L H Lathinghouse1, M H Trimble. 1. Division of Health Services, Gulf Coast Community College, Panama City, Fla, USA.
Abstract
STUDY DESIGN: Single-group test-retest design with correlation analysis. OBJECTIVES: (1) To confirm that the Q-angle decreases with isometric quadriceps activation (IQA), (2) to determine if the decrease in the Q-angle with IQA is related to the magnitude of the Q-angle at rest, and (3) to determine if a vigorous bout of exercise affects the change in the Q-angle with IQA. BACKGROUND: The Q-angle represents an estimate of the resultant force of the quadriceps on the patella and is a predictor of lateral movement of the patella under dynamic conditions. METHODS AND MEASURES: Q-angles were assessed in 22 nonimpaired women (mean +/- SD age, 22.3 +/- 4.9 years) while standing relaxed and during IQA. Subjects then rode a cycle ergometer until a preset number of repetitions per minute was unable to be maintained. Q-angles were again assessed while subjects were relaxed and during IQA. RESULTS: There was a significant decrease (mean +/- SD, 5.7 +/- 4.2 degrees) in the Q-angle with IQA compared with relaxed standing. There was a significant relationship (r=0.72) between the Q-angle at rest and the change with IQA. The cycle ergometer exercise resulted in a small (0.5 degrees) but significantly greater decrease in the Q-angle with IQA compared with relaxed standing. CONCLUSIONS: The Q-angle decreases with IQA, and the magnitude of this decrease is dependent on the magnitude of the Q-angle at rest. Our findings support the view that an excessive Q-angle may predispose women to greater lateral displacement of the patella during vigorous activities and sports in which the quadriceps muscle is stressed.
STUDY DESIGN: Single-group test-retest design with correlation analysis. OBJECTIVES: (1) To confirm that the Q-angle decreases with isometric quadriceps activation (IQA), (2) to determine if the decrease in the Q-angle with IQA is related to the magnitude of the Q-angle at rest, and (3) to determine if a vigorous bout of exercise affects the change in the Q-angle with IQA. BACKGROUND: The Q-angle represents an estimate of the resultant force of the quadriceps on the patella and is a predictor of lateral movement of the patella under dynamic conditions. METHODS AND MEASURES: Q-angles were assessed in 22 nonimpaired women (mean +/- SD age, 22.3 +/- 4.9 years) while standing relaxed and during IQA. Subjects then rode a cycle ergometer until a preset number of repetitions per minute was unable to be maintained. Q-angles were again assessed while subjects were relaxed and during IQA. RESULTS: There was a significant decrease (mean +/- SD, 5.7 +/- 4.2 degrees) in the Q-angle with IQA compared with relaxed standing. There was a significant relationship (r=0.72) between the Q-angle at rest and the change with IQA. The cycle ergometer exercise resulted in a small (0.5 degrees) but significantly greater decrease in the Q-angle with IQA compared with relaxed standing. CONCLUSIONS: The Q-angle decreases with IQA, and the magnitude of this decrease is dependent on the magnitude of the Q-angle at rest. Our findings support the view that an excessive Q-angle may predispose women to greater lateral displacement of the patella during vigorous activities and sports in which the quadriceps muscle is stressed.
Authors: Hugo Machado Sanchez; Eliane Gouveia de Morais Sanchez; Mario Antonio Baraúna; Roberto Sérgio de Tavares Canto Journal: Acta Ortop Bras Date: 2014 Impact factor: 0.513