Strength training and anabolic steroids : a comparative study of the vastus lateralis, a thigh muscle and the trapezius, a shoulder muscle, of strength-trained athletes /

Eriksson, Anders,

January 2006

Diss. (sammanfattning) Umeå : Umeå universitet, 2006. / Härtill 5 uppsatser.

Design of a mechanically assisted dependent transfer mechanism for use on board commercial aircraft /

Gibson, Brenton D.

January 1900

Thesis (M.S.)--Oregon State University, 2010. / Printout. Includes bibliographical references (leaves 164-167). Also available on the World Wide Web.

Effect of lateral force on passenger comfort during a mechanically assisted dependent transfer /

Mast, Jonathan J.

January 1900

Thesis (M.S.)--Oregon State University, 2008. / Printout. Includes bibliographical references (leaves 86-87). Also available on the World Wide Web.

The acute effects of heavy- and light-load squat exercises on vertical ground reaction forces

Hanson, Erik.

January 2005

Thesis (M.A.)--University of North Carolina at Chapel Hill, 2005. / Includes bibliographical references (leaves 73-77). Also available online (PDF file) by a subscription to the set or by purchasing the individual file.

The acute effects of heavy- and light-load squat exercises on vertical ground reaction forces

Hanson, Erik.

January 2005

Thesis (M.A.)--University of North Carolina at Chapel Hill, 2005. / Includes bibliographical references (leaves 73-77).

The effect of load carriage on selected metabolic and perceptual responses of military personnel

Ramabhai, Leena I

January 2000

Taking a multi-disciplinary, integrated approach, the present study sought to examine selected physiological and psycho-physical parameters related to load carriage involving a 12 km march under military conditions. Military constraints hampered, but did not entirely inhibit the secondary aim of the study which concerned the effectiveness of relativising loads in order to normalise responses for all soldiers, irrespective of morphological diversity. Forty three subjects were measured in six groups using a test-retest experimental protocol. They were involved in a rest-broken 12 km march at 4 km.h⁻¹ under 40.5 kg absolute total load and under a relative load of 37% of body mass. Heart rates, ratings of perceived exertion (RPE) as well as area and intensity of discomfort were monitored for all subjects. Ten subjects were measured more extensively with regard to physiology using the Metamax, a portable ergospirometry system that provides all the data needed for a complete functional analysis of lung, heart, circulation and metabolic activity. Physiological responses (fc; fb; V̇T; V̇E; V̇O₂; EE; V̇CO₂; R; T°) indicated subjects were not severely physically taxed and that the loads imposed constituted a sub-maximal demand. Moreover, there appeared to be a limited cumulative effect over the 3.5 h. Data from the first and third hours were similar, while the significantly higher responses in the second hour reflected the challenge of the undulating terrain encountered during this section of the march. All responses during the Relative load conditions mirrored those of the Absolute load condition but, because the demands were less, the trends occurred at a reduced level. Furthermore, the reduction in inter-individual variability indicates that relativised load carriage tends to stress the soldiers in a more uniform manner. All "local" RPE responses were higher than "central" ratings, suggesting soldiers were in good cardiovascular condition and experienced marginally more strain in the lower limbs. There was increased perceived strain corresponding to the increase in gradient, with little cumulative effect over the three hours. The shoulders and feet were the two regions in which most discomfort was experienced; the shoulders being the worst area in the first hour and the feet being rated the worst after the third hour of marching. This study clearly demonstrates the probability of a significant improvement in mean combat-readiness following loaded marching by showing that, if loads are set at levels commensurate with individual capabilities to carry them without undue strain, unnecessary physical demands experienced by smaller, more gracile soldiers are reduced.

Marching -- Physiological aspects

Military art and science

Marching -- Psychological aspects

Lifting and carrying

Metod för konstruktion av lyftredskap / Construction method of lifting accessories

Lundqvist, Oskar

January 2018

Examensarbetet har utförts på ELE Engineering AB i Borlänge. Rapportens syfte är att utreda och sammanfatta de krav som ställs för att kunna CE-märka lyftredskap inom EU. Rapporten förklarar kraven som ställs enligt maskindirektivet på lyftredskap. Dessa har sedan arbetats ihop till en metod som kan användas av ELE för att säkerställa att ett lyftredskap uppfyller alla grundläggande krav. Genom att ta upp kraven för dokumentation, dimensionering, funktion, säkerhet och testning så skapades en struktur med 8st punkter i. Dessa punkter gicks igenom med hjälp av PDSA-cykeln för att kunna utnyttja ELE:s nuvarande arbetssätt. För att ELE ska kunna arbeta på ett standardiserat sätt med lyftredskap skapades mallar för kravspecifikationen, lyftprotokoll och bruksanvisning. Genom att metoden som skapades säkerställer att alla krav som ställs på lyftredskap är tillgodosedda kan ELE CE-märka alla lyftredskap som följer metoden. / This thesis has been performed on ELE Engineering AB in Borlänge. The purpose of this report is to investigate and sum the requirements that is necessary for CE-marking of lifting accessories in EU. The report clarifies the requirements that is specified in the machinery directive. The requirements have been combined into a method of construction that ELE can use to ensure that a lifting accessory fulfills all essential requirements. Through the requirements of documentation, design, function and safety was a structure with 8 fragments made. The fragments were worked over by the PDSA-cycle to make use of ELE´s current design method. For ELE to work in a standardized manner with lifting accessories, templates were created for the requirement specification, lifting protocol and operating instructions. By following the method that was formed, ensuring that all requirements for lifting accessories are met, ELE can CE-mark every lifting accessory that is designed.

Constructions method

CE-marking

lifting accessories

Konstruktionsmetod

CE-märkning

lyftredskap

Mechanical Engineering

Maskinteknik

Desenvolvimento de um macromodelo biomecânico tridimensional da coluna vertebral durante tarefas de levantamento

La Torre, Marcelo

January 2009

As atividades desenvolvidas pelo ser humano traduzem-se em grandes esforços internos, sobre as mais variadas estruturas corporais. O conhecimento da magnitude destes esforços pode auxiliar profissionais da área da saúde em atividades como prescrição de exercícios, reabilitação e prevenção de lesões. A magnitude dos esforços internos pode ser obtida por meio de um método direto ou indireto. O método direto esbarra em questões éticas e limitações tecnológicas, enquanto que o método analítico indireto por meio do conhecimento de parâmetros biomecânicos externos pode inferir sobre os esforços internos. Assim o objetivo deste estudo foi implementar um Macromodelo biomecânico tridimensional da coluna vertebral (MM3D), para cálculo das forças internas, articular e muscular resultantes, durante diferentes tarefas de levantamento de carga. O MM3D implementado consiste de um modelo de segmentos articulados (MSA-3D) o qual é composto por dezesseis segmentos rígidos conectados associados a um Modelo de distribuição (MDFMA) o qual fornece as forças musculares (FM) e articulares (FA) resultantes em três níveis da coluna vertebral (superior, médio e inferior). No MSA-3D as forças e momentos proximais líquidos são obtidos a partir da resolução das equações de movimento de Newton-Euler por meio da solução inversa. Com base nas forças e momentos proximais líquidos obtidos do MSA-3D o MDFMA baseado em técnicas de otimização e dados da literatura fornece as FM e FA resultantes na coluna vertebral. A tarefa avaliada consistiu do levantamento de um objeto com 20% da massa corporal do indivíduo em três diferentes técnicas de levantamento. Para registro cinemático foram utilizadas cinco câmeras digitais, com freqüência de amostragem de 25 Hz. O registro cinético foi realizado por meio da utilização de uma plataforma de força, a base de strain-gauges. Os resultados do MM3D implementado foram avaliados por meio da estimativa da acurácia da medida tridimensional obtida pela cinemetria, pela comparação dos resultados do MSA-3D com os valores mensurados pela plataforma de força, pela comparação da FRP e MP calculados pela via superior e inferior do MSA-3D nos segmentos da coluna vertebral e literatura. Os resultados obtidos sugerem uma coerência do MM3D com informações de mensurações diretas e estimativas indiretas obtidas da literatura. Assim o MM3D se mostrou capaz de avaliar e comparar as FM e FA nos três segmentos da coluna vertebral durante diferentes tarefas de levantamento. / Activities performed by the human being can be translated in large internal loads in the most varied body structures. Knowledge of these loads' magnitude may help health area professionals in activities such as prescription of exercises, rehabilitation and prevention of injuries. Internal load's magnitude may be obtained through direct or indirect methods. Direct method stumbles in ethical questions and technology limitations, while indirect analytic method through knowledge of external biomechanics parameters may deduce internal loads. Thus the objective of this study was to implement a tridimensional biomechanical macromodel of the spine (MM3D) to calculate internal forces, joint and muscular resultants, during different tasks of weight lifting. The implemented MM3D consists of an articulated segments model (MSA-3D) composed by sixteen rigid segments connected associated to a distribution Model (MDFMA) that provides resultant muscle (FM) and joint (FA) forces in three levels of the spine (superior, medium and inferior). At the MSA-3D liquid forces and proximal moments are obtained from the resolution of Newton-Euler movement equations through inverse solution. Based in the MSA-3D liquid forces and proximal moments obtained, the MDFMA, based in optimization techniques and data from literature, provides spine resultants FM and FA. The evaluated task consisted of lifting an object with 20% of the subjects' body weight using three different lifting techniques. For kinematics records five digital video cameras were used, with sampling frequency of 25 Hz. Kinetic record was performed using a force platform (strain-gauges based). MM3D implemented results were evaluated through accuracy estimation of the tridimensional measures obtained from kinematics, through comparison of the MSA-3D results and values measured by the force platform, through comparison of spine's segments calculated proximal resultant force and proximal moment calculated through upper and lower ways of MSA-3D and literature. Results suggest a coherence of direct measured information of MM3D and indirect estimative obtained from literature. Thus MM3D showed capable of evaluating and comparing FM and FA at the spine's three segments during different lifting tasks.

Biomecânica

Coluna vertebral

Força muscular

Tridimensional macromodel

Load lifting

Inverse dynamic

Distribution model

Desenvolvimento de um macromodelo biomecânico tridimensional da coluna vertebral durante tarefas de levantamento

La Torre, Marcelo

January 2009

As atividades desenvolvidas pelo ser humano traduzem-se em grandes esforços internos, sobre as mais variadas estruturas corporais. O conhecimento da magnitude destes esforços pode auxiliar profissionais da área da saúde em atividades como prescrição de exercícios, reabilitação e prevenção de lesões. A magnitude dos esforços internos pode ser obtida por meio de um método direto ou indireto. O método direto esbarra em questões éticas e limitações tecnológicas, enquanto que o método analítico indireto por meio do conhecimento de parâmetros biomecânicos externos pode inferir sobre os esforços internos. Assim o objetivo deste estudo foi implementar um Macromodelo biomecânico tridimensional da coluna vertebral (MM3D), para cálculo das forças internas, articular e muscular resultantes, durante diferentes tarefas de levantamento de carga. O MM3D implementado consiste de um modelo de segmentos articulados (MSA-3D) o qual é composto por dezesseis segmentos rígidos conectados associados a um Modelo de distribuição (MDFMA) o qual fornece as forças musculares (FM) e articulares (FA) resultantes em três níveis da coluna vertebral (superior, médio e inferior). No MSA-3D as forças e momentos proximais líquidos são obtidos a partir da resolução das equações de movimento de Newton-Euler por meio da solução inversa. Com base nas forças e momentos proximais líquidos obtidos do MSA-3D o MDFMA baseado em técnicas de otimização e dados da literatura fornece as FM e FA resultantes na coluna vertebral. A tarefa avaliada consistiu do levantamento de um objeto com 20% da massa corporal do indivíduo em três diferentes técnicas de levantamento. Para registro cinemático foram utilizadas cinco câmeras digitais, com freqüência de amostragem de 25 Hz. O registro cinético foi realizado por meio da utilização de uma plataforma de força, a base de strain-gauges. Os resultados do MM3D implementado foram avaliados por meio da estimativa da acurácia da medida tridimensional obtida pela cinemetria, pela comparação dos resultados do MSA-3D com os valores mensurados pela plataforma de força, pela comparação da FRP e MP calculados pela via superior e inferior do MSA-3D nos segmentos da coluna vertebral e literatura. Os resultados obtidos sugerem uma coerência do MM3D com informações de mensurações diretas e estimativas indiretas obtidas da literatura. Assim o MM3D se mostrou capaz de avaliar e comparar as FM e FA nos três segmentos da coluna vertebral durante diferentes tarefas de levantamento. / Activities performed by the human being can be translated in large internal loads in the most varied body structures. Knowledge of these loads' magnitude may help health area professionals in activities such as prescription of exercises, rehabilitation and prevention of injuries. Internal load's magnitude may be obtained through direct or indirect methods. Direct method stumbles in ethical questions and technology limitations, while indirect analytic method through knowledge of external biomechanics parameters may deduce internal loads. Thus the objective of this study was to implement a tridimensional biomechanical macromodel of the spine (MM3D) to calculate internal forces, joint and muscular resultants, during different tasks of weight lifting. The implemented MM3D consists of an articulated segments model (MSA-3D) composed by sixteen rigid segments connected associated to a distribution Model (MDFMA) that provides resultant muscle (FM) and joint (FA) forces in three levels of the spine (superior, medium and inferior). At the MSA-3D liquid forces and proximal moments are obtained from the resolution of Newton-Euler movement equations through inverse solution. Based in the MSA-3D liquid forces and proximal moments obtained, the MDFMA, based in optimization techniques and data from literature, provides spine resultants FM and FA. The evaluated task consisted of lifting an object with 20% of the subjects' body weight using three different lifting techniques. For kinematics records five digital video cameras were used, with sampling frequency of 25 Hz. Kinetic record was performed using a force platform (strain-gauges based). MM3D implemented results were evaluated through accuracy estimation of the tridimensional measures obtained from kinematics, through comparison of the MSA-3D results and values measured by the force platform, through comparison of spine's segments calculated proximal resultant force and proximal moment calculated through upper and lower ways of MSA-3D and literature. Results suggest a coherence of direct measured information of MM3D and indirect estimative obtained from literature. Thus MM3D showed capable of evaluating and comparing FM and FA at the spine's three segments during different lifting tasks.

Biomecânica

Coluna vertebral

Força muscular

Tridimensional macromodel

Load lifting

Inverse dynamic

Distribution model

Desenvolvimento de um macromodelo biomecânico tridimensional da coluna vertebral durante tarefas de levantamento

La Torre, Marcelo

January 2009

As atividades desenvolvidas pelo ser humano traduzem-se em grandes esforços internos, sobre as mais variadas estruturas corporais. O conhecimento da magnitude destes esforços pode auxiliar profissionais da área da saúde em atividades como prescrição de exercícios, reabilitação e prevenção de lesões. A magnitude dos esforços internos pode ser obtida por meio de um método direto ou indireto. O método direto esbarra em questões éticas e limitações tecnológicas, enquanto que o método analítico indireto por meio do conhecimento de parâmetros biomecânicos externos pode inferir sobre os esforços internos. Assim o objetivo deste estudo foi implementar um Macromodelo biomecânico tridimensional da coluna vertebral (MM3D), para cálculo das forças internas, articular e muscular resultantes, durante diferentes tarefas de levantamento de carga. O MM3D implementado consiste de um modelo de segmentos articulados (MSA-3D) o qual é composto por dezesseis segmentos rígidos conectados associados a um Modelo de distribuição (MDFMA) o qual fornece as forças musculares (FM) e articulares (FA) resultantes em três níveis da coluna vertebral (superior, médio e inferior). No MSA-3D as forças e momentos proximais líquidos são obtidos a partir da resolução das equações de movimento de Newton-Euler por meio da solução inversa. Com base nas forças e momentos proximais líquidos obtidos do MSA-3D o MDFMA baseado em técnicas de otimização e dados da literatura fornece as FM e FA resultantes na coluna vertebral. A tarefa avaliada consistiu do levantamento de um objeto com 20% da massa corporal do indivíduo em três diferentes técnicas de levantamento. Para registro cinemático foram utilizadas cinco câmeras digitais, com freqüência de amostragem de 25 Hz. O registro cinético foi realizado por meio da utilização de uma plataforma de força, a base de strain-gauges. Os resultados do MM3D implementado foram avaliados por meio da estimativa da acurácia da medida tridimensional obtida pela cinemetria, pela comparação dos resultados do MSA-3D com os valores mensurados pela plataforma de força, pela comparação da FRP e MP calculados pela via superior e inferior do MSA-3D nos segmentos da coluna vertebral e literatura. Os resultados obtidos sugerem uma coerência do MM3D com informações de mensurações diretas e estimativas indiretas obtidas da literatura. Assim o MM3D se mostrou capaz de avaliar e comparar as FM e FA nos três segmentos da coluna vertebral durante diferentes tarefas de levantamento. / Activities performed by the human being can be translated in large internal loads in the most varied body structures. Knowledge of these loads' magnitude may help health area professionals in activities such as prescription of exercises, rehabilitation and prevention of injuries. Internal load's magnitude may be obtained through direct or indirect methods. Direct method stumbles in ethical questions and technology limitations, while indirect analytic method through knowledge of external biomechanics parameters may deduce internal loads. Thus the objective of this study was to implement a tridimensional biomechanical macromodel of the spine (MM3D) to calculate internal forces, joint and muscular resultants, during different tasks of weight lifting. The implemented MM3D consists of an articulated segments model (MSA-3D) composed by sixteen rigid segments connected associated to a distribution Model (MDFMA) that provides resultant muscle (FM) and joint (FA) forces in three levels of the spine (superior, medium and inferior). At the MSA-3D liquid forces and proximal moments are obtained from the resolution of Newton-Euler movement equations through inverse solution. Based in the MSA-3D liquid forces and proximal moments obtained, the MDFMA, based in optimization techniques and data from literature, provides spine resultants FM and FA. The evaluated task consisted of lifting an object with 20% of the subjects' body weight using three different lifting techniques. For kinematics records five digital video cameras were used, with sampling frequency of 25 Hz. Kinetic record was performed using a force platform (strain-gauges based). MM3D implemented results were evaluated through accuracy estimation of the tridimensional measures obtained from kinematics, through comparison of the MSA-3D results and values measured by the force platform, through comparison of spine's segments calculated proximal resultant force and proximal moment calculated through upper and lower ways of MSA-3D and literature. Results suggest a coherence of direct measured information of MM3D and indirect estimative obtained from literature. Thus MM3D showed capable of evaluating and comparing FM and FA at the spine's three segments during different lifting tasks.

Biomecânica

Coluna vertebral

Força muscular

Tridimensional macromodel

Load lifting

Inverse dynamic

Distribution model