Changing the lens: looking beyond disordered eating and into the meanings of the body, food and exercise relationship in distance runners

Busanich, Rebecca Lee Verkerke

01 May 2011

The relationship between the body, food and exercise is complex and remains poorly understood within the athletic population. Much of what is currently known stems from disordered eating literature grounded in objectivist perspectives. While this literature has been fruitful, it has limited our understanding of athletes' eating and body experiences as they have primarily been conceptualized through an objectivist lens as pathological and/or linked to individual psychological deficiencies (e.g., low self-esteem, body image distortion). In turn, the ways in which food and exercise are negotiated and experienced by athletes in the context of taken-for-granted social, cultural and gendered discourses had not yet been explored. Therefore, the purpose of this dissertation was to use an alternative theoretical perspective (i.e., feminist psychology) to look beyond the traditional objectivist notion of `disordered eating' and explore the complex relationship between the body, food and exercise in athletes (i.e., male and female distance runners), including the underlying meanings surrounding the athletic body and the role of gender and power in the social construction of their body experiences. A narrative approach drawing from Sparkes & Smith (2008), Smith & Sparkes (2008, 2010), and Riessman (1993, 2008) was used to accomplish this research goal. As such, participants were asked to tell stories about their body experiences, in relation to both eating and exercising, over the course of two separate individual interviews, as well as to create a visual representation/story of their running experience. These stories stood as the backdrop through which meanings were sought, as they provided a window into larger social, cultural and historical narratives as well as the process of individual meaning-making around the body, food and exercise (Riessman, 1993, 2008; Smith & Sparkes, 2010). A total of nine recreational distance runners (5 males, 4 females) and three elite (i.e., collegiate or post-collegiate) distance runners (1 male, 2 females) participated in the study. Together, these 12 runners produced a sum of 23 narrative interviews and 11 visual narratives, all of which underwent a combined thematic, dialogic/performance and visual analysis. The results of this thorough analysis indicated that the runners' stories were primarily situated in broader self-identity narratives and further demarcated by one of two opposing running narratives that shifted the meanings around the body, food and exercise in complex ways. Furthermore, their stories, along with the construction of meanings around the body, food and exercise, were found to be situated and negotiated within gendered narratives of the self. The ways in which the runners drew upon these narratives, and formed meanings within them, directly impacted their thoughts, emotions and behaviors around their bodies, food and exercise in both empowering (i.e., positive and healthy) and/or disempowering ways. As such, this study highlighted the complexity of the body, food and exercise relationship in distance runners and demonstrated how athletes' eating and exercising practices are socially and culturally formed through the narratives made available to them.

Disordered Eating

Embodiment

Female Athletes

Feminist Cultural Studies

Male Athletes

Social Constructionism

Exercise Physiology

Exodus of champions : the great migration and the shaping of the civil rights activities of Floyd Patterson, Sonny Liston, Joe Frazier and George Foreman

Taradash, Daniel Lawrence

01 July 2015

While the intersection of sport and the Civil Rights era has been well documented from a number of angles and approaches, perhaps no athlete has been so thoroughly connected to this period in history as Muhammad Ali. His stances on Vietnam, race relations and religion during this period have provided a fountain of historical research and narratives on this very turbulent period. However, what about the political and social activities of Ali’s contemporaries? Floyd Patterson, Sonny Liston, Joe Frazier and George Foreman were not just heavyweight champions, but also individuals who were profoundly affected by the mass exodus of Blacks out of the South and into the cities of the North and West. Known to history as the Great Migration, this movement not only affected these men physically, but also helped to shape their ideas and understandings about racial identity, civil rights and race relations in their adult lives. The purpose of this research is to examine the political and social activities and experiences throughout the lives of Floyd Patterson, Sonny Liston, Joe Frazier and George Foreman. In addition to exploring the narratives surrounding their migration experiences, it will display the differences in opinion each man had regarding issues such as segregation and how they defined themselves against Ali’s largely ignored, hardline segregationist stance. Finally, it will explore the possibilities for reexamining not just the popularly accepted narratives of these four men, but also of Ali himself.

publicabstract

Boxing 20th Century

Floyd Patterson

George Foreman

Joe Frazier

Muhammad Ali

Sonny Liston

Exercise Physiology

The vertical jump test as a health promotion screening tool for predicting bone strength in young adults

King, Maggie Marie

01 May 2016

Osteoporosis is one of the most common diseases experienced in the older adult population. This condition is not only costly to manage and treat, particularly so when osteoporotic fractures occur, but also negatively impacts functional health and health-related quality of life for many individuals. This indicates the need for more to be done to prevent osteoporosis from developing initially. While bone mineral density (BMD) testing recommendations are in place for women aged 65 and older and men aged 70 and older to diagnose osteoporosis, there currently are no BMD testing recommendations for preventive or screening purposes in the general, healthy, adult population. One potential screening tool for bone strength is a peak vertical jump test. Peak vertical jump height can be used as a proxy for lower body muscle power, which has been identified as an influential factor in determining bone mass and geometry, both of which are critical aspects of bone strength. This study ascertained the relationship between muscle power and bone strength, as well as the capacity of a peak vertical jump test to identify young adults with below-average areal BMD (aBMD). A total of 303 young adults (18 to 22 years, n=136 males, n=167 females) participated in these cross-sectional analyses. DXA was used to assess aBMD for total hip and femoral neck, and DXA images were used to calculate femoral neck section modulus (FN Z) values. Peripheral quantitative computed tomography (pQCT) was used to assess indices of bone strength at the tibia. Cortical bone area (CoA) and density-weighted polar section modulus strength-strain index (SSIp) were assessed at the 38% midshaft site, and bone strength index (BSI) was assessed at the 4% midshaft site. Lower body muscle power was predicted using peak vertical jump height and the Sayers et al. (1999) equation. Data were analyzed using Pearson bivariate and partial correlations to examine associations among bone strength outcomes and muscle power. Logistic regression was used to examine the probability of below-average bone strength based on muscle power. Receiver Operating Characteristic (ROC) curve analysis was used to show the tradeoff between sensitivity and specificity and to display the accuracy of a peak vertical jump test as an assessment tool for aBMD. Logistic regression indicated the odds ratio of below-average height-adjusted femoral neck aBMD decreased 5.4% for females and 3.6% for males per 50 Watts of power. ROC curve analysis showed the best sensitivity-specificity trade-off for identifying individuals with and without below-average aBMD was 5,038 Watts in males (sensitivity = 73.7%; specificity = 62.4%; AUC = 0.709, 95%CI = 0.572 - 0.847) and 3,261 Watts in females (sensitivity = 71.4%; specificity = 58.9%; AUC = 0.708, 95%CI = 0.586 - 0.829). These cut off values correspond to a vertical jump height of 54.39 cm and 36.16 cm for males and females, respectively. Taken together, the results of these analyses suggest acceptable sensitivity and specificity and moderate discriminate ability for using a measure of muscle power, assessed with a peak vertical jump test, to identify young adults with below-average aBMD.

publicabstract

BMD

bone strength

jump power

osteoporosis prevention

screening tool

vertical jump

Exercise Physiology

Measurement of activity-related changes in the hand

Massy-Westropp, Nicola

January 2005

The hypothesis underlying this research is that hand activity produces changes in the tissues of the hand which are reflected in the various functions of those tissues. Understanding the effect of hand activity upon hand function would allow occupational therapists to assess the efficacy of therapeutic interventions upon a clients ability to perform hand activity without damage to the tissues of the hand. Such information could assist in the design of safe and sustainable work tasks. The first step towards understanding how activity affects the hand is to measure its effects. The aim of this research is to determine which instruments can measure the effects of activity upon the hand.

Exercise Physiology

Human mechanics,

Occupational therapy,

Rehabilitation

Progression of Symptoms and Differences in the Response of Different Skeletal Muscles to the M1592V Mutation of NaV1.4 that Causes Hyperkalemic Periodic Paralysis

Khogali, Shiemaa

01 November 2012

Hyperkalemic periodic paralysis is characterized by myotonic discharges followed by paralysis. Caused by a mutation in the gene encoding for NaV1.4 channel, patients do not experience symptoms during infancy, but the onset starts between 1-10 years of age. The symptoms severity then increases with age until adolescence. A large increase in gene expression marked by an increase in oxidative capacity of muscles has also been reported in HyperKPP. It is possible that the onset of symptoms is related solely to NaV1.4 channel content/activity reaching a critical level. It is also possible that the onset of some symptoms are due to defective NaV1.4, while other symptoms and the increase in severity with age are related to changes in membrane components as a result of changes in gene expression. To test these possibilities, the progression of paralysis and changes in fiber types were followed with age in HyperKPP mice in relation to changes in NaV1.4 content and activity. Changes in fiber types (index of changes in gene expression), started after the onset of paralysis was observed, which coincided with NaV1.4 channels reaching maximum expression. Therefore, the onset of symptoms was related to defective NaV1.4 channels.

Hyperkalemic Periodic Paralysis

Channelopathies

Ion Channels

Sodium Channels

Myosin Fiber types

Muscle physiology

Exercise physiology

Effects of a Topical Analgesic Using Massage on Delayed Onset Muscle Soreness

Varvil, Carrie E.

01 December 2009

No description available.

eccentric exercise

delayed onset muscle soreness

therapeutic massage

TheraGesic

Exercise Physiology

Kinesiology

Physiology

The effect of short-term endurance training on 5-HT1A, 5-HT2A and 5-HT2C receptor mRNA levels in rat lumbar motoneurons

Woodrow, Lindsey

12 September 2010

Serotonin receptor subtypes 5-HT1A, 5-HT2A and 5-HT2C are expressed in motoneurons and modulate motoneuron excitability. Serotonergic neurons, which increase their discharge with motor activity, make numerous contacts with motoneurons; however, little is known about the adaptability of motoneuron serotonin receptor expression in response to exercise. The purpose of this study was to determine the effect of a 7-day treadmill exercise protocol on 5-HT1A, 5-HT2A and 5-HT2C receptor mRNA levels in rat lumbar motoneurons. Lumbar motoneurons of exercised and sedentary animals were collected via laser capture microdissection. RNA was isolated from these samples and real-time reverse transcription polymerase chain reactions were performed to determine differences in receptor mRNA levels between exercised and sedentary animals. It appears that 5-HT1A, 5-HT2A and 5-HT2C receptor mRNA levels are unaltered following 7 days of treadmill exercise; however, future research must be done to determine if an exercise effect exists when motoneurons are differentiated by type.

serotonin receptor

motoneuron

exercise

physical activity

exercise physiology

neuroscience

molecular biology

The exercise physiology of snapper (Pagrus auratus): implications for the better commercial harvesting of an iconic New Zealand finfish

Coxon, Sarah Elizabeth

January 2014

Worldwide, an increasing demand for fish and fisheries products, together with socioeconomic pressure for industry expansion, is placing considerable pressure on wild fish stocks – more than 80% of which are considered by the Food and Agriculture Organisation of the United Nations (FAO) to be either maximally- or over-exploited. Adding value to the existing catch and/or improving the sustainability of current wild capture methods may offer a means of providing industry growth while negating the need for increased landings. In particular, the peri-mortem condition of a fish plays an integral role in the condition of the tissues post-mortem and hence in product quality, with harvesting techniques that result in stress or fatigue yielding a lower quality product. An understanding of the physiology of the target species and its response to harvest is therefore essential to implementing targeted improvements in harvesting technologies. For species harvested using trawl-based technologies, this includes knowledge of their exercise physiology, in particular their swimming capacity, since this is a key determinant of the interaction between fish and trawl gears, and hence of the nature and severity of stress experienced and of the condition of fish at landing. This thesis describes a series of discrete studies relating to the exercise physiology of juvenile snapper, Pagrus auratus, an iconic New Zealand finfish that comprises important recreational and commercial fisheries. In particular, we sought to characterise the capacity of snapper for sustained swimming activity, including how performance may differ between fish of different size or with environmental temperature; to determine the consequences of exhaustive exercise for both subsequent swimming activity, an important determinant of survival in escaping or discarded catch, and for tissue biochemistry, which ultimately determines product quality in harvested fish; to validate the use of laboratory-based simulations for the study of capture-related stress by comparing the response of laboratory-exercised snapper with commercially caught fish; and to determine the tolerance of snapper to environmental hypoxia, and further, the possible consequences of hypoxia for swimming capacity and for recovery in fish retained for subsequent rested-type harvest. The capacity of snapper for sustained swimming activity was characterised through the use of incremental exercise tests to determine critical swimming speeds, Ucrit. Juvenile snapper (94-107 mm length, 16-157 g mass) demonstrated a strong swimming capacity, with individual fish attaining critical swimming speeds of up to 7.1 body lengths per second (bl s⁻¹). Swimming performance demonstrated an allometric association, with absolute critical speeds increasing with fish size, whilst relative performance favoured smaller fish. The relation was described by the function Ucrit (m s⁻¹) = 0.003412 [length (mm)] + 0.2669. Critical swimming performance also exhibited variation in response to environmental variables. Thermal performance curves were evident in snapper acclimated to 12, 18 and 24 °C, with the suggestion of optimal performance at acclimation temperatures between 18 and 24 °C. Critical swimming performance was also significantly reduced during exposure to ambient oxygen tensions below 80 mmHg; at 40 mmHg, snapper attained only 21% of the critical swimming speeds observed under normoxic (150 mmHg) conditions. In juvenile snapper (~75 g), exhaustive exercise resulted in severe metabolic, acid-base, haematological and hormonal perturbations, the nature of which were similar to those classically demonstrated in other strong-swimming fish species, especially salmonids. These included the depletion of glycogen from within the white muscle (WM) and the concomitant production of lactate, with a resultant lactacidosis of the plasma; recruitment of erythrocytes from the spleen; and the release of cortisol to the plasma. The recovery of these disturbances required 6 hours under laboratory conditions. As the stresses experienced by fish during commercial capture are often considered to be greater than those which can be induced during laboratory-based simulations, it was necessary to investigate whether the magnitude of the perturbations observed in laboratory-exercised snapper were an appropriate model of those of trawl-caught fish. In trawl-caught snapper (1100 g, 38 cm) obtained under commercially-relevant conditions (tow speed ~3.0 knots; duration 2.25-2.75 hours), the magnitude of the perturbations were greater than for laboratory-exercised fish. While the recovery of some metabolites was evident within the first 18 hours post-capture, their recovery was prolonged relative to laboratory-exercised fish; other metabolites, namely muscle glycogen and plasma cortisol, exhibited no signs of recovery. These observations suggest that the response of snapper to exhaustive exercise within the laboratory may underestimate the severity of the response induced by commercial harvest. This is further suggested by post-capture mortality rates of 14%, whereas no mortality was observed following fatigue at Ucrit. Exhaustive exercise also resulted in the impairment of subsequent critical swimming performance. Immediately following fatigue, snapper (85-160 g) were capable of sustained swimming activity at speeds of up to 60-70% Ucrit; however, critical swimming performance was reduced 30%, presumably due to limitations in WM function. There was no suggestion of the recovery of WM function within the first 30 minutes post-fatigue; thereafter, Ucrit was progressively restored, such that snapper were able to repeat their initial swimming performance in a second Ucrit test performed 2 hours after the conclusion of the first. Snapper were moderately tolerant of hypoxia, oxygen-regulating at reduced oxygen tensions (<100 mmHg) by virtue of increased ventilatory rate and stroke volume, with a distinct bradycardia developing at PO₂ below 60 mmHg. Larger snapper appeared to possess a greater hypoxia tolerance than did smaller fish, with Pcrit resolved to 77 in 20 g fish, and 50 mmHg in 150 and 230 g fish. Exposure to moderate hypoxia (60-80 mmHg) during recovery from an exhaustive exercise event constrained MO₂ max to 78% of that of normoxic fish, however did not appear to impede the return of MO₂ to routine levels. The present study is the first to examine in detail the swimming performance of snapper, and the consequences of exhaustive exercise for physiological condition. By understanding the swimming capacities of snapper, it may be possible to refine harvesting practices (i.e. tow speeds) or utilise technologies (i.e. net design) such that the water velocities through the trawl net are within the range at which the fish can swim sustainably, minimising the extent of stress and fatigue experienced by fish, and hence their effects on both quality and survival. The study also demonstrates that whilst snapper experience significant physiological disturbance during commercial harvesting, including significant mortality, some fish demonstrate the potential for metabolic recovery, which may permit their retention in an on-board tank facility for subsequent rested-type harvest. Finally, the present work highlights a number gaps in our understanding of the link between harvesting conditions and fish condition, and makes a number of suggestions for future studies or directions.

Snapper

Pagrus auratus

exercise physiology

swimming performance

Ucrit

temperature

hypoxia

fisheries

The effect of short-term endurance training on 5-HT1A, 5-HT2A and 5-HT2C receptor mRNA levels in rat lumbar motoneurons

Woodrow, Lindsey

12 September 2010

Serotonin receptor subtypes 5-HT1A, 5-HT2A and 5-HT2C are expressed in motoneurons and modulate motoneuron excitability. Serotonergic neurons, which increase their discharge with motor activity, make numerous contacts with motoneurons; however, little is known about the adaptability of motoneuron serotonin receptor expression in response to exercise. The purpose of this study was to determine the effect of a 7-day treadmill exercise protocol on 5-HT1A, 5-HT2A and 5-HT2C receptor mRNA levels in rat lumbar motoneurons. Lumbar motoneurons of exercised and sedentary animals were collected via laser capture microdissection. RNA was isolated from these samples and real-time reverse transcription polymerase chain reactions were performed to determine differences in receptor mRNA levels between exercised and sedentary animals. It appears that 5-HT1A, 5-HT2A and 5-HT2C receptor mRNA levels are unaltered following 7 days of treadmill exercise; however, future research must be done to determine if an exercise effect exists when motoneurons are differentiated by type.

serotonin receptor

motoneuron

exercise

physical activity

exercise physiology

neuroscience

molecular biology

Measurement of activity-related changes in the hand

Massy-Westropp, Nicola

January 2005

The hypothesis underlying this research is that hand activity produces changes in the tissues of the hand which are reflected in the various functions of those tissues. Understanding the effect of hand activity upon hand function would allow occupational therapists to assess the efficacy of therapeutic interventions upon a clients ability to perform hand activity without damage to the tissues of the hand. Such information could assist in the design of safe and sustainable work tasks. The first step towards understanding how activity affects the hand is to measure its effects. The aim of this research is to determine which instruments can measure the effects of activity upon the hand.

Exercise Physiology

Human mechanics,

Occupational therapy,

Rehabilitation