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51	A three dimensional kinematic comparison of the conventional versus sumo style deadlifts Bommarito, Pete January 2000 (has links) The primary purpose of this study is to use three-dimensional motion analysis to determine and compare certain kinematic joint and segmental variables at defined events (bar off and knee passing) between the conventional and sumo styles of deadlifts. The secondary purpose of this study is to investigate bar path profiles and vertical bar velocity patterns (including attempting to determine a "sticking region") and compare these variables between the two styles and two sub-maximal loads (50% and 75%). Five subjects performed each style at each load. Each trial was filmed, digitized, and imported for 3-D reconstruction. This data was utilized to determine hip, knee, inter-thigh, trunk, thigh, and shank angles at bar off and knee passing; bar path profiles; and bar velocity values (including determining the "sticking region"). A two way ANOVA showed statistically significant differences between the two styles for most joint and segmental variables at both events and the range between the two events. There was a significant difference between the two styles for total time and horizontal and vertical bar displacement. Only one trial showed a sticking region. Based on the results of this study, it can be stated that kinematic differences do occur between the two styles of deadlifts at submaximal loads. A sticking region does not appear to occur at loads of 75% of a 1 rep maximum or less. / School of Physical Education Weight lifting -- Physiological aspects. Human mechanics.
52	Glycogen synthesis in skeletal muscle following resistive exercise Pascoe, David D. January 1990 (has links) The purpose of this investigation was to determine the influence of post exercise carbohydrate (CHO) intake on the rate of muscle glycogen restorage after high intensity weight resistance exercise in untrained subjects. In a cross over design, eight male subjects performed sets (mean= 8.8) of 6 single leg knee extensions at 70% of one repletion max until 50% of full knee extension was no longer possible. Total force application was equated between trials using a strain gauge interfaced to a computer. Post exercise supplementation was administered at 0 and 1 hrs consisting of either a 23% CHO solution (1.5g•kg-1•hr-1) or an equal volume of water (H20). Total force production, pre-exercise muscle glycogen content, and degree of depletion (-40.6 and -44.3 mmol•kg-1) were not significantly different between H2O and CHO trials, respectively. During the initial 2 hrs recovery, the CHO trial had a significantly greater rate of muscle glycogen resynthesis as compared to the H2O trial. In the final 4 hrs of recovery no difference in repletion rates were observed. The glycogen content (mmol•kg-1 w.w.) and rates of restorage (mmol•kg-1 w.w.) during the recovery period were (mean + SE):TrialPost2 Hr6 HrRate (0-2 hrs)H2O101.3+ 13.1105.1+ 13.1105.5+ 13.01.3+ 2.2CHO91.7+ 11.8117.6+ 16.5123.4+ 15.1 12.9+ 4.0significance between trials, p <0.01Only the CHO supplementation trial restored pre-exercise muscle glycogen content after 6 hrs. The spectrophotometric analysis of glycogen stained muscle sections (PAS) indicated no difference between trials in the pre and post glycogen content for Type I and II fibers. The change in absorbance, when these samples were combined demonstrate greater glycogenolysis in the Type II (0.284 + 0.58) as compared to Type I (0.014 ± 0.076). During the recovery period, the change in absorbance supports greater glycogenesis in the Type II ( 0.096 + 0.060) when compared to no observed change in absorbance in the Type I fibers.Supported by a grant from Ross Laboratories. / Human Performance Laboratory Glycogen -- Synthesis. Weight lifting -- Physiological aspects.
53	Muscle glycogenolysis during weight-resistance exercise Robergs, Robert A. January 1990 (has links) Skeletal muscle glycogenolysis was investigated in eight subjects during both high (HI) (70% 1 RM) and low (LO) intensity (35% 1 RM) leg extension weight-resistance exercise. Total force application to the machine lever arm was determined and equated between trials via a strain gauge and computer interfaced system. After the sixth set, muscle glycogen degradation was similar in the HI and LO trials (46.9 ± 6.6 and 46.6 ± 6.0 mmol•kg-1 wet wt, respectively), with the LO trial characterized by almost double the repetitions (6.0 and 12.7 ± 1.1) and half the peak concentric torque per repetition (24.2 ± 1.0 and 12.4 ± 0.5). After the sixth set, muscle lactate accumulation was also similar (13.8 ± 0.7 and 16.7 ± 4.2 mmol•kg-1 wet wt for HI and LO trials, respectively). After two hours of passive recovery with no feedings, muscle glycogen storage during the HI and LO trials was 22.2 (±6.8) and 14.2 (±2.5) mmol•kg-1 wet wt, respectively These values represented glycogen synthesis rates of 11.1 (±3.4) and 7.1 (±1.3) mmol•kg-1 •hr-1 , and occurred without significant increases in blood glucose relative to resting concentrations. Optical absorbance measurement of PAS stained muscle sections revealed no differences in the glycogen content of fast (FT) and slow twitch (ST) fibers between trials. When data from each trial were combined, declines in absorbance were larger in FT than ST fibers after the sixth set (0.356 ± 0.048) than in slow twitch fibers (0.222 ± 0.039, p < 0.05). The increase in absorbanceduring the two hour recovery was also larger in FT than ST fibers (0.119 ± 0.024 and 0.055 ± 0.024, p < 0.05). When total force application was constant, muscle glycogenolysis was the same regardless of the intensity of resistance exercise. Glycogenolysis was greater in fast twitch fibers, as was glycogen storage during the immediate post-exercise recovery. The relatively high rate of glycogen synthesis after exercise may be evidence of glycogenesis from intramuscular metabolites. / Human Performance Laboratory Weight lifting -- Physiological aspects. Glycogen -- Metabolism.
54	A cognitive model to support the design of training for physical tasks for enhanced knowledge transfer : the case of manual handling training Nicholls, Jacqueline Anne January 1996 (has links) No description available. 620.82 Back pain; Manual lifting; Workplace
55	Comparison of different types of measurement of sagittal standing posture suitable for load carrying in a backpack / Pirunsan, Ubon. Unknown Date (has links) Thesis (PhDPhysiotherapy)--University of South Australia, 2002. Backpacks. High school students Lifting and carrying.
56	The effect of backpacks on schoolchildren / Rubenstein, Lori. Unknown Date (has links) Thesis (MAppSc)--University of South Australia, 1997 Backpacks. High school students Lifting and carrying.
57	A comparative study of the use of school-bags by adolescent girls and reports of pain / Walker, Kerry. Unknown Date (has links) Thesis (MPhysio)--University of South Australia, 1998 Backache. Backpacks. Lifting and carrying. Young women
58	Is there a relationship between load carrying and the frequency of low back pain in adolescent school children? / Sellentin, Rolf. Unknown Date (has links) Thesis (MPhysio)--University of South Australia, 1998 Backache. Backpacks. High school students Lifting and carrying.
59	The use of backpacks, levels of physical activity and reported pain in Year 8 school students / Duguid, Lynn. January 1998 (has links) Thesis (MAppSc in Physiotherapy) -- University of South Australia, 1998 Backpacks High school students Lifting and carrying
60	The relationship between lumbar curvature change during squat lifting and isometric back extensor torque / Kanlayanaphotporn, Rotsalai. Unknown Date (has links) Thesis (MAppSc) -- University of South Australia, 1997 Lifting and carrying. Lumbar curve Muscle strength

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