| P50 | author | Lynn Snyder-Mackler | Q87842174 |
| P2093 | author name string | May Arna Risberg | |
| | David Logerstedt | |
| | Zakariya Nawasreh | |
| | Kathleen Cummer | |
| | Michael Axe | |
| P2860 | cites work | Do Patients Failing Return-to-Activity Criteria at 6 Months After Anterior Cruciate Ligament Reconstruction Continue Demonstrating Deficits at 2 Years? | Q48706212 |
| | Development and preliminary validation of a scale to measure the psychological impact of returning to sport following anterior cruciate ligament reconstruction surgery. | Q50764810 |
| | A prospective longitudinal study to assess psychological changes following anterior cruciate ligament reconstruction surgery. | Q50768547 |
| | Development of a patient-reported measure of function of the knee. | Q50867607 |
| | Interrater reliability of a clinical scale to assess knee joint effusion. | Q51596318 |
| | A decision-making scheme for returning patients to high-level activity with nonoperative treatment after anterior cruciate ligament rupture. | Q52079063 |
| | The influence of quadriceps strength asymmetry on patient-reported function at time of return to sport after anterior cruciate ligament reconstruction. | Q53181225 |
| | Knee functions and a return to sports activity in competitive athletes following anterior cruciate ligament reconstruction. | Q53335704 |
| | Laxity, instability, and functional outcome after ACL injury: copers versus noncopers. | Q53347890 |
| | Exploring the High Reinjury Rate in Younger Patients Undergoing Anterior Cruciate Ligament Reconstruction. | Q54752237 |
| | The outcomes of anterior cruciate ligament reconstructed and rehabilitated knees versus healthy knees: a functional comparison | Q62060725 |
| | Abnormal lower limb symmetry determined by function hop tests after anterior cruciate ligament rupture | Q68075315 |
| | Reflex inhibition of the quadriceps femoris muscle after injury or reconstruction of the anterior cruciate ligament | Q72347193 |
| | The efficacy of perturbation training in nonoperative anterior cruciate ligament rehabilitation programs for physical active individuals | Q73399845 |
| | Proposed practice guidelines for nonoperative anterior cruciate ligament rehabilitation of physically active individuals | Q73707037 |
| | Significance of the single-legged hop test to the anterior cruciate ligament-reconstructed knee in relation to muscle strength and anterior laxity | Q74623321 |
| | The relationship between isokinetic quadriceps strength test and hop tests for distance and one-legged vertical jump test following anterior cruciate ligament reconstruction | Q74755201 |
| | Reliability, validity, and responsiveness of four knee outcome scales for athletic patients | Q77069618 |
| | Biomechanics laboratory-based prediction algorithm to identify female athletes with high knee loads that increase risk of ACL injury | Q33606451 |
| | High prevalence of knee osteoarthritis, pain, and functional limitations in female soccer players twelve years after anterior cruciate ligament injury. | Q33982261 |
| | Incidence and risk factors for graft rupture and contralateral rupture after anterior cruciate ligament reconstruction | Q33989205 |
| | The impact of quadriceps femoris strength asymmetry on functional performance at return to sport following anterior cruciate ligament reconstruction | Q34147163 |
| | Incidence of contralateral and ipsilateral anterior cruciate ligament (ACL) injury after primary ACL reconstruction and return to sport. | Q34212133 |
| | Hop tests as predictors of dynamic knee stability. | Q34414701 |
| | Self-reported knee function can identify athletes who fail return-to-activity criteria up to 1 year after anterior cruciate ligament reconstruction: a delaware-oslo ACL cohort study. | Q34848045 |
| | Factors that influence the intra-articular rupture pattern of the ACL graft following single-bundle reconstruction | Q35106516 |
| | High prevalence of osteoarthritis 14 years after an anterior cruciate ligament tear in male soccer players: a study of radiographic and patient relevant outcomes | Q35553898 |
| | Anterior Cruciate Ligament Reconstruction-Not Exactly a One-Way Ticket Back to the Preinjury Level: A Review of Contextual Factors Affecting Return to Sport After Surgery | Q35786896 |
| | Utilization of modified NFL combine testing to identify functional deficits in athletes following ACL reconstruction | Q36228180 |
| | Eighty-three per cent of elite athletes return to preinjury sport after anterior cruciate ligament reconstruction: a systematic review with meta-analysis of return to sport rates, graft rupture rates and performance outcomes. | Q36287034 |
| | Single-legged hop tests as predictors of self-reported knee function after anterior cruciate ligament reconstruction: the Delaware-Oslo ACL cohort study | Q36291236 |
| | Current concepts for anterior cruciate ligament reconstruction: a criterion-based rehabilitation progression | Q36623003 |
| | Single-legged hop tests as predictors of self-reported knee function in nonoperatively treated individuals with anterior cruciate ligament injury | Q36638856 |
| | Functional assessment and muscle strength before and after reconstruction of chronic anterior cruciate ligament lesions | Q36702321 |
| | Fate of the ACL-injured patient. A prospective outcome study. | Q36711021 |
| | Time line for noncopers to pass return-to-sports criteria after anterior cruciate ligament reconstruction | Q36731279 |
| | Simple decision rules can reduce reinjury risk by 84% after ACL reconstruction: the Delaware-Oslo ACL cohort study | Q37017099 |
| | Biomechanical measures during landing and postural stability predict second anterior cruciate ligament injury after anterior cruciate ligament reconstruction and return to sport | Q37037879 |
| | Predictors of activity level 2 years after anterior cruciate ligament reconstruction (ACLR): a Multicenter Orthopaedic Outcomes Network (MOON) ACLR cohort study | Q37099416 |
| | Return to sports after anterior cruciate ligament reconstruction - a review of patients with minimum 5-year follow-up | Q37156479 |
| | Selecting outcome measures in sports medicine: a guide for practitioners using the example of anterior cruciate ligament rehabilitation | Q37395576 |
| | Return to sport following anterior cruciate ligament reconstruction surgery: a systematic review and meta-analysis of the state of play. | Q37852472 |
| | A systematic review of the psychological factors associated with returning to sport following injury | Q38051966 |
| | Fifty-five per cent return to competitive sport following anterior cruciate ligament reconstruction surgery: an updated systematic review and meta-analysis including aspects of physical functioning and contextual factors. | Q38243318 |
| | Beliefs and attitudes of members of the American Academy of Orthopaedic Surgeons regarding the treatment of anterior cruciate ligament injury | Q40563177 |
| | Functional outcome measures for knee dysfunction assessment. | Q40751063 |
| | Symmetry restoration and functional recovery before and after anterior cruciate ligament reconstruction. | Q41821183 |
| | Incidence of subsequent injury to either knee within 5 years after anterior cruciate ligament reconstruction with patellar tendon autograft | Q44489189 |
| | Fear of reinjury (kinesiophobia) and persistent knee symptoms are common factors for lack of return to sport after anterior cruciate ligament reconstruction. | Q44684749 |
| | Psychological responses matter in returning to preinjury level of sport after anterior cruciate ligament reconstruction surgery | Q45415258 |
| | The impact of psychological readiness to return to sport and recreational activities after anterior cruciate ligament reconstruction | Q48063487 |
| | Likelihood of ACL graft rupture: not meeting six clinical discharge criteria before return to sport is associated with a four times greater risk of rupture | Q48225123 |
| P577 | publication date | 2017-09-27 | |
| P1433 | published in | British Journal of Sports Medicine | Q4970209 |
| P1476 | title | Functional performance 6 months after ACL reconstruction can predict return to participation in the same preinjury activity level 12 and 24 months after surgery | |