limited maximal cardiopulmonary exercise testing(CPET)on EPCs in CHF patients of different severity.METHODS Forty-nine consecutive patients(41 males)with stable CHF[mean age(years):56±10,ejection fraction(EF,%):32±8,peak oxygen uptake(VO2,mL/kg/min):18.1±4.4]underwent a CPET on a cycle ergometer.Venous blood was sampled before and after CPET.Five circulating endothelial populations were quantified by flow cytometry:Three subgroups of EPCs[CD34+/CD45-/CD133+,CD34+/CD45-/CD133+/VEGFR2 and CD34+/CD133+/vascular endothelial growth factor receptor 2(VEGFR2)]and two subgroups of circulating endothelial cells(CD34+/CD45-/CD133-and CD34+/CD45-/CD133-/VEGFR2).Patients were divided in two groups of severity according to the median value of peak VO2(18.0 mL/kg/min),predicted peak VO2(65.5%),ventilation/carbon dioxide output slope(32.5)and EF(reduced and mid-ranged EF).EPCs values are expressed as median(25th-75th percentiles)in cells/106 enucleated cells.RESULTS Patients with lower peak VO2 increased the mobilization of CD34+/CD45-/CD133+[pre CPET:60(25-76)vs post CPET:90(70-103)cells/106 enucleated cells,P<0.001],CD34+/CD45-/CD133+/VEGFR2[pre CPET:1(1-4)vs post CPET:5(3-8)cells/106 enucleated cells,P<0.001],CD34+/CD45-/CD133-[pre CPET:186(141-361)vs post CPET:488(247-658)cells/106 enucleated cells,P<0.001]and CD34+/CD45-/CD133-/VEGFR2[pre CPET:2(1-2)vs post CPET:3(2-5)cells/106 enucleated cells,P<0.001],while patients with higher VO2 increased the mobilization of CD34+/CD45-/CD133+[pre CPET:42(19-73)vs post CPET:90(39-118)cells/106 enucleated cells,P<0.001],CD34+/CD45-/CD133+/VEGFR2[pre CPET:2(1-3)vs post CPET:6(3-9)cells/106 enucleated cells,P<0.001],CD34+/CD133+/VEGFR2[pre CPET:10(7-18)vs post CPET:14(10-19)cells/106 enucleated cells,P<0.01],CD34+/CD45-/CD133-[pre CPET:218(158-247)vs post CPET:311(254-569)cells/106 enucleated cells,P<0.001]and CD34+/CD45-/CD133-/VEGFR2[pre CPET:1(1-2)vs post CPET:4(2-6)cells/106 enucleated cells,P<0.001].A similar increase in the mobilization of at least four out of five cellular populations was observed after maximal exercise within each severity group regarding predicted peak,ventilation/carbon dioxide output slope and EF as well(P<0.05).However,there were no statistically significant differences in the mobilization of endothelial cellular populations between severity groups in each comparison(P>0.05).CONCLUSION Our study has shown an increased EPCs and circulating endothelial cells mobilization after maximal exercise in CHF patients,but this increase was not associated with syndrome severity.Further investigation,however,is needed.
文摘Background It is still unclear whether pulmonary function tests (PFTs) are sufficient for predicting perioperative risk,and whether all patients or only a subset of them need a cardiopulmonary exercise test (CPET) for further assessment.Thus, this study was designed to evaluate the CPET and compare the results of CPET and conventional PFTs to identify which parameters are more reliable and valuable in predicting perioperative risks for high risk patients with lung cancer.Methods From January 2005 to August 2008, 297 consecutive lung cancer patients underwent conventional PFTs (spirometry + single-breath carbon monoxide diffusing capacity of the lungs (DLCOsb) for diffusion capacity) and CPET preoperatively. The correlation of postoperative cardiopulmonary complications with the parameters of PFT and CPET was retrospectively analyzed using the chi-square test, independent sample t test and binary Logistic regression analysis.Results Of the 297 patients, 78 did not receive operation due to advanced disease stage or poor cardiopulmonary function. The remaining 219 underwent different modes of operations. Twenty-one cases were excluded from this study due to exploration alone (15 cases) and operation-related complications (6 cases). Thus, 198 cases were eligible for evaluation. Fifty of the 198 patients (25.2%) had postoperative cardiopulmonary complications. Three patients (1.5%)died of complications within 30 postoperative days. The patients were stratified into groups based on VO2max/pred respectively. The rate of postoperative cardiopulmonary complications was significantly higher in the group with cardiopulmonary complications were significantly correlated with age, comorbidities, and poor PFT and CPET results.used to stratify the patients' cardiopulmonary function status and to predict the risk of postoperative cardiopulmonary predicting perioperative risk. If available, cardiopulmonary exercise testing is strongly suggested for high-risk lung cancer patients in addition to conventional pulmonary function tests, and both should be combined to assess cardiopulmonary function status.
文摘Physical inactivity remains in high levels after cardiac surgery,reaching up to 50%.Patients present a significant loss of functional capacity,with prominent muscle weakness after cardiac surgery due to anesthesia,surgical incision,duration of cardiopulmonary bypass,and mechanical ventilation that affects their quality of life.These complications,along with pulmonary complications after surgery,lead to extended intensive care unit(ICU)and hospital length of stay and significant mortality rates.Despite the well-known beneficial effects of cardiac rehabilitation,this treatment strategy still remains broadly underutilized in patients after cardiac surgery.Prehabilitation and ICU early mobilization have been both showed to be valid methods to improve exercise tolerance and muscle strength.Early mobilization should be adjusted to each patient’s functional capacity with progressive exercise training,from passive mobilization to more active range of motion and resistance exercises.Cardiopulmonary exercise testing remains the gold standard for exercise capacity assessment and optimal prescription of aerobic exercise intensity.During the last decade,recent advances in healthcare technology have changed cardiac rehabilitation perspectives,leading to the future of cardiac rehabilitation.By incorporating artificial intelligence,simulation,telemedicine and virtual cardiac rehabilitation,cardiac surgery patients may improve adherence and compliance,targeting to reduced hospital readmissions and decreased healthcare costs.