Outcomes of Blood Flow Restriction Training After ACL Reconstruction in NCAA Division I Athletes.

Background: Blood flow restriction training (BFRT) is a safe and potentially effective adjunctive therapeutic modality for postoperative rehabilitation related to various knee pathologies. However, there is a paucity of literature surrounding BFRT in high-performance athletes after anterior cruciate ligament reconstruction (ACLR). Purpose: To (1) compare the overall time to return to sports (RTS) in a cohort of National Collegiate Athletic Association (NCAA) Division I athletes who underwent a standardized rehabilitation program either with or without BFRT after ACLR and (2) identify a postoperative time interval for which BFRT has the maximum therapeutic benefit. Study Design: Cohort study; Level of evidence, 3. Methods: A total of 55 student-athletes who underwent ACLR between 2000 and 2023 while participating in NCAA Division I sports at a single institution were included in this study. Athletes were allocated to 1 of 2 groups based on whether they participated in a standardized postoperative rehabilitation program augmented with BFRT (BFRT group; n = 22) or completed the standardized protocol alone (non-BFRT group [control]; n = 33). Our primary outcome measure was time to RTS. The secondary outcome measure was handheld dynamometry quadriceps strength testing at various postoperative time points, converted to a limb symmetry index (LSI). Quadriceps strength was not tested between the BFRT and non-BFRT groups because of the limited amount of data on the control group. Results: The mean age at the date of surgery was 18.59 ± 1.10 years for the BFRT group and 19.45 ± 1.30 years for the non-BFRT group (P = .011), and the mean RTS time was 409 ± 134 days from surgery for the BFRT group and 332 ± 100 days for the non-BFRT cohort (P = .047). For the BFRT group, the mean quadriceps strength LSI increased by 0.67% (95% CI, 0.53%-0.81%) for every week of rehabilitation, and there was a significantly positive rate of change in quadriceps strength in weeks 13-16 compared with weeks 9-12 (ΔLSI, 8.22%; P < .001). Conclusion: In elite NCAA Division I athletes, a statistically significant delay was observed in RTS with BFRT compared with standardized physical therapy alone after undergoing ACLR. There also appeared to be an early window during the rehabilitation period where BFRT had a beneficial impact on quadriceps strength.

Baseline Sleep Characteristics in NCAA Division I Collegiate Athletes.

OBJECTIVE: The authors report no conflicts of interest.To determine baseline sleep characteristics of male/female student-athletes across multiple sports using objective and subjective measures. DESIGN: Prospective study. SETTING: Division I college. PARTICIPANTS: Eighty-two male and female Division I student-athletes. INTERVENTIONS: Participants completed 2 validated sleep questionnaires (Epworth Sleepiness Scale [ESS] and Single-Item Sleep Quality Scale [SISQS]) to assess subjective sleep. They also wore a validated sleep monitoring device (WHOOP 4.0 band) for at least 14 nights to collect objective data on total sleep time (TST) and sleep architecture. MAIN OUTCOME MEASURES: Overnight sleep variables, including TST, time spent awake in bed after falling asleep, time spent in light sleep, rapid eye movement (REM) sleep, and slow-wave sleep (SWS) cycles. Sleep quality and daytime sleepiness were also assessed. RESULTS: There were no statistical differences between male and female student-athletes in average TST, sleep architecture, sleep consistency, SISQS, and ESS scores. The average TST was 409.2 ± 36.3 minutes. Sleep architecture consisted of 25.6% REM, 19.9% SWS, and 54.4% light sleep. The average sleep consistency was 61.6% ± 8.9%. The average SISQS score was 6.48 ± 1.71, and the average ESS score was 7.57 ± 3.82. A significant difference was found in average wake time between males and females (55.0 vs 43.7 min, P = 0.020), with an overall average of 50.2 ± 16.2 minutes. CONCLUSIONS: College student-athletes do not typically obtain the recommended amount of sleep. Optimizing sleep can positively affect academic and athletic performance.

Multiple Concussions Increase Odds and Rate of Lower Extremity Injury in National Collegiate Athletic Association Athletes After Return to Play.

BACKGROUND: Concussion in collegiate athletics is one of the most prevalent sport-related injuries in the United States, with recent studies suggesting persistent deficits in neuromuscular control after a concussion and an associated increase in risk of lower extremity injury. PURPOSE: To expand on the relationship between concussion and lower extremity injury by examining the effect of multiple concussions (MC) on rate and odds of future lower extremity injury in collegiate athletes after return to play (RTP) compared with matched controls. STUDY DESIGN: Cohort study; Level of evidence, 3. METHODS: From 2001 to 2016, 48 National Collegiate Athletic Association Division I athletes sustaining multiple concussions at a single institution were identified. Athletes with multiple concussions (MC) were matched directly to athletes with a single concussion (SC) and to athletes with no concussion history (NC) by sex, sport, position, and games played. Incidence of, time to, and location of lower extremity injury were recorded for each group after RTP from their first reported concussion until completion of their collegiate career. Logistic regression was used to analyze odds ratios (ORs) for sustaining lower extremity injury, whereas time to injury was summarized by use of Kaplan-Meier curves and log rank test analysis. RESULTS: The incidence of lower extremity injury after RTP was significantly greater (P = .049) in the MC cohort (36/48, 75%) than in SC athletes (25/48 = 52%) and NC athletes (27/48 = 56%). Similarly, odds of lower extremity injury were significantly greater in the MC cohort than in SC athletes (OR, 3.00; 95% CI, 1.26-7.12; P = .01) and NC athletes (OR, 1.66; 95% CI, 1.07-2.56; P = .02). Time to lower extremity injury was significantly shorter in the MC group compared with matched controls (P = .01). No difference was found in odds of lower extremity injury or time to lower extremity injury between SC and NC athletes. CONCLUSION: Collegiate athletes with MC were more likely to sustain a lower extremity injury after RTP in a shorter time frame than were the matched SC and NC athletes. This may suggest the presence of a cohort more susceptible to neuromuscular deficits after concussion or more injury prone due to player behavior, and it may imply the need for more stringent RTP protocols for athletes experiencing MC.

The impact of prior upper-extremity surgery on orthopedic injury and surgery in collegiate athletes.

BACKGROUND: The influence of prior upper-extremity (UE) surgery on a collegiate athletic career is poorly understood. This study aimed to investigate the impact of prior UE surgery on participation, injury, and surgery rates in collegiate athletes. METHODS: Division I athletes who commenced collegiate athletics from 2003-2009 were retrospectively identified. Pre-participation evaluation forms were queried for the history of pre-collegiate UE surgery. Data on sport played, seasons played, injuries, days missed, and orthopedic imaging and surgical procedures were collected through athletic and medical records and compared with those of athletes without prior UE surgery. Subgroup analysis was performed for shoulder surgery, elbow surgery, and wrist and/or hand surgery. RESULTS: Between 2003 and 2009, 1145 athletes completed pre-participation evaluations. Of these athletes, 77 (6.7%) underwent at least 1 pre-collegiate UE surgical procedure. Prior UE surgery was most common in men's water polo (15.0%), baseball (14.9%), and football (12.6%). The UE surgery group had a higher rate of collegiate UE injury (hazard ratio, 4.127; P < .01) and missed more days per season because of UE injury (16.5 days vs. 6.7 days, P = .03) than controls. Athletes with prior shoulder surgery (n = 20) also experienced more UE injuries compared with controls (hazard ratio, 15,083; P = .02). They missed more days per season (77.5 days vs. 29.8 days, P < .01), underwent more magnetic resonance imaging scans (0.96 vs. 0.40, P < .01), and underwent more orthopedic surgical procedures per season (0.23 vs. 0.08, P < .01). The elbow subgroup and wrist and/or hand subgroup were comparable with controls on all measures. CONCLUSIONS: Collegiate athletes with prior shoulder surgery missed more days and underwent more magnetic resonance imaging scans and surgical procedures in college, whereas those with prior elbow surgical procedures and wrist and/or hand surgical procedures were comparable with controls.

Lower Quarter Y-Balance Test Scores and Lower Extremity Injury in NCAA Division I Athletes.

BACKGROUND: Functional movement tests that are predictive of injury risk in National Collegiate Athletic Association (NCAA) athletes are useful tools for sports medicine professionals. The Lower Quarter Y-Balance Test (YBT-LQ) measures single-leg balance and reach distances in 3 directions. PURPOSE: To assess whether the YBT-LQ predicts the laterality and risk of sports-related lower extremity (LE) injury in NCAA athletes. STUDY DESIGN: Case-control study; Level of evidence, 3. METHODS: The YBT-LQ was administered to 294 NCAA Division I athletes from 21 sports during preparticipation physical examinations at a single institution. Athletes were followed prospectively over the course of the corresponding season. Correlation analysis was performed between the laterality of reach asymmetry and composite scores (CS) versus the laterality of injury. Receiver operating characteristic (ROC) analysis was used to determine the optimal asymmetry cutoff score for YBT-LQ. A multivariate regression analysis adjusting for sex, sport type, body mass index, and history of prior LE surgery was performed to assess predictors of earlier and higher rates of injury. RESULTS: Neither the laterality of reach asymmetry nor the CS correlated with the laterality of injury. ROC analysis found optimal cutoff scores of 2, 9, and 3 cm for anterior, posteromedial, and posterolateral reach, respectively. All of these potential cutoff scores, along with a cutoff score of 4 cm used in the majority of prior studies, were associated with poor sensitivity and specificity. Furthermore, none of the asymmetric cutoff scores were associated with earlier or increased rate of injury in the multivariate analyses. CONCLUSION: YBT-LQ scores alone do not predict LE injury in this collegiate athlete population. Sports medicine professionals should be cautioned against using the YBT-LQ alone to screen for injury risk in collegiate athletes.

Precollegiate Knee Surgery Predicts Subsequent Injury Requiring Surgery in NCAA Athletes.

BACKGROUND: The effect of precollegiate orthopaedic surgery on injury risk in the elite collegiate athlete is unknown. PURPOSE: To (1) assess the relationship between precollegiate surgery and subsequent injury requiring surgery in National Collegiate Athletic Association (NCAA) Division I athletes at a single institution and (2) compare the risk of subsequent surgery in the ipsilateral versus contralateral extremity in those with a history of precollegiate surgery. STUDY DESIGN: Cohort study; Level of evidence, 3. METHODS: A retrospective chart review was performed of all athletes who began participation from 2003 to 2009 until completion of eligibility. Athletes who received orthopaedic surgery in college were identified through the Sports Injury Monitoring System and were cross-referenced with medical records. The risk of orthopaedic surgery was evaluated using multivariate Cox and Poisson regression models, with sex and sport as additional covariates. Risk of subsequent surgery in the ipsilateral versus contralateral extremity was compared using Kaplan-Meier survival estimates and Cox proportional hazards regression. Hazard ratios (HRs) and rate ratios (RRs) with corresponding 95% confidence intervals were used to compare groups. RESULTS: In total, 1141 athletes were identified for analysis. Of these, 186 athletes (16.3%) had a history of precollegiate orthopaedic surgery. There were 261 documented intracollegiate orthopaedic surgeries in 181 athletes (15.9%). Precollegiate knee surgery was an independent predictor of orthopaedic surgery (HR, 1.85; 95% CI, 1.16-2.83) in college. When examining only surgeries resulting from acute or primary injuries, precollegiate knee surgery was an independent predictor of primary knee injury requiring surgery in college (HR, 4.45; 95% CI, 2.51-7.59). Athletes with a history of precollegiate surgery were more susceptible to subsequent surgery in their ipsilateral extremity compared with their other extremities (HR, 1.89; 95% CI, 1.03-3.53). In contrast, there was no additional risk of receiving subsequent surgery in the contralateral extremity (P = .54). CONCLUSION: Precollegiate knee surgery in the Division I athlete is associated with subsequent injury requiring surgery in college. Athletes with a history of precollegiate surgery are at higher risk of subsequent surgery in their ipsilateral extremity compared with other extremities.