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The association of physical activity with obesity, fat distribution and glucose intolerance in Pima Indians (1993)

Kriska, A. M. ; LaPorte, R. E. ; Pettitt, D. J. ; [et al.]

Springer

Diabetologia 36 (1993), S. 863-869

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ISSN: 1432-0428

Keywords: Physical activity ; obesity ; fat distribution ; glucose intolerance ; Pima Indians ; exercise

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary The relationships between physical activity, obesity, fat distribution and glucose tolerance were examined in the Pima Indians who have the highest documented incidence of non-insulin-dependent diabetes. Fasting and 2-h post-load plasma glucose concentrations, body mass index, and waist-to-thigh circumference ratios were determined in 1054 subjects aged 15–59 years. Current (during the most recent calendar year) and historical (over a lifetime) leisure and occupational physical activity were determined by questionnaire. Current physical activity was inversely correlated with fasting and 2-h plasma glucose concentrations, body mass index and waist-to-thigh ratios for most sex-age groups even when diabetic subjects were excluded. Controlled for age, obesity and fat distribution, activity remained significantly associated with 2-h plasma glucose concentrations in males. In subjects aged 37–59 years, individuals with diabetes compared to those without reported significantly less leisure physical activity during the teenage years (median hours per week of activity, 9.1 vs 13.2 for men; 1.0 vs 2.2 for women). Controlled for body mass index, sex, age and waist-to-thigh ratio, subjects who reported low levels of historical leisure physical activity had a higher rate of diabetes than those who were more active. In conclusion, current physical activity was inversely related to glucose intolerance, obesity and central distribution of fat, particularly in males. Subjects with diabetes were currently less active and reported less historical physical activity than non-diabetic subjects. These findings suggest that activity may protect against the development of non-insulin-dependent diabetes both directly and through an influence on obesity and fat distribution.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00400363

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Molecular and functional diversity of cloned cardiac potassium channels (1993)

Bennett, P. B. ; Po, S. ; Snyders, D. J. ; [et al.]

Springer

Cardiovascular drugs and therapy 7 (1993), S. 585-592

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ISSN: 1573-7241

Keywords: K+ channel ; IT0 ; delayed rectifier ; antiarrhythmic drugs ; cardiac excitation-contraction coupling

Source: Springer Online Journal Archives 1860-2000

Topics: Medicine

Notes: Summary Action potential duration is an important determinant of refractoriness in cardiac tissue and thus of the ability to propagate electrical impulses. Action potential duration is controlled in part by activation of K+ currents. Block of K+ channels and the resultant prolongation of action potential duration has become an increasingly attractive mode of anti-arrhythmic intervention. Detailed investigation of individual cardiac K+ channels has been hampered by the presence of multiple types of K+ channels in cardiac cells and the difficulty of isolating individual currents. We have approached this problem by employing a combination molecular cloning technology, heterologous channel expression systems, and biophysical analysis of expressed channels. We have focused on six different channels cloned from the rat and human cardiovascular systems. Each channel has unique functional and pharmacological characteristics, and as a group they comprise a series of mammalian K+ channel isoforms that can account for some of the diversity of channels in the mammalian heart. Each channel appears to be encoded by a different gene with little or no evidence for alternate splicing of RNA transcripts to account for the differences in primary amino acid sequence. In addition to the unique kinetic properties of these channel isoforms when expressed as homotetrameric assemblies, the formation of heterotetrameric K+ channels is also observed. The formation of heterotetrameric channels from the different gene products to create new channels with unique kinetic and pharmacological properties might further account for cardiac K+ channel diversity.

Type of Medium: Electronic Resource

URL: http://dx.doi.org/10.1007/BF00877624

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