Effect of type 2 diabetes on the dynamic response characteristics of leg vascular conductance during exercise

Oscar MacAnaney; Heather Reilly; Donal O&apos;Shea; Mikel Egaña; Simon Green

doi:10.1177/1479164110389625

Effect of type 2 diabetes on the dynamic response characteristics of leg vascular conductance during exercise

Oscar MacAnaney, Heather Reilly, Donal O'Shea, Mikel Egaña, Simon Green

Research output: Contribution to journal › Article › peer-review

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Abstract

In this study we tested the hypothesis that type 2 diabetes impairs the dynamic response of leg vascular conductance (LVC) during exercise. LVC (leg blood flow/mean arterial pressure) responses were studied during intermittent contractions of the calf muscle in subjects with type 2 diabetes (n = 9), heavy controls (n = 10) and lean controls (n = 8) using a biexponential function and an estimate of the mean response time (MRT). The time constant of the second phase of LVC was significantly greater in type 2 diabetes (66.4 Â± 29.2 s) than the heavy (22.2 Â± 13.4 s) and lean (21.8 Â± 9.3 s) controls, resulting in a significantly greater MRT in the diabetic group (median [IQR] = 30.7 [24.6-46.5] s versus 16.3 [4.3-23.2] s and 18.4 [13.7-19.3] s). These data support the hypothesis and suggest that a slowed hyperaemic response in the exercising limb might contribute to exercise intolerance in diabetic subjects.

Original language	English
Pages (from-to)	12-21
Number of pages	10
Journal	Diabetes and Vascular Disease Research
Volume	8
Issue number	1
DOIs	https://doi.org/10.1177/1479164110389625
Publication status	Published - 2011

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title = "Effect of type 2 diabetes on the dynamic response characteristics of leg vascular conductance during exercise",

abstract = "In this study we tested the hypothesis that type 2 diabetes impairs the dynamic response of leg vascular conductance (LVC) during exercise. LVC (leg blood flow/mean arterial pressure) responses were studied during intermittent contractions of the calf muscle in subjects with type 2 diabetes (n = 9), heavy controls (n = 10) and lean controls (n = 8) using a biexponential function and an estimate of the mean response time (MRT). The time constant of the second phase of LVC was significantly greater in type 2 diabetes (66.4 {\^A}± 29.2 s) than the heavy (22.2 {\^A}± 13.4 s) and lean (21.8 {\^A}± 9.3 s) controls, resulting in a significantly greater MRT in the diabetic group (median [IQR] = 30.7 [24.6-46.5] s versus 16.3 [4.3-23.2] s and 18.4 [13.7-19.3] s). These data support the hypothesis and suggest that a slowed hyperaemic response in the exercising limb might contribute to exercise intolerance in diabetic subjects.",

author = "Oscar MacAnaney and Heather Reilly and Donal O'Shea and Mikel Ega{\~n}a and Simon Green",

year = "2011",

doi = "10.1177/1479164110389625",

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T1 - Effect of type 2 diabetes on the dynamic response characteristics of leg vascular conductance during exercise

AU - MacAnaney, Oscar

AU - Reilly, Heather

AU - O'Shea, Donal

AU - Egaña, Mikel

AU - Green, Simon

PY - 2011

Y1 - 2011

N2 - In this study we tested the hypothesis that type 2 diabetes impairs the dynamic response of leg vascular conductance (LVC) during exercise. LVC (leg blood flow/mean arterial pressure) responses were studied during intermittent contractions of the calf muscle in subjects with type 2 diabetes (n = 9), heavy controls (n = 10) and lean controls (n = 8) using a biexponential function and an estimate of the mean response time (MRT). The time constant of the second phase of LVC was significantly greater in type 2 diabetes (66.4 Â± 29.2 s) than the heavy (22.2 Â± 13.4 s) and lean (21.8 Â± 9.3 s) controls, resulting in a significantly greater MRT in the diabetic group (median [IQR] = 30.7 [24.6-46.5] s versus 16.3 [4.3-23.2] s and 18.4 [13.7-19.3] s). These data support the hypothesis and suggest that a slowed hyperaemic response in the exercising limb might contribute to exercise intolerance in diabetic subjects.

AB - In this study we tested the hypothesis that type 2 diabetes impairs the dynamic response of leg vascular conductance (LVC) during exercise. LVC (leg blood flow/mean arterial pressure) responses were studied during intermittent contractions of the calf muscle in subjects with type 2 diabetes (n = 9), heavy controls (n = 10) and lean controls (n = 8) using a biexponential function and an estimate of the mean response time (MRT). The time constant of the second phase of LVC was significantly greater in type 2 diabetes (66.4 Â± 29.2 s) than the heavy (22.2 Â± 13.4 s) and lean (21.8 Â± 9.3 s) controls, resulting in a significantly greater MRT in the diabetic group (median [IQR] = 30.7 [24.6-46.5] s versus 16.3 [4.3-23.2] s and 18.4 [13.7-19.3] s). These data support the hypothesis and suggest that a slowed hyperaemic response in the exercising limb might contribute to exercise intolerance in diabetic subjects.

UR - http://handle.uws.edu.au:8081/1959.7/552700

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DO - 10.1177/1479164110389625

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SN - 1479-1641

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EP - 21

JO - Diabetes and Vascular Disease Research

JF - Diabetes and Vascular Disease Research

IS - 1

ER -

Effect of type 2 diabetes on the dynamic response characteristics of leg vascular conductance during exercise

Abstract

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