A proposed model for load carriage on sloped terrain.

BACKGROUND: The purpose of this study was to develop a predictive model for uphill and downhill load carriage. Relative to level walking, net energy costs increase with uphill movement and decrease moving downhill. To simulate load carriage over complex terrain, a model must estimate the cost of downhill movement. The net cost of downhill movement is expected to reach a minimum value, then increase as work is required to maintain stability. Thus, downhill costs cannot be simply extrapolated from a linear relationship for uphill work. METHOD: Oxygen uptake (VO2) was measured for 16 subjects during test sessions which consisted of walking at 1.34 m x s(-1) on a single grade (-12%, -10%, -8%, -4%, -2%, 0%, +4%, +4%, +8% and +12%) with a 0, 9.1- or 18.1-kg load. RESULTS: No significant gender differences were found, therefore data were pooled. The minimum VO2 values occurred at -8% grade. CONCLUSION: Our model assumes that the total energy requirement (WT) is the sum of the cost of level walking (W(L)) plus the cost of vertical displacement (Wv) for the total mass (body plus load). For uphill work, Wv was calculated by multiplying the cost of vertical displacement by an efficiency factor. For downhill work, the cost of vertical displacement was modified by an exponential function of the slope angle. Values for level and negative slope walking with no load were compared with estimated values derived from two published studies to partially validate the negative model.

Oxytocin-stimulated production of prostaglandin F2alpha by isolated endometrium of rabbit: modulation by ovarian steroids.

To test the hypothesis that ovarian steroid hormones modulate oxytocin-induced release of prostaglandin F2alpha (PGF2alpha) from uterine endometrium, 2 ovariectomized rabbits were pretreated with progesterone (5 mg/day for 10 days), 2 with estradiol-17 beta (25 microgram/day for 10 days), 2 with both steroids, and one with sesame oil only. On the last day of treatment, endometrial fragments were excised and incubated in vitro with or without oxytocin (100 muU/ml). Although endometrium from rabbits pretreated with combined steroids released more PGF2alpha immediately after excision than did tissue from animals pretreated with either steroid by itself, endometrium from animals pretreated with estradiol-17 beta alone released the most PGF2alpha during sustained incubation in vitro. Moreover, only this tissue exhibited significant oxytocin-dependent release of PGF2alpha. At the dosages used, progesterone completely antagonized both of these effects of estradiol-17 beta. The results support the hypothesis that ovarian steroid hormones regulate oxytocin-dependent release of PGF2alpha from endometrial cells. A posible mechanism of action is suggested.