scholarly journals Comparison of anterior knee laxity, stiffness, genu recurvatum, and general joint laxity in the late follicular phase and the ovulatory phase of the menstrual cycle

2021 ◽  
Vol 22 (1) ◽  
Author(s):  
Mayuu Shagawa ◽  
Sae Maruyama ◽  
Chie Sekine ◽  
Hirotake Yokota ◽  
Ryo Hirabayashi ◽  
...  
Keyword(s):  
Risk Factor ◽  
Menstrual Cycle ◽  
Knee Laxity ◽  
Acl Injury ◽  
Follicular Phase ◽  
Joint Laxity ◽  
Anterior Knee Laxity ◽  
Genu Recurvatum ◽  
Anterior Knee ◽  
Late Follicular Phase

Abstract 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 not differ significantly between phases, and GR and GJL were significantly higher in the ovulatory phase than in the late follicular phase (p = 0.011, 0.031). Conclusion These findings suggest that E2 concentrations may affect GR and GJL during the menstrual cycle.

scholarly journals Relationship Between Anterior Knee Laxity and General Joint Laxity During the Menstrual Cycle

2021 ◽  
Vol 9 (3) ◽  
pp. 232596712199304
Author(s):  
Sae Maruyama ◽  
Tomomi Yamazaki ◽  
Yuuki Sato ◽  
Yukako Suzuki ◽  
Sohei Shimizu ◽  
...  
Keyword(s):  
Menstrual Cycle ◽  
Cruciate Ligament ◽  
Knee Laxity ◽  
Acl Injury ◽  
Follicular Phase ◽  
Joint Laxity ◽  
Anterior Knee Laxity ◽  
Significant Difference ◽  
Early Follicular Phase ◽  
Anterior Knee

Background: Anterior cruciate ligament (ACL) injury has been reported to have a higher incidence in women than in men. Purpose/Hypothesis: The purpose was to examine the relationship of anterior knee laxity (AKL), stiffness, and generalized joint laxity (GJL) with respect to the menstrual cycle. It was hypothesized that AKL and GJL would increase during the ovulation phase, when estrogen levels are high. Study Design: Descriptive laboratory study. Methods: A total of 15 female university students aged >20 years and with normal menstrual cycles were evaluated. AKL was measured as anterior tibial displacement of the femur after application of 44-, 89-, and 133-N loads to the tibia. Stiffness was calculated as Δ force/Δ displacement at loads between 44 and 89 N and between 89 and 133 N. The University of Tokyo joint laxity test was used for evaluation of GJL. The participants’ menstrual cycle was divided into the early follicular, late follicular, ovulation, and luteal phases using the basal body temperature method and an ovulation kit; AKL and GJL were measured once during each phase. Participants were also stratified according to the presence or absence of genu recurvatum (GR). Results: There was no significant difference in AKL, stiffness, or GJL among the menstrual phases. In the GR group, AKL values at 89 N and 133 N were significantly higher in the ovulation phase than in the early follicular phase ( P = .025 and P =.018, respectively); there were no significant differences in AKL among the phases in the non-GR group. In addition, the GR group in the ovulation phase had significantly higher AKL values at 44 N, 89 N, and 133 N compared with the non-GR group ( P = .013, P = .005, and P = .010, respectively). There were no significant differences in GJL among the phases in the GR or non-GR groups. Conclusion: Women with GR may have increased AKL in the ovulation phase when compared with the early follicular phase, which may be a risk factor for ACL injury. Clinical Relevance: The results of this study suggest that the ovulation phase may be related to the greater incidence of ACL injuries in women.

scholarly journals A comparison of cyclic variations in anterior knee laxity, genu recurvatum, and general joint laxity across the menstrual cycle

2010 ◽  
Vol 28 (11) ◽  
pp. 1411-1417 ◽  
Author(s):  
Sandra J. Shultz ◽  
Beverly J. Levine ◽  
Anh-Dung Nguyen ◽  
Hyunsoo Kim ◽  
Melissa M. Montgomery ◽  
...  
Keyword(s):  
Menstrual Cycle ◽  
Knee Laxity ◽  
Joint Laxity ◽  
Anterior Knee Laxity ◽  
Genu Recurvatum ◽  
Cyclic Variations ◽  
Anterior Knee

Assessing Laxity Characteristics of Hyperextension Knee in Healthy Young Females Using a Knee Ligament Arthrometer

2007 ◽  
Author(s):  
Hsiu-Chen Lin ◽  
Weng-Hang Lai ◽  
Chia-Ming Chang ◽  
Horng-Chaung Hsu
Keyword(s):  
Female Athletes ◽  
Cruciate Ligament ◽  
Knee Laxity ◽  
Acl Injury ◽  
Male Athletes ◽  
Knee Ligament ◽  
Young Females ◽  
Anterior Knee Laxity ◽  
Anterior Cruciate ◽  
Anterior Knee

Female athletes are more likely to sustain an anterior cruciate ligament (ACL) injury than male athletes. Previous study has showed that female individuals had larger anterior knee laxity than their male counterparts [1]. Researchers have also reported that knee laxity and hyperextension knee were a possible factor contributing to ACL injury [2]. Loudon showed that a person with hyperextension knee, either healthy or ACL-injured, had poorer proprioceptive control. Even more, ACL-injured subjects with hyperextension knee demonstrated a declined function of proprioception feedback loop and the ability to initiate protective reflexes [3].

scholarly journals Clinical Tests Can Be Used to Screen for Second Anterior Cruciate Ligament Injury in Younger Patients Who Return to Sport

2019 ◽  
Vol 7 (8) ◽  
pp. 232596711986300 ◽  
Author(s):  
Kate E. Webster ◽  
Julian A. Feller
Keyword(s):  
Anterior Cruciate Ligament ◽  
Odds Ratio ◽  
Cruciate Ligament ◽  
Return To Sport ◽  
Knee Laxity ◽  
Acl Injury ◽  
Anterior Knee Laxity ◽  
Anterior Cruciate ◽  
Clinical Measures ◽  
Anterior Knee

Background: Younger athletes have high rates of second anterior cruciate ligament (ACL) injury. Return-to-sport criteria have been proposed to enable athletes to make a safe return, but they frequently lack validation. It is unclear whether commonly recorded clinical measures can help to identify high-risk athletes. Purpose: To explore the association between commonly recorded clinical outcome measures and second ACL injury in a young, active patient group. Study Design: Cohort study; Level of evidence, 2. Methods: Included in this study were 329 athletes (200 males, 129 females) younger than 20 years at the time of first primary ACL reconstruction surgery who had subsequently returned to sport participation. Clinical examination included range of knee motion (passive flexion and extension deficits), instrumented anterior knee laxity, and single- and triple-crossover hop for distance. Patients also completed the subjective International Knee Documentation Committee form. All measures were collected prospectively at a 12-month postoperative clinical review. Patients were evaluated for a minimum 3 years to determine the incidence of subsequent ACL injury. Results: A total of 95 patients (29%) sustained a second ACL injury following clinical assessment and return to sport. There were 50 graft ruptures and 45 contralateral ACL injuries. Patients with a flexion deficit of 5° had over 2 times the odds of sustaining a graft rupture (odds ratio, 2.3; P < .05), and patients with a side-to-side difference in anterior knee laxity of 3 mm or greater had over 2 times the odds of sustaining a contralateral ACL injury (odds ratio, 2.4; P < .05). Overall, 29% (94 of 329) of patients met the threshold for satisfactory function on all 6 clinical measures; these patients had a 33% reduction in the risk of sustaining a second ACL injury ( P = .05) as compared with those who did not meet all clinical thresholds. Conclusion: Clinical measures of knee flexion and stability may have utility to screen for and identify patients who are at greater risk for a second ACL injury in an already high-risk group (ie, age and activity level).

Sex Hormones Explain More Variance In Anterior Knee Laxity Across The Menstrual Cycle When A Time Delay Is Considered

2004 ◽  
Vol 36 (Supplement) ◽  
pp. S36
Author(s):  
Sandra J. Shultz ◽  
Michael L. Johnson ◽  
Susan E. Kirk ◽  
Todd C. Sander ◽  
David H. Perrin
Keyword(s):  
Time Delay ◽  
Menstrual Cycle ◽  
Sex Hormones ◽  
Knee Laxity ◽  
Anterior Knee Laxity ◽  
Anterior Knee

scholarly journals Jump-Landing Biomechanics and Knee-Laxity Change Across the Menstrual Cycle in Women With Anterior Cruciate Ligament Reconstruction

2014 ◽  
Vol 49 (2) ◽  
pp. 154-162 ◽  
Author(s):  
David R. Bell ◽  
J. Troy Blackburn ◽  
Anthony C. Hackney ◽  
Stephen W. Marshall ◽  
Anthony I. Beutler ◽  
...  
Keyword(s):  
Menstrual Cycle ◽  
Cruciate Ligament ◽  
Reaction Force ◽  
Knee Laxity ◽  
Acl Injury ◽  
Initial Contact ◽  
Vertical Ground Reaction Force ◽  
Jump Landing ◽  
Anterior Knee Laxity ◽  
Anterior Cruciate

Context: Of the individuals able to return to sport participation after an anterior cruciate ligament(ACL) injury, up to 25% will experience a second ACL injury. This population may be more sensitive to hormonal fluctuations, which may explain this high rate of second injury. Objective: To examine changes in 3-dimensional hip and knee kinematics and kinetics during a jump landing and to examine knee laxity across the menstrual cycle in women with histories of unilateral noncontact ACL injury. Design  Controlled laboratory study. Setting: Laboratory. Patients or Other Participants: A total of 20 women (age = 19.6 ± 1.3 years, height = 168.6 ± 5.3 cm, mass = 66.2 ± 9.1 kg) with unilateral, noncontact ACL injuries. Intervention(s) Participants completed a jump-landing task and knee-laxity assessment 3 to 5 days after the onset of menses and within 3 days of a positive ovulation test. Main Outcome Measure(s): Kinematics in the uninjured limb at initial contact with the ground during a jump landing, peak kinematics and kinetics during the loading phase of landing, anterior knee laxity via the KT-1000, peak vertical ground reaction force, and blood hormone concentrations (estradiol-β-17, progesterone, free testosterone). Results: At ovulation, estradiol-β-17 (t = −2.9, P = .009), progesterone (t = −3.4, P = .003), and anterior knee laxity (t = −2.3, P = .03) increased, and participants presented with greater knee-valgus moment (Z = −2.6, P = .01) and femoral internal rotation (t = −2.1, P = .047). However, during the menses test session, participants landed harder (greater peak vertical ground reaction force; t = 2.2, P = .04), with the tibia internally rotated at initial contact (t = 2.8, P = .01) and greater hip internal-rotation moment (Z = −2.4, P = .02). No other changes were observed across the menstrual cycle. Conclusions Knee and hip mechanics in both phases of the menstrual cycle represented a greater potential risk of ACL loading. Observed changes in landing mechanics may explain why the risk of second ACL injury is elevated in this population.

scholarly journals Anterior knee laxity in young women varies with their menstrual cycle

2002 ◽  
Vol 26 (3) ◽  
pp. 154-156 ◽  
Author(s):  
Masataka Deie ◽  
Yukie Sakamaki ◽  
Yoshio Sumen ◽  
Yukio Urabe ◽  
Yoshikazu Ikuta
Keyword(s):  
Menstrual Cycle ◽  
Young Women ◽  
Knee Laxity ◽  
Anterior Knee Laxity ◽  
Anterior Knee

scholarly journals Relationship between Sex Hormones and Anterior Knee Laxity across the Menstrual Cycle

2004 ◽  
Vol 36 (7) ◽  
pp. 1165-1174 ◽  
Author(s):  
SANDRA J. SHULTZ ◽  
SUSAN E. KIRK ◽  
MICHAEL L. JOHNSON ◽  
TODD C. SANDER ◽  
DAVID H. PERRIN
Keyword(s):  
Menstrual Cycle ◽  
Sex Hormones ◽  
Knee Laxity ◽  
Anterior Knee Laxity ◽  
Anterior Knee

Greater Anterior Knee Laxity and General Joint Laxity Predict Greater Varus-Valgus and Rotation Knee Laxity

2006 ◽  
Vol 38 (Supplement) ◽  
pp. S66
Author(s):  
Sandra J. Shultz ◽  
Yohei Shimokochi ◽  
Anh-Dung Nguyen ◽  
Randy J. Schmitz ◽  
Bruce D. Beynnon ◽  
...  
Keyword(s):  
Knee Laxity ◽  
Joint Laxity ◽  
Anterior Knee Laxity ◽  
Anterior Knee

scholarly journals Association of Anterior Cruciate Ligament Width With Anterior Knee Laxity

2016 ◽  
Vol 51 (6) ◽  
pp. 460-465 ◽  
Author(s):  
Hsin-Min Wang ◽  
Sandra J. Shultz ◽  
Randy J. Schmitz
Keyword(s):  
Anterior Cruciate Ligament ◽  
Cruciate Ligament ◽  
Knee Laxity ◽  
Acl Injury ◽  
Resonance Imaging ◽  
Notch Angle ◽  
Anterior Knee Laxity ◽  
Anterior Cruciate ◽  
Anterior Knee ◽  
Femoral Notch

Context: Greater anterior knee laxity (AKL) has been identified as an anterior cruciate ligament (ACL) injury risk factor. The structural factors that contribute to greater AKL are not fully understood but may include the ACL and bone geometry. Objective: To determine the relationship of ACL width and femoral notch angle to AKL. Design: Cross-sectional study. Setting: Controlled laboratory. Patients or Other Participants: Twenty recreationally active females (age = 21.2 ± 3.1 years, height = 1.66.1 ± 7.3 cm, mass = 66.5 ± 12.0 kg). Main Outcome Measure(s): Anterior cruciate ligament width and femoral notch angle were obtained with magnetic resonance imaging of the knee and AKL was assessed. Anterior cruciate ligament width was measured as the width of a line that transected the ACL and was drawn perpendicular to the Blumensaat line. Femoral notch angle was formed by the intersection of the line parallel to the posterior cortex of the femur and the Blumensaat line. Anterior knee laxity was the anterior displacement of the tibia relative to the femur (mm) at 130 N of an applied force. Ten participants' magnetic resonance imaging data were assessed on 2 occasions to establish intratester reliability and precision. Using stepwise backward linear regression, we examined the extent to which ACL width, femoral notch angle, and weight were associated with AKL. Results: Strong measurement consistency and precision (intraclass correlation coefficient [2,1] ± SEM) were established for ACL width (0.98 ± 0.3 mm) and femoral notch angle (0.97° ± 1.1°). The regression demonstrated that ACL width (5.9 ± 1.4 mm) was negatively associated with AKL (7.2 ± 2.0 mm; R2 = 0.22, P = .04). Femoral notch angle and weight were not retained in the final model. Conclusions: A narrower ACL was associated with greater AKL. This finding may inform the development of ACL injury-prevention programs that include components designed to increase ACL size or strength (or both). Future authors should establish which other factors contribute to greater AKL in order to best inform injury-prevention efforts.

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