BMD in elite female triathletes is related to isokinetic peak torque without any association to sex hormone concentrations

Eva Wulff Helge; Anna Melin; Mette Waaddegaard; Inge-Lis Kanstrup

BMD in elite female triathletes is related to isokinetic peak torque without any association to sex hormone concentrations

Eva Wulff Helge, Anna Melin, Mette Waaddegaard, Inge-Lis Kanstrup

2 Citations (Scopus)

Abstract

Aim. Female endurance athletes suffering from low energy availability and reproductive hormonal disorders are at risk of low BMD. Muscle forces acting on bone may have a reverse sitespecific effect Therefore we wanted to test how BMD in female elite triathletes was associated to isokinetic peak torque (IPT) and reproductive hormone concentrations (RHC). A possible effect of oral contraceptives (OCON's) is taken into consideration. Methods. Eight female elite triathletes (training 8-24 hrs/wk) and seven sedentary controls, age 21-37 years, participated. Total body and regional BMD (g.cm^-2) were measured by DXA. IPT were measured during knee extension, and trunk extension and flexion (Nm). Serum RHC and biochemical bone markers were evaluated. Energy balance was estimated from 7-days training-and weighed food records. Results. Despite a high training volume, BMD in triathletes was not higher than in controls. In triathletes trunk flexion IPT, but not RHC, was a strong predictor of BMD in both total body and femur (0.70<r<0.86, P<0.05). RHC did not differ between triathletes and controls, but in OCON-users RHC (in controls also BMD) seemed lower than in non-users. Energy intake in triathletes corresponded to 65-111% of energy expenditure. Conclusion. The association between trunk flexion IPT and BMD in triathletes supports the theory that muscle forces are important osteogenic factors. The findings of no correlation between RHC and BMD, but a tendency to a negative effect of low RHC only in OCON-controls, might indicate that in female athletes muscle forces acting on bone potentially counteract a negative effect of reproductive hormonal disorders on BMD.

Original language	English
Journal	Journal of Sports Medicine and Physical Fitness
Volume	52
Issue number	5
Pages (from-to)	489-500
Number of pages	12
ISSN	0022-4707
Publication status	Published - Oct 2012

Keywords

Adult
Bicycling
Biological Markers
Body Composition
Bone Density
Case-Control Studies
Contraceptives, Oral
Energy Intake
Energy Metabolism
Female
Gonadal Steroid Hormones
Humans
Muscle Strength
Regression Analysis
Running
Statistics, Nonparametric
Swimming
Torque

Cite this

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title = "BMD in elite female triathletes is related to isokinetic peak torque without any association to sex hormone concentrations",

abstract = "Aim. Female endurance athletes suffering from low energy availability and reproductive hormonal disorders are at risk of low BMD. Muscle forces acting on bone may have a reverse sitespecific effect Therefore we wanted to test how BMD in female elite triathletes was associated to isokinetic peak torque (IPT) and reproductive hormone concentrations (RHC). A possible effect of oral contraceptives (OCON's) is taken into consideration. Methods. Eight female elite triathletes (training 8-24 hrs/wk) and seven sedentary controls, age 21-37 years, participated. Total body and regional BMD (g.cm-2) were measured by DXA. IPT were measured during knee extension, and trunk extension and flexion (Nm). Serum RHC and biochemical bone markers were evaluated. Energy balance was estimated from 7-days training-and weighed food records. Results. Despite a high training volume, BMD in triathletes was not higher than in controls. In triathletes trunk flexion IPT, but not RHC, was a strong predictor of BMD in both total body and femur (0.70",

keywords = "Adult, Bicycling, Biological Markers, Body Composition, Bone Density, Case-Control Studies, Contraceptives, Oral, Energy Intake, Energy Metabolism, Female, Gonadal Steroid Hormones, Humans, Muscle Strength, Regression Analysis, Running, Statistics, Nonparametric, Swimming, Torque",

author = "Helge, {Eva Wulff} and Anna Melin and Mette Waaddegaard and Inge-Lis Kanstrup",

note = "CURIS 2012 5200 149",

year = "2012",

month = oct,

language = "English",

volume = "52",

pages = "489--500",

journal = "Journal of Sports Medicine and Physical Fitness",

issn = "0022-4707",

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TY - JOUR

T1 - BMD in elite female triathletes is related to isokinetic peak torque without any association to sex hormone concentrations

AU - Helge, Eva Wulff

AU - Melin, Anna

AU - Waaddegaard, Mette

AU - Kanstrup, Inge-Lis

N1 - CURIS 2012 5200 149

PY - 2012/10

Y1 - 2012/10

N2 - Aim. Female endurance athletes suffering from low energy availability and reproductive hormonal disorders are at risk of low BMD. Muscle forces acting on bone may have a reverse sitespecific effect Therefore we wanted to test how BMD in female elite triathletes was associated to isokinetic peak torque (IPT) and reproductive hormone concentrations (RHC). A possible effect of oral contraceptives (OCON's) is taken into consideration. Methods. Eight female elite triathletes (training 8-24 hrs/wk) and seven sedentary controls, age 21-37 years, participated. Total body and regional BMD (g.cm-2) were measured by DXA. IPT were measured during knee extension, and trunk extension and flexion (Nm). Serum RHC and biochemical bone markers were evaluated. Energy balance was estimated from 7-days training-and weighed food records. Results. Despite a high training volume, BMD in triathletes was not higher than in controls. In triathletes trunk flexion IPT, but not RHC, was a strong predictor of BMD in both total body and femur (0.70

AB - Aim. Female endurance athletes suffering from low energy availability and reproductive hormonal disorders are at risk of low BMD. Muscle forces acting on bone may have a reverse sitespecific effect Therefore we wanted to test how BMD in female elite triathletes was associated to isokinetic peak torque (IPT) and reproductive hormone concentrations (RHC). A possible effect of oral contraceptives (OCON's) is taken into consideration. Methods. Eight female elite triathletes (training 8-24 hrs/wk) and seven sedentary controls, age 21-37 years, participated. Total body and regional BMD (g.cm-2) were measured by DXA. IPT were measured during knee extension, and trunk extension and flexion (Nm). Serum RHC and biochemical bone markers were evaluated. Energy balance was estimated from 7-days training-and weighed food records. Results. Despite a high training volume, BMD in triathletes was not higher than in controls. In triathletes trunk flexion IPT, but not RHC, was a strong predictor of BMD in both total body and femur (0.70

KW - Adult

KW - Bicycling

KW - Biological Markers

KW - Body Composition

KW - Bone Density

KW - Case-Control Studies

KW - Contraceptives, Oral

KW - Energy Intake

KW - Energy Metabolism

KW - Female

KW - Gonadal Steroid Hormones

KW - Humans

KW - Muscle Strength

KW - Regression Analysis

KW - Running

KW - Statistics, Nonparametric

KW - Swimming

KW - Torque

M3 - Journal article

C2 - 22976735

SN - 0022-4707

VL - 52

SP - 489

EP - 500

JO - Journal of Sports Medicine and Physical Fitness

JF - Journal of Sports Medicine and Physical Fitness

IS - 5

ER -

BMD in elite female triathletes is related to isokinetic peak torque without any association to sex hormone concentrations

Abstract

Keywords

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