Preoperative high-intensity interval training is effective and safe in deconditioned patients with lung cancer: A randomized clinical trial.

BACKGROUND: The outcome of surgery in deconditioned patients can be improved through prehabilitation. This study examined the effect of prehabilitation in patients diagnosed with lung cancer. METHODS: Candidates for lung cancer resection were assigned to high-intensity interval training (n = 74) or usual care (n = 77). Cardiopulmonary exercise testing and 6-min walk test were performed before and after training. High-intensity interval training consisted of 2-3-weekly, 2 × 10-min series of cycling at peak power, measured with cardiopulmonary exercise testing prior to training, with a 15-s on-off duty cycle, preceded by a 5-min warm-up and followed by a 5-min cool-down. Work-rate, heart-rate, saturation, dyspnoea and leg effort were monitored. RESULTS: Waiting time (median 25 days) allowed a median of 8 high-intensity interval training sessions to be performed. Adherence to mean high-intensity interval training was 87% (18% standard deviation; SD). High-intensity interval training power increased (23 watt, 95% confidence interval (95% CI): 20-26 watt), as did heart rate (14 bpm, 95% CI 11-16 bpm). Resting heart rate (-6 bpm, 95% CI -4 to -7 bpm) and heart rate 1 min post-cool-down decreased (-5 bpm, 95% CI -4 to -7 bpm). Aerobic capacity increased after high-intensity interval training (14%, 95% CI 3-26%), as did peak power output (median 7%, 95% CI 2-13%), but not after usual care. Six-min walk test score increased after high-intensity interval training (median 20%, 95% CI 14-26%), but not after usual care. CONCLUSION: Short-term high-intensity interval training is feasible in deconditioned patients and increases cardio-respiratory fitness and walking capacity.

[Pulmonary rehabilitation in respiratory disorders other than COPD : an individualized approach]. / Réhabilitation pulmonaire lors de pathologies autres que la BPCO : un programme sur mesure.

Pulmonary rehabilitation is a multimodal intervention which includes an individualized physical training program, patient education, nutritional assessment and counseling, and recommendations for behavioral changes (smoking cessation, physical activity, nutrition...). This approach, validated and widely accepted by international expert societies in COPD, has been explored and evaluated in other chronic respiratory disorders. This overview analyses the impact of pulmonary rehabilitation in interstitial lung diseases, pulmonary hypertension, lung cancer (pre and post surgery), and morbid obesity. The recent medical literature encourages clinicians to consider the possibility of pulmonary rehabilitation in most chronic pulmonary disorders.

La réhabilitation respiratoire est une intervention multimodale comprenant un entraînement physique personnalisé, un enseignement thérapeutique, une prise en charge nutritionnelle, et un encouragement à des modifications comportementales. Cette approche, validée et recommandée par les sociétés savantes lors de BPCO, est de plus en plus étudiée dans d'autres pathologies pulmonaires chroniques. Ce travail analyse l'impact de la réhabilitation respiratoire lors de pneumopathies interstitielles, d'hypertension pulmonaire, d'obésité morbide et lors de cancer pulmonaire (en phase pré ou postopératoire). Les données les plus récentes encouragent les cliniciens à envisager systématiquement la possibilité d'une réhabilitation respiratoire lors de pathologies respiratoires chroniques.

Short-term preoperative exercise therapy does not improve long-term outcome after lung cancer surgery: a randomized controlled study.

OBJECTIVES: Poor aerobic fitness is a potential modifiable risk factor for long-term survival and quality of life in patients with lung cancer. This randomized trial evaluates the impact of adding rehabilitation (Rehab) with high-intensity interval training (HIIT) before lung cancer surgery to enhance cardiorespiratory fitness and improve long-term postoperative outcome. METHODS: Patients with operable lung cancer were randomly assigned to usual care (UC, n = 77) or to intervention group (Rehab, n = 74) that entailed HIIT that was implemented only preoperatively. Cardiopulmonary exercise testing (CPET) and pulmonary functional tests (PFTs) including forced vital capacity (FVC), forced expiratory volume (FEV 1 ) and carbon monoxide transfer factor (KCO) were performed before and 1 year after surgery. RESULTS: During the preoperative waiting time (median 25 days), Rehab patients participated to a median of 8 HIIT sessions (interquartile [IQ] 25-75%, 7-10). At 1 year follow-up, 91% UC patients and 93% Rehab patients were still alive ( P = 0.506). Pulmonary functional changes were non-significant and comparable in both groups (FEV 1 mean -7.5%, 95% CI, -3.6 to -12.9 and in KCO mean 5.8% 95% CI 0.8-11.8) Compared with preoperative CPET results, both groups demonstrated similar reduction in peak oxygen uptake (mean -12.2% 95% CI -4.8 to -18.2) and in peak work rate (mean -11.1% 95% CI -4.2 to -17.4). CONCLUSIONS: Short-term preoperative rehabilitation with HIIT does not improve pulmonary function and aerobic capacity measured at 1 year after lung cancer resection. TRIAL REGISTRY: ClinicalTrials.gov; No. NCT01258478; www.clinicaltrials.gov .

Preoperative Peak Oxygen Uptake in Lung Cancer Subjects With Neoadjuvant Chemotherapy: A Cross-Sectional Study.

BACKGROUND: In non-small-cell lung cancer patients, high peak oxygen uptake (peak V̇O2 ) predicts lower rates of postoperative complications and better long-term survival. Neoadjuvant chemotherapy (NAC) may negatively impact peak V̇O2 . METHODS: Cardiopulmonary exercise testing (CPET) was performed in 34 consecutive stage IIIA/IIIB non-small-cell lung cancer subjects scheduled for elective lung surgery. Using multivariate linear regression adjusted for potential confounders, we compared CPET results in subjects receiving or not receiving NAC (NAC+, n = 19; NAC-, n = 15). RESULTS: Adjusted peak V̇O2 was lower in NAC + compared with NAC- subjects (-5.3 mL/min/kg [95% CI -8.3 to -2.2], P = .01). Likewise, oxygen pulse, maximal work load, and ventilatory threshold were also lower in NAC+ subjects, whereas peak heart rate and breathing reserve were similar. NAC+ subjects presented lower values of diffusion capacity for carbon monoxide (DLCO) (P = .035) and hemoglobin concentrations (P < .001). DLCO was strongly correlated with peak V̇O2 (r(2) = 0.56). Adjustment for DLCO reduced the effect of NAC on peak V̇O2 without suppressing it. CONCLUSIONS: NAC was associated with lower preoperative peak V̇O2 in subjects with non-small-cell lung cancer. This lower aerobic fitness may result from NAC-induced reduction in pulmonary gas exchange or heart toxicity. Since lower fitness is linked to poorer outcome, the decision for NAC may have to be balanced with its possible toxicity.

[Should cardiopulmonary rehabilitation be provided to patients with lung cancer?]. / Faut-il proposer un réentrainement cardio-pulmonaire aux patients souffrant d'un cancer du poumon?

The exercise capacity has a specific importance in patients with non small cell lung cancer (NSCLC) at all stages of the disease. In the preoperative period for the early stages of the disease, low exercise capacity can be improved and thus allow curative surgery for unfit patients with NSCLC. The body of current literature suggests a beneficial effect of cardiopulmonary rehabilitation on exercise capacity, quality of life and length of hospital stay or rate of post-operative complications. For patients with advanced disease, exercise capacity, which is a predictor of survival, could be maintained at higher level with adapted cardiopulmonary rehabilitation. Ongoing studies will precise the best programs for patients with NSCLC and help to establish guidelines for clinicians.