17β-Estradiol Induced Effects on Anterior Cruciate Ligament Laxness and Neuromuscular Activation Patterns in Female Runners (original) (raw)
Related papers
The Knee, 2011
It has been suggested that activities of daily living could contribute to the occurrence of ACL injury in females. Currently, no studies have focused on the lower extremity behavior of a non-athletic population to compare or understand the lower extremity adeptness towards daily movements that mimic athletic tasks. Our hypothesis was that increased knee valgus angles would occur during the late follicular phase of the menstrual cycle accompanied by different onset timing of the gluteus medius muscle. In a controlled laboratory study, 23 non-athletic collegiate females participated and 15 subjects comprised the final sample for statistical analysis. Subjects performed a single leg drop landing maneuver while 3-D knee kinematics and gluteus medius muscle onset timing were assessed throughout three distinct phases of the menstrual cycle, confirmed by blood hormone analysis. In general, knee valgus angles were significantly less in the luteal phase compared to both follicular phases (p b 0.005), while differences were not observed for gluteus medius onset timing (p = 0.936). As a decreased knee joint valgus angle was observed during the luteal phase, it was hypothesized that the hormone progesterone could significantly influence knee kinematics during a dynamic task. However, such influence was not observed for gluteus medius EMG onset timing as a significant correlation between gluteus medius onset timing and knee valgus angle could not be determined.
Neuromuscular and biomechanical characteristics do not vary across the menstrual cycle
Knee Surgery, Sports Traumatology, Arthroscopy, 2007
Research examining the menstrual cycle and its relationship to ACL injury has focused on determining the incidence of ACL injury during the different phases of the menstrual cycle and assessing the changes in neuromuscular and biomechanical characteristics between these phases. Conflicting results warrant further investigation to determine if neuromuscular and biomechanical characteristics respond in a similar pattern to the fluctuating estradiol and progesterone. The purpose of this study was to determine if changes in the levels of estradiol and progesterone significantly altered fine motor coordination, postural stability, knee strength, and knee
Clinical Journal of Sport Medicine, 2000
To identify a significant change in the laxity of the anterior cruciate ligament (ACL) in the competitive adolescent female athlete throughout the different phases of the menstrual cycle. Design: Prospective, single-blinded 8-week study set during a winter sports season. Setting: Suburban Ohio Division I high school. Participants: 26 members of gymnastics, soccer, track, tennis, and basketball teams. All participants were screened for normal menstrual cycles (26-30 days, menses 4-7 days long). Main Outcome Measures: KT-1000 arthrometer was used to measure laxity by performing repeated measures throughout an 8-week period. Measurements were taken before the athletes' workouts. The athlete charted the menstrual periods on a monthly calendar. The measurements were then grouped into the three phases of the menstrual cycle (follicular, ovulatory, and luteal) and averaged. Results: Right knee laxity measured 4.98 mm follicular phase, 5.24 mm ovulatory, and 5.09 mm luteal. Left knee laxity measured 4.51 mm follicular, 4.43 mm ovulatory, and 4.62 mm luteal. There was no statistical difference among the three phases in the left (p ס 0.9) and right (p ס 0.7977). Additionally, left ACL laxity was significantly less in all three phases. We found no statistically significant variability in laxity among the five sports sampled (p > 0.63 to 0.10) and different ages (p ס 0.404) Conclusions: We found an insignificant change in ACL laxity from follicular to luteal phases of the menstrual cycle. This indicates that no single phase of the menstrual cycle clinically affects the ACL more than the next. Although the presence of sex hormones-particularly estrogen-may indeed predispose females to higher ACL injury rates, we did not find any evidence that hormonal level changes equate with significant ACL laxity changes. We conclude that the menstrual cycle does not significantly affect ACL laxity in the competitive adolescent female athlete.
Association of Menstrual-Cycle Hormone Changes with Anterior Cruciate Ligament Laxity Measurements
Journal of athletic training, 2003
OBJECTIVE: To determine whether anterior cruciate ligament (ACL) laxity (as evaluated with the KT-2000 and radiographic measures) is associated with concentrations of reproductive hormones during the menstrual cycle and whether the KT-2000 knee arthrometer is a valid measurement technique, compared with radiographic techniques. DESIGN AND SETTING: A within-subjects linear model was used. Venipuncture was conducted in an exercise science laboratory. The KT-2000 and radiographic measurements were performed in a hospital radiology laboratory. SUBJECTS: Twelve females presented with a dominant right leg free of injury. They were mild to moderately active and had a 12-month history of normal menstrual cycles (28-35 days). Subjects had not used hormonal therapy for the previous 3 months. MEASUREMENTS: Subjects were tested at the onset of menses, near ovulation, and on day 23 of the midluteal phase of the menstrual cycle. At each session, 14 mL of blood was obtained by venipuncture. Blood ...
BMC Musculoskeletal Disorders
Background One risk factor for anterior cruciate ligament (ACL) injury may be fluctuations in female hormones. This study examined variability in joint laxity, as a risk factor for ACL injury, during the menstrual cycle. Methods Subjects were 15 female university students with regular menstrual cycles. We measured estradiol (E2) concentration, anterior knee laxity (AKL), stiffness, genu recurvatum (GR), and general joint laxity (GJL) during the late follicular and ovulatory phases. AKL was measured as anterior tibial displacement of the femur after application of 44-, 89-, and 133-N loads on the tibia. Stiffness was calculated as Δforce/Δdisplacement at loads of 44–89 N and between 89 and 133 N. GR was measured prone, with the base of the patella distal to the edge of the bed. The University of Tokyo joint laxity test was used to evaluate GJL. Results E2 concentration was significantly higher in the ovulatory phase than in the late follicular phase (p = 0.018), AKL and stiffness did...
The Menstrual Cycle, Sex Hormones, and Anterior Cruciate Ligament Injury
Journal of athletic training, 2002
OBJECTIVE: To determine if anterior cruciate ligament (ACL) injuries in female athletes occur randomly or correlate with a specific phase of the menstrual cycle. DESIGN AND SETTING: Female athletes who sustained ACL injuries reported the days of their menstrual cycles and provided saliva samples for sex-hormone determination. Salivary sex-hormone profiles were assessed to confirm the self-reported menstrual histories. SUBJECTS: A total of 38 female athletes (20 college, 15 high school, 1 middle school, 2 recreational) with recent ACL injuries participated in the study over a 3-year period. MEASUREMENTS: Athletes with recent ACL injuries completed a questionnaire defining the injury, the last menstrual cycle, prior knee injury, school, and type of birth control used (if any). Each subject provided a 30-cc saliva sample within 72 hours of injury. Saliva samples were placed into sealed containers and frozen at -20 degrees C. We obtained 13 additional control samples from uninjured fema...
The effect of menstrual-cycle phase on hamstring extensibility and muscle stiffness
Journal of sport rehabilitation, 2009
Preventing noncontact ACL injuries has been a major focus of athletic trainers and researchers. One factor that may influence female noncontact ACL injury is the fluctuating concentrations of hormones in the body. To determine whether muscle properties change across the menstrual cycle. Repeated measures. Testing was performed within 3 d after the onset of menses and ovulation. Repeated-measures ANOVAs were used to determine changes in variables across the menstrual cycle, and Pearson correlations were used to determine relationships between variables. 8 women with normal menstrual cycles. Active hamstring stiffness and hamstring extensibility. Hamstring extensibility (P = .003) increased at the ovulation testing session but hamstring muscle stiffness (P = .66) did not. The results indicate that hamstring muscle stiffness did not change across the menstrual cycle and hamstring extensibility increased at ovulation, when estrogen concentration increases.