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The Effect of Exercise Training Programs on Bone Mass: A Meta-analysis of Published Controlled Trials in Pre- and Postmenopausal Women (1999)

Wolff, I. ; van Croonenborg, J. J. ; Kemper, H. C. G. ; [et al.]

Springer

Osteoporosis international 9 (1999), S. 1-12

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ISSN: 1433-2965

Keywords: Key words:Bone mass – Exercise – Meta-analysis – Osteoporosis – Women

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Abstract: With the aging of the population, the medical and social costs of skeletal fragility leading to fractures will cause an immense burden on society unless effective prophylactic and therapeutic regimens can be developed. Exercise is suggested as a possible regimen against involutional bone loss. The purpose of the present meta-analysis is to address a quantitative review of the randomized controlled trials (RCTs) and nonrandomized controlled trials (CTs) on the effects of exercise training programs on bone mass, measured as bone mineral density (BMD) or bone mineral content (BMC), of the lumbar spine (LS) and the femoral neck (FN) in pre- and postmenopausal women. The literature from 1966 through December 1996 was searched for published RCTs and CTs. Study treatment effect is defined as the difference between percentage change in bone mass per year in the training group and the control group. Overall treatment effects (OTs) with the 95% confidence intervals of these study treatment effects were calculated using inverse-variance weighting. Of the 62 articles identified, 25 met the inclusion criteria and were maintained for further analyses. The weighted OTs for the RCTs showed very consistently that the exercise training programs prevented or reversed almost 1% of bone loss per year in both LS and FN for both pre- and postmenopausal women. The two OTs that could be calculated for strength training programs did not reach significance. The OTs for the CTs were almost twice as high as those for the RCTs, which gives an indication of the confounding introduced by the nonrandom allocation of the subjects to groups.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/s001980050109

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Intra-individual variation of glucose, specific insulin and proinsulin concentrations measured by two oral glucose tolerance tests in a general Caucasian population: the Hoorn Study (1996)

Mooy, J. M. ; Grootenhuis, P. A. ; de Vries, H. ; [et al.]

Springer

Diabetologia 39 (1996), S. 298-305

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ISSN: 1432-0428

Keywords: Keywords Intra-individual variation ; glucose ; specific insulin ; proinsulin ; oral glucose tolerance test ; reproducibility.

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary We studied the intra-individual variation in plasma glucose, specific serum insulin and serum proinsulin concentrations, measured by two 75-g oral glucose tolerance tests in an age, sex, and glucose tolerance stratified random sample from a 50–74-year-old Caucasian population without a history of diabetes mellitus. The intra-individual variation was assessed by the standard deviation of the test-retest differences (SDdif). For subjects with normal (n = 246), impaired glucose tolerance (n = 198), and newly detected diabetes (n = 80) classified at the first test, the following (SDdif/median level of individual average scores) were found: fasting glucose: 0.4/5.4, 0.5/5.9 and 0.7/7.2 mmol/l; 2-h glucose: 1.3/5.6, 1.8/8.5 and 2.3/12.8 mmol/l; fasting insulin: 23/76, 32/89 and 30/116 pmol/l; 2-h insulin: 190/303, 278/553 and 304/626 pmol/l; fasting proinsulin: 4/8, 6/13 and 9/18 pmol/l; 2-h proinsulin: 19/49, 23/84 and 33/90 pmol/l, respectively. In both glucose, proinsulin and insulin concentrations the total intra-individual variation was predominantly determined by biological variation, whereas analytical variation made only a minor contribution. The SDdif can easily be interpreted, as 95 % of the random test-retest differences will be less than 2 · SDdif, or in terms of percentage, less than (2 · SDdif/median level of individual average scores) · 100. Therefore, for subjects with normal glucose tolerance, 95 % of the random test-retest differences will be less than 15 % (fasting glucose), 46 % (2-h glucose), 61 % (fasting insulin), 125 % (2-h insulin), 100 % (fasting proinsulin) and 78 % (2-h proinsulin) of the median value of the individual average scores. No substantial independent association of either age, gender or obesity with the intra-individual variation in glucose, proinsulin, or insulin concentrations was found. [Diabetologia (1996) 39: 298–305]

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00418345

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Intra-individual variation of glucose, specific insulin and proinsulin concentrations measured by two oral glucose tolerance tests in a general Caucasian population: the Hoorn Study (1996)

Mooy, J. M. ; Grootenhuis, P. A. ; Vries, H. ; [et al.]

Springer

Diabetologia 39 (1996), S. 298-305

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Details

ISSN: 1432-0428

Keywords: Intra-individual variation ; glucose ; specific insulin ; proinsulin ; oral glucose tolerance test ; reproducibility

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary We studied the intra-individual variation in plasma glucose, specific serum insulin and serum pro-insulin concentrations, measured by two 75-g oral glucose tolerance tests in an age, sex, and glucose tolerance stratified random sample from a 50–74-year-old Caucasian population without a history of diabetes mellitus. The intra-individual variation was assessed by the standard deviation of the test-retest differences (SDdif). For subjects with normal (n=246), impaired glucose tolerance (n=198), and newly detected diabetes (n=80) classified at the first test, the following (SDdif/median level of individual average scores) were found: fasting glucose: 0.4/5.4, 0.5/5.9 and 0.7/7.2 mmol/l; 2-h glucose: 1.3/5.6, 1.8/8.5 and 2.3/12.8 mmol/l; fasting insulin: 23/76, 32/89 and 30/ 116 pmol/l; 2-h insulin: 190/303, 278/553 and 304/626 pmol/l; fasting proinsulin: 4/8, 6/13 and 9/18 pmol/l; 2-h proinsulin: 19/49, 23/84 and 33/90 pmol/l, respectively. In both glucose, proinsulin and insulin concentrations the total intra-individual variation was predominantly determined by biological variation, whereas analytical variation made only a minor contribution. The SDdif can easily be interpreted, as 95% of the random test-retest differences will be less than 2 · SDdif, or in terms of percentage, less than (2 · SDdif/median level of individual average scores) · 100. Therefore, for subjects with normal glucose tolerance, 95% of the random test-retest differences will be less than 15% (fasting glucose), 46% (2-h glucose), 61% (fasting insulin), 125% (2-h insulin), 100% (fasting proinsulin) and 78% (2-h proinsulin) of the median value of the individual average scores. No substantial independent association of either age, gender or obesity with the intra-individual variation in glucose, proinsulin, or insulin concentrations was found.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00418345

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