The purpose of this study is to provide information regarding the number of consulting positions offered by NCAA Division I universities. Questionnaires were administered to 115 NCAA Division I universities. An 84% return rate was achieved, totaling 96 universities. It was determined that 51 (53%) of the university athletic departments in the sample used some form of sport psychology consulting, whereas 45 (47%) departments reportedly did not use the services of a sport psychology consultant. Frequency reports of those questionnaires from universities who used sport psychology consulting services indicated 10 different sport psychology consultant positions; the most often used consultant positions consisted of the part-time consultants hired by individual sport programs (n = 19, 37%), followed by part-time consultants hired by the athletic departments (n = 10, 20%), then full-time consultants hired by the athletic departments (n = 7, 14%). Also reported are the reasons some athletic departments did not use the services of a sport psychology consultant.
Mike Voight and John Callaghan
Bhupinder Singh, Thomas D. Brown, John J. Callaghan and H. John Yack
During seated forward reaching tasks in obese individuals, excessive abdominal tissue can come into contact with the anterior thigh. This soft tissue apposition acts as a mechanical restriction, altering functional biomechanics at the hip, and causing difficulty in certain daily activities such as bending down, or picking up objects from the floor. The purpose of the study was to investigate the contact forces and associated moments exerted by the abdomen on the thigh during seated forward-reaching tasks in adult obese individuals. Ten healthy subjects (age 58.1 ± 4.4) with elevated BMI (39.04 ± 5.02) participated in the study. Contact pressures between the abdomen and thigh were measured using a Tekscan Conformat pressure-mapping sensor during forward-reaching tasks. Kinematic and force plate data were obtained using an infrared motion capture system. The mean abdomen-thigh contact force was 10.17 ± 5.18% of body weight, ranging from 57.8 N to 200 N. Net extensor moment at the hip decreased by mean 16.5 ± 6.44% after accounting for the moment generated by abdomen-thigh tissue contact. In obese individuals, abdomen-thigh contact decreases the net moment at the hip joint during seated forward-reaching activities. This phenomenon should be taken into consideration for accurate biomechanical modeling in these individuals.