Kapria‐Jad Josaphat scite author profile

Kapria‐Jad Josaphat

4Publications

42Citation Statements Received

268Citation Statements Given

How they've been cited

How they cite others

140

264

Affiliations

Université de Montréal

Publications

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Impact of Exercise Timing on Chemosensory Response, Appetite, and Energy Intake in Lean Males

Josaphat

Drapeau²,

Torgerson

et al. 2020

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Background: High-intensity exercise can have an anorectic impact, leading to negative energy balance. Several studies have reported that the practice of physical activity could also cause a shift in perceptions and preferences, causing a change in food intakes. Objective: This study aimed to question to what extent the timing of exercise in relation to a meal could have an impact on olfaction and gustation, appetite, and food choices. Methods: Twelve males aged 25 (4) years with a body mass index of 22.4 (2.0) kg/m2 attended two experimental visits in a counterbalanced fashion. The participants consumed a standardized breakfast between 7:00 and 7:30 a.m. and were subjected to smell and taste tests upon arrival at the laboratory (8:30 a.m.). In the EX9:40 visit, the participants performed a 30-min exercise session (70% of maximum oxygen uptake) at 9:40 a.m., followed by a 90-min sedentary break. In EX10:30, the participants first took part in the 90-min sedentary break and then performed the 30-min exercise session at 10:30 a.m. Taste and smell tests were performed again at 11:40 a.m., immediately followed by an ad libitum buffet-style meal. Visual analog scales were used to report appetite sensations during the session and satiety quotients around the lunch. Results: There was no difference in energy intakes between the EX9:40 (596 [302] kcal) and EX10:30 (682 [263] kcal) conditions (p = .459). There was no condition effect for the taste and smell sensations (all ps > .05), appetite sensation, or satiety quotients around the meal (all ps > .05). Conclusion: Exercise timing in the morning had no effect on taste and smell perceptions, appetite sensations, or energy intakes.

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Use of Active Workstations in Individuals with Overweight or Obesity: A Systematic Review

Josaphat

Kugathasan

Reid

et al. 2019

Obesity

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Objective This systematic review aims to collect existing literature and summarize the impact of active workstations on the health and work outcomes of participants with overweight or obesity. Methods Five databases were examined (until March 2018), and the keywords “desk,” “workstation,” “work station,” and “work stations” were used with any one of the following terms: “active,” “bik*,” “cycling,” “height adjustable,” “stepping,” “stand up,” “standing,” “treadmill*,” “walk*,” “elliptical,” “bicycl*,” “pedaling,” “stability ball,” “stability balls,” “exercise ball,” “exercise balls,” “swiss ball,” “swiss balls,” “sit‐to‐stand,” and “sit stand.” Results Nineteen studies (two with school‐aged children) were included in this review. Nine studies used treadmill, three used cycling, one used stepping, and twelve used standing desks. A decrease in sedentary time and an increase in physical activity level and energy expenditure were observed for most of the active workstations. Both the treadmill and the cycle desk improved glycemic control, but the treadmill desk was the only workstation for which improved work performance and help in body‐weight management (body fat percentage, body weight, waist and hip circumference) were reported. Conclusions Active workstations are a promising solution for decreasing occupational sedentariness. Overall, active workstations have a positive impact on energy expenditure and physical activity in individuals with overweight and obesity.

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Acute Impact of the Use of a Standing Desk on Appetite Sensations and Energy Intake

Josaphat¹,

Labonté-LeMoyne²,

Sénécal³

et al. 2020

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Background: Sedentariness has been shown to increase energy intake and is associated with increased obesity prevalence. Active workstations are used to implement physical activity interventions in workplaces, but it is unclear if they can lead to reductions in body weight. This study aims to observe the acute impact of a standing desk on energy intake and appetite sensations. Methods: Participants came to the laboratory, where they were randomly assigned to a seated or a standing desk. They completed a work session (∼75 min) during which they performed cognitive tasks and reported their levels of stress. Following this, they had a 15-minute break during which buffet-type snacks were served. Subjects were asked to rate their appetite sensations on visual analog scales. Results: Thirty-six normal-weight men and women aged 24.3 (4.3) years participated in this study. Energy intake from snacks was similar (P = .472) between participants who sat (427.8 [286.9] kcal) and the ones who stood (461.2 [272.8] kcal) during the work session. There was no difference in satiety quotients around the snack and no significant interaction time × condition for appetite sensations. Conclusion: The use of a standing desk for 75 minutes did not increase food consumption following a meal.

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Reduction in ambulatory distance from childhood through adolescence: The impact of the number and length of steps

Guimarães

Josaphat

Reid

et al. 2021

Journal of Exercise Science & Fitness

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