Browsing by Author "Pina, I."

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    Physical Activity (PA) of People Living with Post-Tuberculosis Lung Disease (pTBLD) in Uganda
    (American Thoracic Society., 2022) Orme, M.; Pina, I.; Ndagire, P.; Kirenga, B.; Katagira, W.
    Africa accounts for the majority of the global burden of TB, with a significant proportion of survivors reporting poor health-related quality of life. This leads to long-term impairments and development of pTBLD. Close attention has been paid to describing the PA of people living with chronic obstructive pulmonary disease in high-income countries. There is a paucity of data from Sub-Saharan African and in pTBLD populations. We aimed to describe the PA of people living with pTBLD in Uganda using PA thresholds based on the incremental shuttle walking test (ISWT), endurance shuttle walk test (ESWT) and commonly used thresholds. METHODS: Data from the first 10 participants of an ongoing randomized controlled trial were analysed. Stationary time was classified as <100 counts per minute (cpm), light PA as 100-2019cpm and moderate-to-vigorous PA (MVPA) as ≥2020cpm using waist-worn ActiGraph wGT3X-BT accelerometer. MVPA was also defined as ≥100steps/min. During ISWTs and ESWT, participants wore the accelerometer to calculate PA intensity thresholds according to each level of the ISWT and what would be their personalised walking exercise prescription during pulmonary rehabilitation (ESWT speed). Free-living PA was measured for seven consecutive days. Participants with ≥4 days of ≥8 hours of waking wear time were included in analysis. RESULTS: On average, participants spent 67% of their waking day sedentary, 32% in light PA and 1% in MVPA, based on commonly used thresholds. When applying thresholds from the ESWT, participants spent 33% of their waking day in PA below their individual prescription and 0.2% above their individual prescription. When applying thresholds from the ISWT, participants spent 25% of their waking day in PA
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    Proof of Concept for Deriving Physical Activity (PA) Intensity Levels from Field-Based Walking Tests
    (American Thoracic Society., 2022) Orme, M.; Pina, I.; Ndagire, P.; Latimer, L.; Kirenga, B.; Katagira, W.
    As part of pulmonary rehabilitation (PR), patients receive individually tailored exercise training with walking exercise at its core. Despite the personalised nature of exercise prescription, the evaluation of PR on PA has been limited to a ‘one size fits all’ approach. Due to the natural decline in functional exercise capacity, many people with chronic respiratory disease (CRD) perform PA at a higher relative intensity than healthier individuals. This potential for underestimating or misclassifying PA means that the data may appear unresponsiveness to interventions. In the same vein as individualised PA prescription during PR, it may be appropriate to ‘individualise’ PA evaluation in CRD populations. Accordingly, this study aimed to develop individualized PA thresholds based on an individual’s performance on the incremental shuttle walking test (ISWT) and endurance shuttle walk test (ESWT) and compare these with commonly used PA intensity thresholds. Data from an ongoing randomized controlled trial of PR for adults living with post-tuberculosis lung disease in Uganda were used. During baseline ISWTs and ESWT, participants wore an ActiGraph wGT3X-BT accelerometer. Vertical axis counts per minute (vacpm) and cadence were used to derive relative PA intensity thresholds according to each ISWT level and ESWT-derived personalised walking exercise prescription. Median values for VA, VM, and cadence during ISWT and ESWT were calculated and used to determine the walking test-derived intensity thresholds. These thresholds were compared with the most common moderate-to-vigorous PA (MVPA) intensity thresholds: ≥1041VA counts per minute (vacpm), ≥1952vacpm, ≥2020vacpm, ≥2690vmcpm and ≥100steps/min. Of the 10 participants (aged 20-68 years, 7 females), all were capable of an intensity equivalent to the ≥1041vacpm threshold (Figure 1A). Two participants were not able to reach the ≥1952vacpm, ≥2020vacpm thresholds. One participant was not able to reach ≥2690vmcpm (Figure 1B). For cadence, five participants were not able to reach the ≥100steps/min threshold (Figure 1C). For the other respective participants, thresholds for their individually prescribed walking exercise were greater than the commonly used MVPA thresholds. The current ‘one size fits all’ approach to evaluating PA is not suitable, as shown by some participants not being physically capable of reaching the commonly used MVPA thresholds. The same MVPA thresholds are not equivalent to individually prescribed walking thresholds; thus, whether PR leads to patients spending more time in PA reaching individually prescribed walking intensity remains largely unknown.