Keyword search (4,163 papers available)

"Bergdahl A" Authored Publications:

Title Authors PubMed ID
1 5 weeks of online resistance training with blood flow restriction increases sit-to-stand oxygen consumption in healthy older adults Presta D; Bergdahl A; 41565628
HKAP
2 The effect of 14 days Actovegin administration with or without high intensity training on exercise capacity and skeletal muscle mitochondrial respiration Hassø RK; Lindtofte S; Kosik B; Bergdahl A; Larsen S; 41553522
HKAP
3 Finding a Link Between the TRPV4 Ion Channel and Angiogenesis: A Potential Therapeutic Target for Vascular Remodeling Malka G; Salucci V; Bergdahl A; 41056565
HKAP
4 Reduced 17β-estradiol following ovariectomy induces mitochondrial dysfunction and degradation of synaptic proteins in the entorhinal cortex Olajide OJ; Batallán Burrowes AA; da Silva IF; Bergdahl A; Chapman CA; 39617168
HKAP
5 Improvements in Postural Stability, Dynamic Balance, and Strength Following 12 Weeks of Online Ballet-Modern Dance Classes for Older Women Chen EH; Bergdahl A; Roberts M; 38863786
HKAP
6 Characterization of muscle oxygenation response in well-trained handcyclists Furno Puglia V; Paquette M; Bergdahl A; 38856729
HKAP
7 A polyphenol-rich cranberry supplement improves muscle oxidative capacity in healthy adults Parenteau F; Denis A; Roberts M; Comtois AS; Bergdahl A; 38626462
HKAP
8 Cranberry supplementation improves physiological markers of performance in trained runners Parenteau F; Puglia VF; Roberts M; Comtois AS; Bergdahl A; 38297471
HKAP
9 Actovegin improves skeletal muscle mitochondrial respiration and functional aerobic capacity in a type 1 diabetic male murine model Kosik B; Larsen S; Bergdahl A; 37913525
HKAP
10 A systematic review and meta-analysis of randomized controlled trials investigating the effects of probiotics on oxidative stress in healthy adults St-Amant A; Bergdahl A; 36963861
HKAP
11 Physiological levels of cardiolipin acutely affect mitochondrial respiration in vascular smooth muscle cells Galambo D; Bergdahl A; 36594049
HKAP
12 Inhibiting amyloid beta (1-42) peptide-induced mitochondrial dysfunction prevents the degradation of synaptic proteins in the entorhinal cortex Olajide OJ; La Rue C; Bergdahl A; Chapman CA; 36275011
HKAP
13 Characterization of Affective Behaviors and Motor Functions in Mice With a Striatal-Specific Deletion of Bmal1 and Per2 Schoettner K; Alonso M; Button M; Goldfarb C; Herrera J; Quteishat N; Meyer C; Bergdahl A; Amir S; 35755440
HKAP
14 Zinc Homeostasis in Diabetes Mellitus and Vascular Complications MacKenzie S; Bergdahl A; 35052818
HKAP
15 Four-week prehabilitation program is sufficient to modify exercise behaviors and improve preoperative functional walking capacity in patients with colorectal cancer. Chen BP, Awasthi R, Sweet SN, Minnella EM, Bergdahl A, Santa Mina D, Carli F, Scheede-Bergdahl C 27539131
HKAP
16 Pre-ischaemic mitochondrial substrate constraint by inhibition of malate-aspartate shuttle preserves mitochondrial function after ischaemia-reperfusion. Jespersen NR, Yokota T, Støttrup NB, Bergdahl A, Paelestik KB, Povlsen JA, Dela F, Bøtker HE 28093764
HKAP
17 Constructing an inexpensive and versatile homemade rodent treadmill. Bouganim S, Bergdahl A 28211864
HKAP
18 Adaptation of mitochondrial expression and ATP production in dedifferentiating vascular smooth muscle cells. Scheede-Bergdahl C, Bergdahl A 28846852
HKAP
19 Evaluation of supervised multimodal prehabilitation programme in cancer patients undergoing colorectal resection: a randomized control trial. Bousquet-Dion G, Awasthi R, Loiselle SÈ, Minnella EM, Agnihotram RV, Bergdahl A, Carli F, Scheede-Bergdahl C 29327644
HKAP
20 Maximizing patient adherence to prehabilitation: what do the patients say? Ferreira V, Agnihotram RV, Bergdahl A, van Rooijen SJ, Awasthi R, Carli F, Scheede-Bergdahl C 29478189
HKAP
21 Reducing branched-chain amino acid intake to reverse metabolic complications in obesity and type 2 diabetes. Yadao DR, MacKenzie S, Bergdahl A 29791751
HKAP
22 Cardiac mitochondrial respiration following a low-carbohydrate, high-fat diet in apolipoprotein E-deficient mice. Rocha C, Koury OH, Scheede-Bergdahl C, Bergdahl A 30362048
HKAP

 

Title:Evaluation of supervised multimodal prehabilitation programme in cancer patients undergoing colorectal resection: a randomized control trial.
Authors:Bousquet-Dion GAwasthi RLoiselle SÈMinnella EMAgnihotram RVBergdahl ACarli FScheede-Bergdahl C
Link:https://www.ncbi.nlm.nih.gov/pubmed/29327644?dopt=Abstract
Publication:
Keywords:
PMID:29327644 Category:Acta Oncol Date Added:2019-05-31
Dept Affiliation: HKAP
1 a Department of Anesthesia , McGill University Health Center , Montreal , Canada.
2 b School of Anesthesia and Intensive Care , University of Milan , Milan , Italy.
3 c Research Institute-McGill University Health Center , Montreal , Canada.
4 d Department of Exercise Science , Concordia University , Montreal , Canada.
5 e Department of Kinesiology and Physical Education , McGill University , Montreal , Canada.
6 f McGill Research Centre for Physical Activity & Health, McGill University , Montreal , Canada.

Description:

Evaluation of supervised multimodal prehabilitation programme in cancer patients undergoing colorectal resection: a randomized control trial.

Acta Oncol. 2018 Jun;57(6):849-859

Authors: Bousquet-Dion G, Awasthi R, Loiselle SÈ, Minnella EM, Agnihotram RV, Bergdahl A, Carli F, Scheede-Bergdahl C

Abstract

BACKGROUND: Prehabilitation has been previously shown to be more effective in enhancing postoperative functional capacity than rehabilitation alone. The purpose of this study was to determine whether a weekly supervised exercise session could provide further benefit to our current prehabilition program, when comparing to standard post-surgical rehabilitation.

METHODS: A parallel-arm single-blind randomized control trial was conducted in patients scheduled for non-metastatic colorectal cancer resection. Patients were assigned to either a once weekly supervised prehabilitation (PREHAB+, n?=?41) or standard rehabilitation (REHAB, n?=?39) program. Both multimodal programs were home-based program and consisted of moderate intensity aerobic and resistance exercise, nutrition counseling with daily whey protein supplementation and anxiety-reduction strategies. Perioperative care was standardized for both groups as per enhanced recovery after surgery (ERAS®) guidelines. Functional exercise capacity, as determined by the 6-minute walk test distance (6MWD), was the primary outcome. Exercise quantity, intensity and energy expenditure was determined by the CHAMPS questionnaire.

RESULTS: Both groups were comparable for baseline walking capacity (PREHAB+: 448 m [IQR 375-525] vs. REHAB: 461 m [419-556], p=.775) and included a similar proportion of patients who improved walking capacity (>20 m) during the preoperative period (PREHAB+: 54% vs. REHAB: 38%, p?=?.222). After surgery, changes in 6MWD were also similar in both groups. In PREHAB+, however, there was a significant association between physical activity energy expenditure and 6MWD (p?<?.01). Previously inactive patients were more likely to improve functional capacity due to PREHAB+ (OR 7.07 [95% CI 1.10-45.51]).

CONCLUSIONS: The addition of a weekly supervised exercise session to our current prehabilitation program did not further enhance postoperative walking capacity when compared to standard REHAB care. Sedentary patients, however, seemed more likely to benefit from PREHAB+. An association was found between energy spent in physical activity and 6MWD. This information is important to consider when designing cost-effective prehabilitation programs.

PMID: 29327644 [PubMed - indexed for MEDLINE]




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