Sticks and stones may break my bones but rap can never hurt me: McLyte's Portrayal of African-american images of women in the hip hop culture

Bobbitt, Sivi Kenyatta

01 December 2008

This thesis examines the definition and redefinition of women's images through the music of MC Lyte. My research demonstrates how MC Lyte has emerged from the male-dominated Hip Hop demoralization of women and how MC Lyte uses her music and media to empower young females. This thesis explores the history of Hip Hop and culture, and how MC Lyte has evolved and changed the way women are seen in Hip Hop. The objective of this thesis is to examine MC Lyte and how her music evolved and empowered females in Hip Hop music. This research uses scholarly works of Clenora Hudson Weems (1993). African Womanist, Gwendolyn Pough's (2004) Check it While I Wreck It, as well as the input of Tricia Rose's (1 994) Black Noise Rap Music and Black Culture in Contemporary America. These scholarly works, not only delve into the Hip Hop world, but also the issues that plague women, feminism, and the African- American movement. This thesis analyzes lyrics from MC Lyte as a tool to clearly see the struggles and progressions that women have endured within the Hip Hop culture. It is the intent of the researcher to show how black womanhood has been defined and redefined as it emerges in black Hip Hop music and to appreciate the unity of the black female voice through the music of MC Lyte. This paper shows positive and negative attributes of black women in Hip Hop and how they responded to these attributes. This is important because it expresses how the female artists have found a way to communicate their feeling in regards to how they are viewed by larger society, and its affects. They have chosen to identify themselves with and by their music.

Hip hop Culture

Arts and Humanities

A comparison of three mobilization methods to increase and retain flexibility of hip joint extensors

Gibbons, Kevin Terrill

January 1980

No description available.

Hip joint -- Testing.

Muscles -- Motility.

The effect of limited hip mobility on the lumbar spine in a young adult population

Moreside, Janice Marie

24 August 2010

Limited hip mobility is known to affect the lumbar spine. Much of the previous research has utilized a participant population whose hip mobility is compromised due to arthritic or neurological dysfunctions. Such aetiologies may confound the outcomes, as their effects may not be limited to the hip. The purpose of this thesis was to recruit a healthy young adult population with limited hip mobility to further investigate its effect on the lumbar spine, as well as the role of exercise intervention. Several cascading studies were conducted that were unified around a central theme of links between hip and spine function: Study # 1 investigated the normal distribution of passive hip extension and rotation in a group of 77 males (age 19-30). Data was collected using an infra-red motion capture system and compared to goniometric measurements. The resulting angles represent the 5th – 95th percentiles, including the averages and standard deviations. Study # 2 compared movement patterns between groups of males with limited and excessive hip mobility. Participants were required to perform simple functional activities (lunging, twisting, walking, etc) as well as use the elliptical trainer. Resulting hip and spine angles demonstrated that the men with limited hip mobility stood with a more anteriorly tilted pelvis, and assumed a posture with more lumbar and hip flexion on the elliptical trainer, compared to those with greater mobility. This, in turn, resulted in a greater lumbar compression load due to increased back muscle activity. Study #3 involved recruitment of 24 young adult males with limited hip mobility. Their movement patterns were assessed (as in study #2), then they were assigned to one of four intervention groups: hip stretching, spine stabilizing, hip stretching combined with spine stabilization, and control. Participants in the 3 exercise groups attended supervised exercise sessions once/week for 6 weeks, but were expected to exercise a minimum of 4 times/week on their own. At the end of the 6 weeks, intake parameters were re-assessed, and movement pattern assessment repeated. Despite significant increases in available hip flexibility and/or large increases in trunk muscle endurance and trunk motor control, there were few indications that participants were any more adept at decreasing lumbar motion, or utilizing their newfound hip flexibility during functional activities. Study #4 compared those in the 10th and 90th percentiles of available hip rotation, using a frictionless apparatus to investigate passive stiffness properties of the hip. Participants adopted a posture of upright standing, with one leg supported on a turntable apparatus, and upper body and pelvis secured. A an applied rotational moment resulted in passive hip internal and external rotation. Outcomes demonstrate that those with limited hip mobility stand with the leg more externally rotated and require a larger moment to initiate motion. Passive stiffness curves indicate greater stiffness properties in those with limited hip mobility, and more resistance to an external rotation moment than internal rotation. Study #5 investigated passive hip stiffness in the sagittal plane, comparing those with limited and excessive hip extension. Using a frictionless jig, with the participants lying on their left side, the left hip was pulled into extension with knee position varying. Those with limited hip mobility demonstrated increased passive stiffness compared to the more mobile group, and stiffness was greater when the knee was in extension. The group with limited mobility also showed a trend of increased back extension compared to the more mobile group, when the hip and lumbar spine were both free to react to the applied extension moment. Study #6 summarizes the spine/hip kinematics and muscle activation levels produced when using the elliptical trainer, as well as lumbar compressive and shear forces. It differs significantly from walking in that it produces more lumbar motion in flexion/extension and lumbar twist, but less lateral bend. Participants also tended to adopt a greater mean lumbar flexion angle on the elliptical, which in turn resulted in greater muscle activity in the back extensors. Varying hand position, velocity and stride length were all found to significantly affect the amount of lumbar motion. Highly phasic muscle activity is seen, with the gluteal muscles and internal obliques demonstrating the greatest activation levels.

hip mobility

lumbar spine

Kinesiology

An analysis of the femoral head/stem taper lock for orthopaedic prostheses

Schumacher, Brian

12 1900

No description available.

Artificial joints

Hip joint Surgery

Decreasing Error in Functional Hip Joint Center Calculation using Ultrasound Imaging

Upadhyaya, Swati

16 September 2013

The hip joint center (HJC) is needed for calculation of hip kinematics in various applications. In the functional method, the center is determined by moving femur with respect to acetabulum. A popular way for measuring this movement is through an optical motion capture system. This method is fast and economical for most applications where we require an instant HJC even though the reconstruction error in bone position calculation exists due to skin artifact. This error is caused by movement of markers placed on skin rather than on actual bone. Here we introduce ultrasound imaging as an additional modality to measure the change in soft tissue thickness above bone while hip is flexed. We use this information on the tissue thickness change to recalculate position of markers placed on skin to match the movement of bone. A good advantage of using ultrasound machine is its non-invasiveness. We calculated HJC using a symmetric center of rotation estimation (SCoRE) algorithm, which uses the concept of coordinate transformation on 3D marker position data. The algorithm gives the 3D position of two centers, one for each hip bone. The distance between these two centers (SCoRE residual) gives us a hint on the accuracy of the HJC calculation and has been proved to be proportional to the error with respect to actual center in previous studies. These two centers should ideally coincide as they collectively form a spherical joint. Our new algorithm for HJC calculation with tissue thickness compensation, measured using ultrasound imaging shows the error has been reduced from 9.13 mm to 4.87 mm

Functional Hip Joint Center

Ultrasound

Can Altering Hip Joint Fluid Volume and Intra-Capsular Pressure Influence Muscle Activation Patterns? Neuromuscular Implications on Clinical Practice

Freeman, Stephanie

January 2011

Although the integrated relationship that exists between the lumbar spine and hip joints is frequently acknowledged in scientific journals and by medical professionals, specific functional and injury relationships, are speculative and have not been substantiated. Lumbar spine and hip dysfunctions are suspected to be associated with inhibition of the surrounding extensor musculature, particularly the gluteal muscles, and facilitation of the flexor musculature. This phenomenon has been observed in other joints following effusion and is often termed ‘arthrogenic inhibition’. Its apparent occurrence about the hip has never been validated. The primary objective of this thesis was to investigate whether arthrogenic inhibition occurred about the hip. If inhibition was found to exist, its relationship with volume vs pressure was investigated to determine if either of these factors were a more appropriate predictor of inhibition. Finally, compensatory motor patterns in response to apparent inhibition were of interest. Participants were allocated to the following groups: 1) Control 2) Intervention I (magnetic resonance arthrogram) or 3) Intervention II (therapeutic arthrogram). Electromyography was collected on the rectus abdominis, erector spinae, gluteus maximus and semimenbranosis bilaterally during hip rehabilitation exercises prior to and following the intervention. Intra-capsular pressure was measured during the intervention. The findings provided support for the presence of extensor-inhibition in the hip following infusion of intra-articular fluid with intra-capsular pressure being the most appropriate predictor of the magnitude of inhibition. Hip extensor inhibition appeared to be compensated for by lumbar spine extensors during the selected tasks. Arthrogenic inhibition should be considered in the clinical evaluation and management of patients with hip joint effusions and/or elevated intra-capsular pressure.

neurological inhibition

hip musculature

Kinesiology

A comparison of different iliotibial band stretch techniques on range of motion

Dennett, Christopher P.

January 2006

Thesis (M.S.)--Springfield College, 2006. / Includes bibliographical references. Also available online (PDF file) by a subscription to the set or by purchasing the individual file.

Stretching exercises. Hip joint Joints

A comparison of different iliotibial band stretch techniques on range of motion

Dennett, Christopher P.

January 2006

Thesis (M.S.)--Springfield College, 2006. / Includes bibliographical references.

Stretching exercises. Hip joint Joints

Hips at risk osteoporosis and prevention of hip fractures /

Ekman, Anna,

January 1900

Diss. (sammanfattning) Uppsala : Univ., 2001. / Härtill 5 uppsatser.

Resorbable bone cement for augmentation of hip fracture /

Mattsson, Per,

January 2005

Diss. (sammanfattning) Uppsala : Uppsala universitet, 2005. / Härtill 6 uppsatser.

Hip Fractures. Norian SRS Cement.