TY - JOUR
T1 - Simulated games activity vs continuous running exercise
T2 - A novel comparison of the glycemic and metabolic responses in T1DM patients
AU - Campbell, M. D.
AU - West, D. J.
AU - Bain, S. C.
AU - Kingsley, M. I.C.
AU - Foley, P.
AU - Kilduff, L.
AU - Turner, D.
AU - Gray, B.
AU - Stephens, J. W.
AU - Bracken, R. M.
N1 - Publisher Copyright:
© 2014 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.
PY - 2014/3/4
Y1 - 2014/3/4
N2 - To compare the glycemic and metabolic responses to simulated intermittent games activity and continuous running exercise in type 1 diabetes. Nine patients (seven male, two female; 35±4 years; HbA1c 8.1±0.2%/65±2mmol/mol) treated on a basal-bolus regimen completed two main trials, a continuous treadmill run (CON) or an intermittent running protocol (INT). Patients arrived to the laboratory fasted at ∼08:00h, replicating their usual pre-exercise meal and administering a 50% reduced dose of rapid-acting insulin before exercising. Blood glucose (BG), K+, Na++, pH, triglycerides, serum cortisol and NEFA were measured at baseline and for 60min post-exercise. Interstitial glucose was measured for a further 23h under free-living conditions. Following exercise, BG declined under both conditions but was less under INT (INT -1.1±1.4 vs CON -5.3±0.4mmol/L, P=0.037), meaning more patients experienced hypoglycemia (BG≤3.5mmol/L; CONn=3 vs INTn=2) but less hyperglycemia (BG≥10.9mmol/L; CONn=0 vs INTn=6) under CON. Blood lactate was significantly greater, and pH lower, with a temporal delay in K+ under INT (P<0.05). No conditional differences were observed in other measures during this time, or in interstitial glucose concentrations during the remaining 23h after exercise. Simulated games activity carries a lower risk of early, but not late-onset hypoglycemia than continuous running exercise in type 1 diabetes.
AB - To compare the glycemic and metabolic responses to simulated intermittent games activity and continuous running exercise in type 1 diabetes. Nine patients (seven male, two female; 35±4 years; HbA1c 8.1±0.2%/65±2mmol/mol) treated on a basal-bolus regimen completed two main trials, a continuous treadmill run (CON) or an intermittent running protocol (INT). Patients arrived to the laboratory fasted at ∼08:00h, replicating their usual pre-exercise meal and administering a 50% reduced dose of rapid-acting insulin before exercising. Blood glucose (BG), K+, Na++, pH, triglycerides, serum cortisol and NEFA were measured at baseline and for 60min post-exercise. Interstitial glucose was measured for a further 23h under free-living conditions. Following exercise, BG declined under both conditions but was less under INT (INT -1.1±1.4 vs CON -5.3±0.4mmol/L, P=0.037), meaning more patients experienced hypoglycemia (BG≤3.5mmol/L; CONn=3 vs INTn=2) but less hyperglycemia (BG≥10.9mmol/L; CONn=0 vs INTn=6) under CON. Blood lactate was significantly greater, and pH lower, with a temporal delay in K+ under INT (P<0.05). No conditional differences were observed in other measures during this time, or in interstitial glucose concentrations during the remaining 23h after exercise. Simulated games activity carries a lower risk of early, but not late-onset hypoglycemia than continuous running exercise in type 1 diabetes.
KW - Intermittent running
KW - Post-exercise hypoglycemia
KW - T1DM
UR - http://www.scopus.com/inward/record.url?scp=84925346703&partnerID=8YFLogxK
U2 - 10.1111/sms.12192
DO - 10.1111/sms.12192
M3 - Article
C2 - 24593125
AN - SCOPUS:84925346703
SN - 0905-7188
VL - 25
SP - 216
EP - 222
JO - Scandinavian Journal of Medicine and Science in Sports
JF - Scandinavian Journal of Medicine and Science in Sports
IS - 2
ER -