Your search keyword '"Hackney, Anthony C"' showing total 4 results

1. Effect of Menstrual Cycle Phase on Perceived Exertion During Aerobic Exercise in Eumenorrheic Women: A Systematic Review and Meta-analysis.

Author

Ramos Prado, Raul Cosme, Hackney, Anthony C., Silveira, Rodrigo, Kilpatrick, Marcus W., Monica Yuri Takito, and Ricardo Yukio Asano

Subjects

SALIVA analysis, EXERCISE physiology, PROGESTERONE, SELF-evaluation, EXERCISE, SPORTS, RESEARCH funding, BLOOD testing, LUTEAL phase, META-analysis, DESCRIPTIVE statistics, ESTROGEN, INFORMATION storage & retrieval systems, SYSTEMATIC reviews, MEDLINE, MENSTRUAL cycle, AEROBIC exercises, URINALYSIS, DATA analysis software, ONLINE information services, PSYCHOLOGY information storage & retrieval systems, PHYSICAL activity

Published

2024

2. Trunk and Lower Extremity Movement Patterns, Stress Fracture Risk Factors, and Biomarkers of Bone Turnover in Military Trainees.

Author

Mauntel, Timothy C., Marshall, Stephen W., Hackney, Anthony C., Pietrosimone, Brian G., Cameron, Kenneth L., Peck, Karen Y., Trump, Jesse R., and Padua, Darin A.

Subjects

BONE remodeling, BIOMARKERS, BIOMECHANICS, COLLAGEN, CONFIDENCE intervals, ENZYME-linked immunosorbent assay, LEG, MILITARY education, PHYSICAL fitness, QUESTIONNAIRES, REGRESSION analysis, RISK assessment, STATISTICAL sampling, MILITARY personnel, STRESS fractures (Orthopedics), MULTIPLE regression analysis, TORSO, BODY movement, CROSS-sectional method, MOTION capture (Human mechanics), PHYSICAL activity, DATA analysis software, DESCRIPTIVE statistics, DISEASE risk factors

Abstract

Context: Military service members commonly sustain lower extremity stress fractures (SFx). How SFx risk factors influence bone metabolism is unknown. Understanding how SFx risk factors influence bone metabolism may help to optimize risk-mitigation strategies. Objective: To determine how SFx risk factors influence bone metabolism. Design: Cross-sectional study. Setting: Military service academy. Patients or other participants: Forty-five men (agepre = 18.56 ± 1.39 years, heightpre = 176.95 ± 7.29 cm, masspre = 77.20 ± 9.40 kg; body mass indexpre = 24.68 ± 2.87) who completed Cadet Basic Training (CBT). Individuals with neurologic or metabolic disorders were excluded. Intervention(s): We assessed SFx risk factors (independent variables) with (1) the Landing Error Scoring System (LESS), (2) self-reported injury and physical activity questionnaires, and (3) physical fitness tests. We assessed bone biomarkers (dependent variables; procollagen type I amino-terminal propeptide [PINP] and cross-linked collagen telopeptide [CTx-1]) via serum. Main outcome measure(s): A markerless motion-capture system was used to analyze trunk and lower extremity biomechanics via the LESS. Serum samples were collected post-CBT; enzyme-linked immunosorbent assays determined PINP and CTx-1 concentrations, and PINP : CTx-1 ratios were calculated. Linear regression models demonstrated associations between SFx risk factors and PINP and CTx-1 concentrations and PINP : CTx-1 ratio. Biomarker concentration mean differences with 95% confidence intervals were calculated. Significance was set a priori using α ≤ .10 for simple and α ≤ .05 for multiple regression analyses. Results: The multiple regression models incorporating LESS and SFx risk factor data predicted the PINP concentration (R2 = 0.47, P = .02) and PINP : CTx-1 ratio (R2 = 0.66, P = .01). The PINP concentration was increased by foot internal rotation, trunk flexion, CBT injury, sit-up score, and pre- to post-CBT mass changes. The CTx-1 concentration was increased by heel-to-toe landing and post-CBT mass. The PINP : CTx-1 ratio was increased by foot internal rotation, lower extremity sagittal-plane displacement (inversely), CBT injury, sit-up score, and pre- to post-CBT mass changes. Conclusions: Stress fracture risk factors accounted for 66% of the PINP : CTx-1 ratio variability, a potential surrogate for bone health. Our findings provide insight into how SFx risk factors influence bone health. This information can help guide SFx risk-mitigation strategies. [ABSTRACT FROM AUTHOR]

Published

2020

3. Body Mass Index and Type 2 Collagen Turnover in Individuals After Anterior Cruciate Ligament Reconstruction.

Author

Lane, Amy R., Harkey, Matthew S., Davis, Hope C., Luc-Harkey, Brittney A., Stanley, Laura, Hackney, Anthony C., Blackburn, J. Troy, and Pietrosimone, Brian

Subjects

OSTEOARTHRITIS, ANTERIOR cruciate ligament surgery, BODY composition, COLLAGEN, CONFIDENCE intervals, SERUM, SEX distribution, BODY mass index, CROSS-sectional method, PHYSICAL activity, DATA analysis software, DESCRIPTIVE statistics, METABOLISM, PREVENTION

Abstract

Context: Individuals with an anterior cruciate ligament reconstruction (ACLR) are at an increased risk of developing posttraumatic osteoarthritis. How osteoarthritis risk factors, such as increased body mass index (BMI), may influence early changes in joint tissue metabolism is unknown. Objective: To determine the association between BMI and type 2 cartilage turnover in individuals with an ACLR. Design: Cross-sectional study. Setting: Research laboratory. Patients or Other Participants: Forty-five individuals (31 women, 14 men) with unilateral ACLR at least 6 months earlier who were cleared for unrestricted physical activity. Main Outcome Measure(s): Body mass index (kg/m²) and type 2 collagen turnover were the primary outcomes. Body mass index was calculated from objectively measured height and mass. Serum was obtained to measure type 2 collagen turnover, quantified as the ratio of degradation (collagen type 2 cleavage product [C2C]) to synthesis (collagen type 2 C-propeptide [CP2]; C2C : CP2). Covariate measures were physical activity level before ACLR (Tegner score) and current level of disability (International Knee Documentation Committee Index score). Associations of primary outcomes were analyzed for the group as a whole and then separately for males and females. Results: Overall, greater BMI was associated with greater C2C : CP2 (r = 0.32, P = .030). After controlling for covariates (Tegner and International Knee Documentation Committee Index scores), we identified a similar association between BMI and C2C: CP2 (partial r = 0.42, P = .009). Among women, greater BMI was associated with greater C2C : CP2 before (r = 0.47, P=.008) and after (partial r=0.50, P=.008) controlling for covariates. No such association occurred in men. Conclusions: Greater BMI may influence greater type 2 collagen turnover in those with ACLR. Individuals, especially women, who maintain or reduce BMI may be less likely to demonstrate greater type 2 collagen turnover ratios after ACLR. [ABSTRACT FROM AUTHOR]

Published

2019

4. Physical Activity Associates with T1rho MRI of Femoral Cartilage After Anterior Cruciate Ligament Reconstruction.

Author

DAVIS-WILSON, HOPE C., THOMA, LOUISE M., FRANZ, JASON R., BLACKBURN, J. TROY, LONGOBARDI, LARA, SCHWARTZ, TODD A., HACKNEY, ANTHONY C., and PIETROSIMONE, BRIAN

Subjects

*CARTILAGE, *KNEE osteoarthritis, *KNEE joint, *GAIT in humans, *TIME, *MAGNETIC resonance imaging, *REGRESSION analysis, *ACCELEROMETERS, *PHYSICAL activity, *FEMORAL artery, *GLYCOPROTEINS, *DESCRIPTIVE statistics, *RESEARCH funding, *ANTERIOR cruciate ligament surgery, *ARTICULAR cartilage injuries

Abstract

Purpose: Less physical activity has been associated with systemic biomarkers of cartilage breakdown after anterior cruciate ligament reconstruction (ACLR). However, previous research lacks analysis of deleterious cartilage compositional changes and objective physical activity after ACLR. The purpose of this study was to determine the association between physical activity quantified via accelerometer-based measures of daily steps and time in moderate-to-vigorous physical activity (MVPA), and T1rho magnetic resonance imaging (MRI) of the femoral articular cartilage, a marker of proteoglycan density in individuals with ACLR. Methods: Daily steps and MVPA were assessed over 7 d using an accelerometer worn on the hip in 26 individuals between 6 and 12 months after primary unilateral ACLR. Resting T1rho MRI was collected bilaterally, and T1rho MRI interlimb ratios (ILR: ACLR limb/contralateral limb) were calculated for lateral and medial femoral condyle regions of interest. We conducted univariate linear regression analyses to determine associations between T1rho MRI ILRs and daily steps and MVPA with and without controlling for sex. Results: Greater T1rho MRI ILR of the central lateral femoral condyle, indicative of less proteoglycan density in the ACLR limb, was associated with greater time in MVPA (R 2 = 0.178, P = 0.032). Sex-adjusted models showed significant interaction terms between daily steps and sex in the anterior (P = 0.025), central (P = 0.002), and posterior (P = 0.002) medial femoral condyle. Conclusions: Lesser physical activity may be a risk factor for maintaining cartilage health after ACLR; additionally, the relationship between physical activity and cartilage health may be different between males and females. [ABSTRACT FROM AUTHOR]

Published

2024