A novel treadmill protocol for exercise testing in children: the British Columbia Children’s Hospital protocol

BackgroundExercise testing in children is widely recommended for a number of clinical and prescriptive reasons. Many institutions continue to use the Bruce protocol for treadmill testing; however, with its incremental changes in speed and grade, it has challenges for practical application in childre...

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Bibliographic Details
Published in:BMJ Open Sport & Exercise Medicine 2017, Vol.3 (1), p.e000197-e000197
Main Authors: Duff, D Kathryn, De Souza, Astrid M, Human, Derek G, Potts, James E, Harris, Kevin C
Format: Article
Language:English
Subjects:
Age groups
Cardiovascular disease
Child development
Children & youth
Exercise intensity
Expenditures
Fatigue
Fitness equipment
Girls
Heart
Impact tests
Metabolism
Original Research
Physical fitness
Running
Womens health
Workloads
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Summary:BackgroundExercise testing in children is widely recommended for a number of clinical and prescriptive reasons. Many institutions continue to use the Bruce protocol for treadmill testing; however, with its incremental changes in speed and grade, it has challenges for practical application in children. We have developed a novel institutional protocol (British Columbia Children’s Hospital (BCCH)), which may have better utility in paediatric populations.AimTo determine if our institutional protocol yields similar peak responses in minute ventilation (VE), oxygen consumption (VO2), carbon dioxide production (VCO2), respiratory exchange ratio (RER), metabolic equivalents (METS) and heart rate (HR) when compared with the traditional Bruce protocol.MethodsOn two different occasions, 70 children (boys=33; girls=37) aged 10–18 years completed an exercise test on a treadmill using each of the protocols. During each test, metabolic gas exchange parameters were measured. HR was monitored continuously during exercise using an HR monitor.ResultsPhysiological variables were similar between the two protocols (median (IQR); rs): VE (L/min) (BCCH=96.7 (72.0–110.2); Bruce=99.2 (75.6–120.0); rs=0.95), peak VO2 (mL/min) (BCCH=2897 (2342–3807); Bruce=2901 (2427–3654); rs=0.94) and METS (BCCH=16.2 (14.8–17.7); Bruce=16.4 (14.7–17.9); rs=0.89). RERs were similar (BCCH=1.00 (0.96–1.02); Bruce=1.03 (0.99–1.07); rs=0.48). Total exercise time (in seconds) was longer for the BCCH protocol: BCCH=915 (829–1005); Bruce=810 (750-919); rs=0.67.ConclusionThe BCCH protocol produces similar peak exercise responses to the Bruce protocol and provides an alternative for clinical exercise testing in children.
ISSN:2055-7647
2055-7647
DOI:10.1136/bmjsem-2016-000197