Forefoot Success.

The goal of this chapter is to familiarize orthopaedic surgeons with the latest information pertaining to typical problems of the forefoot. Painful and deforming problems of the forefoot are surprisingly common. The understanding of forefoot deformity and pathology has evolved considerably over the past decade. A more precise understanding of the mechanics of deformity and resulting pathology has resulted in significant improvements in nonsurgical and surgical managements. This chapter provides an up-to-date examination of the literature regarding the management of forefoot pathology. First, a review of recent advances in the understanding of the pathology and mechanics of these problems and then a thorough review of specific diseases are presented. These include management of the bunion deformity, hallux rigidus, metatarsalgia and plantar plate disruption, hammer toe deformities, and interdigital neuritis. Nonsurgical and surgical options are described. This chapter provides information that will lead to thoughtful treatment options for surgeons.

Outcome Metrics in Pediatric Sports Medicine: Do PROMIS Computer-adaptive Testing Metrics Correlate With Pedi-IKDC?

BACKGROUND: A modified version of the International Knee Documentation Committee (IKDC), the Pedi-IKDC, is a validated patient-reported outcome measure in pediatric patients with knee pain. However, this questionnaire is lengthy and can fatigue patients, leading to inconsistent outcome collection. Thus, we sought to compare more easily attainable Patient-Reported Outcomes Measurement Information System (PROMIS) computer adaptive testing patient reported outcomes to the gold standard Pedi-IKDC. METHODS: We prospectively collected PROMIS scores and Pedi-IKDC scores in 100 new, consecutive patients presenting with knee pain to a pediatric sports medicine practice. Patients were excluded if they provided an incomplete Pedi-IKDC, had prior ipsilateral lower extremity surgery, or significant associated medical comorbidities. PROMIS domains including Mobility, Pain Interference, and Upper Extremity (control) were compared with the Pedi-IKDC with Pearson correlations. The number of questions in each metric was analyzed. Floor and ceiling effects of each test were also assessed. RESULTS: The average age of the study cohort was 14 years (range, 7 to 18 y) with 53% female and 47% male. 70% of patients completed the Pedi-IKDC questionnaire, compared with 100% with PROMIS tests. The average Pedi-IKDC score was 48.8±22.3 (range, 5.4 to 100). Mean scores for Mobility, Pain Interference, and Upper Extremity domains were 38.4±10.1, 53.5±10.3, and 49.7±8.7, respectively. All tests demonstrated similar and acceptable floor and ceiling effects (<15%). The length of the Pedi-IKDC (22 questions) was roughly double that of combined PROMIS Pain Interference and Mobility tests (11.9±2.3 questions). Pedi-IKDC scores correlated with tested PROMIS measures (Mobility/Pain Interference, r=0.42/-0.49). When 7 highly functional patients with significant pain symptoms were removed for a secondary analysis, Mobility and Pain correlations improved to 0.69 and -0.67, respectively. CONCLUSIONS: PROMIS Mobility and Pain scores demonstrate moderate correlations with the Pedi-IKDC, highlighting these tests are not capturing the same patient experiences. These correlations are weakened by a small group of painful yet highly functioning patients. The Pedi-IKDC was significantly longer and had a much lower completion rate than PROMIS tests, highlighting a need for a validated computer adaptive testing in evaluating pediatric patients with knee pain. LEVELS OF EVIDENCE: Level II.

Decreased Postural Control in Patients Undergoing Anterior Cruciate Ligament Reconstruction Compared to Healthy Controls.

CONTEXT: Patients with anterior cruciate ligament (ACL) tears are likely to have deficient dynamic postural stability compared with healthy sex- and age-matched controls. OBJECTIVES: To test the hypothesis that patients undergoing ACL reconstruction have decreased dynamic postural stability compared with matched healthy controls. DESIGN: Prospective case-control study. SETTING: Orthopedic sports medicine and physical therapy clinics. PATIENTS OR OTHER PARTICIPANTS: Patients aged 20 years and younger with an ACL tear scheduled for reconstruction were enrolled prospectively. Controls were recruited from local high schools and colleges via flyers. INTERVENTIONS: Patients underwent double-stance dynamic postural stability testing prior to surgery, recording time to failure and dynamic motion analysis (DMA) scores. Patients were then matched with healthy controls. MAIN OUTCOME MEASURES: Demographics, time to failure, and DMA scores were compared between groups. RESULTS: A total of 19 females and 12 males with ACL tears were matched with controls. Individuals with ACL tears were more active (Marx activity score: 15.7 [1.0] vs 10.8 [4.9], P < .001); had shorter times until test failure (84.4 [15.8] vs 99.5 [14.5] s, P < .001); and had higher (worse) DMA scores (627 [147] vs 481 [132], P < .001), indicating less dynamic postural stability. Six patients with ACL deficiency (1 male and 5 females) demonstrated lower (better) DMA scores than their controls, and another 7 (4 males and 3 females) were within 20% of controls. CONCLUSIONS: Patients undergoing ACL reconstruction had worse global dynamic postural stability compared with well-matched controls. This may represent the effect of the ACL injury or preexisting deficits that contributed to the injury itself. These differences should be studied further to evaluate their relevance to ACL injury risk, rehabilitation, and return to play.

Two Orthogonal Nitinol Staples and Combined Nitinol Staple-Screw Constructs for a First Metatarsophalangeal Joint Arthrodesis: A Biomechanical Cadaver Study.

BACKGROUND: End-stage hallux metatarsophalangeal (MTP) joint arthritis is commonly treated with arthrodesis using stainless steel or titanium implants. These implants provide static compression that is maximal at the time of implant insertion. Alternatively, nitinol staples are capable of dynamic compression. They have most frequently been used for midfoot arthrodesis procedures. However, their biomechanical performance during hallux MTP arthrodesis has not been described. METHODS: 8 matched pairs of cadaveric feet (4 female, 4 male) were prepared for hallux MTP arthrodesis using cup and cone reamers. Cadaveric pairs were then instrumented with either (1) a transarticular lag screw and dorsal nitinol staple or (2) orthogonal nitinol staples placed dorsally and medially. Walking in a short leg cast for 6 weeks was simulated by applying 90-N forces at 3 Hz to the plantar proximal phalanx for up to 250 000 cycles. Failure was defined as catastrophic implant failure or plantar gapping beyond 7 mm. RESULTS: 15 of 16 specimens failed cyclic loading. All 8 specimens fixed with orthogonal staples failed at an average of 37 ± 81 cycles. 7 of 8 specimens fixed with a dorsal staple and crossed screw failed at 14 900 ± 39 000 cycles. Collectively, 5 specimens failed because of bone fracture (1 in orthogonal staples, 4 in staple-screw group) and 10 failed because of excessive gap formation (7 in orthogonal staples, 3 in staple-screw group). The number of cycles to failure was significantly lower (P = .0469) in the orthogonal staple constructs compared with the dorsal staple and crossed screw constructs. CONCLUSION: The tested constructs permit significant motion at the first MTP fusion surface during simulated protected weightbearing. Although multiple in vivo factors should be considered when extrapolating results from this cadaveric study, this motion may result in clinical failure with early postoperative weightbearing protocols. CLINICAL RELEVANCE: We report the first biomechanical evaluation of hallux MTP arthrodesis using modern nitinol staples in 2 separate constructs.

Changes in Dynamic Postural Stability After ACL Reconstruction: Results Over 2 Years of Follow-up.

Background: The anterior cruciate ligament (ACL) is crucial for knee proprioception and postural stability. While ACL reconstruction (ACLR) and rehabilitation improve postural stability, the timing in improvement of dynamic postural stability after ACLR remains relatively unknown. Purpose: To evaluate changes in dynamic postural stability after ACLR out to 24 months postoperatively. Study Design: Case series; Level of evidence, 4. Methods: Patients undergoing ACLR were prospectively enrolled, and dynamic postural stability was assessed within 2 days before surgery, at 3-month intervals postoperatively to 18 months, then at 24 months. Measurements were made on a multidirectional platform tracking the patient's center of mass based on pelvic motion. The amount of time the patient was able to stay on the platform was recorded, and a dynamic motion analysis score, reflecting the patient's ability to maintain one's center of mass, was generated overall and in 6 independent planes of motion. Results: A total of 44 patients with a mean age of 19.7 ± 6.2 years completed the study protocol. Overall mean dynamic postural stability improved significantly at 3, 6, 9, and 12 months after surgery, with continued improvement out to 24 months. Notable improvements occurred in medial/lateral and anterior/posterior stability from baseline to 6 months postoperatively, while internal/external rotation and flexion/extension stability declined initially after surgery from baseline to 3 months postoperatively before stabilizing to the end of the study period. Conclusion: Overall dynamic postural stability significantly improved up to 12 months after ACLR. Improvement in postural stability occurred primarily in the medial/lateral and anterior/posterior planes of motion, with initial decreases in the flexion/extension and internal/external rotational planes of motion.

Outcomes Following Repeat Ankle Arthroscopy and Microfracture for Osteochondral Lesions of the Talus.

BACKGROUND: The management of symptomatic osteochondral lesions of the talus (OLTs) previously treated with arthroscopy is controversial. Minimal data exist on the role for repeat arthroscopy. Here, we describe our experience with repeat arthroscopy and microfracture for symptomatic OLTs. METHODS: Our database was queried over an 8-year period to identify patients undergoing repeat arthroscopy and microfracture as treatment for symptomatic OLTs. Phone surveys were conducted to assess residual pain, patient satisfaction, and need for subsequent surgery. We compared patient outcomes based on the size of their OLT (small lesions ≤150 mm2, large >150 mm2) and the presence or absence of subchondral cysts. RESULTS: We identified 14 patients who underwent repeat arthroscopy and microfracture for symptomatic OLTs. Patients reported reasonable satisfaction (7.6 ± 3.5 out of 10) but moderate residual pain (4.7 ± 3.4 out of 10) at midterm follow-up (5.1 ± 2.9 years). In total, 21% (3/14) of patients had undergone subsequent surgery. Patients with small (n = 5) and large OLTs (n = 9) had similar postoperative pain scores (4.2 ± 4.1 vs 4.9 ± 3.2) and postoperative satisfaction levels (6.4 ± 4.9 vs 8.3 ± 2.5). CONCLUSION: At midterm follow-up, repeat arthroscopy for symptomatic OLTs demonstrated reasonable satisfaction but moderate residual pain. Lesion size or presence of subchondral cysts did not affect outcome, but our sample size was likely too small to detect statistically significant differences. These data show that repeat ankle arthroscopy can be performed safely with modest outcomes, and we hope that this report aids in managing patient expectations.Level of Evidence: Level IV Case Series.

Rapidly Progressive Arthritis in Femoroacetabular Impingement: Patient Characteristics and Risk Factors for Total Hip Arthroplasty by the Age of Forty.

Background: Femoroacetabular impingement (FAI), particularly cam-type, is now well accepted as a risk factor for the development of hip osteoarthritis (OA). However, many hips with FAI morphology will never develop hip pain or OA, identifying that our current understanding of FAI disease progression remains limited. The purposes of this retrospective case-control study were to (1) report the patient and disease characteristics of patients with rapidly progressive FAI requiring hip arthroplasty by the age of 40 and (2) to identify patient and imaging factors associated with rapidly progressive FAI. Methods: Cases were retrospectively identified from an arthroplasty registry as patients 40 years old or younger with underlying FAI deformity and end stage OA requiring primary total hip arthroplasty. Patients were excluded for known DDH, AVN, SCFE, inflammatory arthritis, and previous ipsilateral surgery. Controls were identified from a hip preservation database as patients with symptomatic FAI undergoing surgical intervention over the same time period, and were matched 2:1 by gender and age. Alpha angles were calculated on frog-leg lateral and anteroposterior (AP) radiographs with both inclusion and exclusion of any osteophytic prominences (representing minimum and maximal possible underlying FAI morphology). Patient characteristics, radiographic parameters, and baseline patient reported outcomes were compared between the two groups using student's t-tests. Results: The rapidly progressive FAI cohort of 31 patients had a mean age of 35.8 years at surgery and was 39% female and 61% male. Alpha angles were significantly larger compared to controls when osteophytes were included (Frog: 74.7±10.8 vs. 57.2±12.7°, p<0.001; AP: 91.7±10.7 vs. 61.2±19.4°, p<0.001), but not when osteophytes were excluded (Frog: 61.2±11.1 vs. 57.2±12.7°, p=0.15; AP: 64.9±17.1 vs. 61.3±19.4°, p=0.38). Except for UCLA activity score, all baseline outcome measures were significantly lower for rapidly progressive FAI cases (p<0.001 for all). Conclusions: When compared to controls with symptomatic FAI, rapidly progressive cases did not demonstrate major differences in cam deformity magnitude. Thus severity of bony deformity may only be one aspect of a multifactorial etiology of hip OA progression in FAI.Level of Evidence: III.

Preoperative Anxiety Effect on Patient-Reported Outcomes Following Foot and Ankle Surgery.

BACKGROUND: Preoperative emotional distress has been shown to negatively influence joint arthroplasty and spine surgery, but limited data exist for foot and ankle outcomes. Emotional distress can be captured through modern tools like the Patient-Reported Outcomes Instrument Measurement System (PROMIS) anxiety domain. We hypothesized that patients with greater preoperative PROMIS anxiety scores would report greater pain and less function after foot and ankle surgery than patients with lower preoperative anxiety levels. METHODS: Elective foot and ankle surgeries from May 2016 to December 2017 were retrospectively identified. PROMIS anxiety, pain interference (PI), and physical function (PF) scores were collected before and after surgery. Patients were grouped based on preoperative PROMIS scores greater or less than 59.4. A cutoff of PROMIS anxiety above 59.4 was selected as the threshold that corresponds to traditional measures of anxiety. RESULTS: Compared to patients with less preoperative anxiety (average: 47.2, n=146), patients with higher preoperative anxiety (average: 63.9, n=59) had greater preoperative pain (PROMIS PI: 63.5 vs 59.1, P < .001) and lower physical function (PROMIS PF: 37.9 vs 42.0, P = .001). Postoperatively, patients with higher preoperative anxiety had more residual pain and greater functional disability as compared to patients with less preoperative emotional distress (PROMIS PI: 58.6 vs 52.9, P < .001; PROMIS PF: 39.8 vs 44.4, P < .001; respectively). CONCLUSION: Our evidence showed that preoperative emotional anxiety predicted worse pain and function at early operative follow-up. Measures of preoperative anxiety could be useful in identifying patients at risk for poorer operative outcomes, but continued study is necessary. LEVEL OF EVIDENCE: Level III, retrospective comparative study.

Treatment of Failed Articular Cartilage Reconstructive Procedures of the Knee: A Systematic Review.

BACKGROUND: Symptomatic articular cartilage lesions of the knee are common and are being treated surgically with increasing frequency. While many studies have reported outcomes following a variety of cartilage restoration procedures, few have investigated outcomes of revision surgery after a failed attempt at cartilage repair or reconstruction. PURPOSE: To investigate outcomes of revision cartilage restoration procedures for symptomatic articular cartilage lesions of the knee following a previously failed cartilage reconstructive procedure. STUDY DESIGN: Systematic review; Level of evidence, 4. METHODS: A literature search was performed by use of the PubMed, EMBASE, and MEDLINE/Ovid databases for relevant articles published between 1975 and 2017 that evaluated patients undergoing revision cartilage restoration procedure(s) and reported outcomes using validated outcome measures. For studies meeting inclusion criteria, relevant information was extracted. RESULTS: Ten studies met the inclusion criteria. Lesions most commonly occurred in the medial femoral condyle (MFC) (52.8%), with marrow stimulation techniques (MST) the index procedure most frequently performed (70.7%). Three studies demonstrated inferior outcomes of autologous chondrocyte implantation (ACI) following a previous failed cartilage procedure compared with primary ACI. One study comparing osteochondral allograft (OCA) transplant following failed microfracture (MFX) with primary OCA transplant demonstrated similar clinical outcomes and graft survival at midterm follow-up. No studies reported outcomes following osteochondral autograft transfer (OAT) or newer techniques. CONCLUSION: This systematic review of the literature reporting outcomes following revision articular cartilage restoration procedures (most commonly involving the MFC) demonstrated a high proportion of patients who underwent prior MST. Evidence is sufficient to suggest that caution should be taken in performing ACI in the setting of prior MST, likely secondary to subchondral bone compromise. OCA appears to be a good revision treatment option even if the subchondral bone has been violated from prior surgery or fracture.

ACL Fibers Near the Lateral Intercondylar Ridge Are the Most Load Bearing During Stability Examinations and Isometric Through Passive Flexion.

BACKGROUND: The femoral insertion of the anterior cruciate ligament (ACL) has direct and indirect fiber types located within the respective high (anterior) and low (posterior) regions of the femoral footprint. HYPOTHESIS: The fibers in the high region of the ACL footprint carry more force and are more isometric than the fibers in the low region of the ACL footprint. STUDY DESIGN: Controlled laboratory study. METHODS: Ten fresh-frozen cadaveric knees were mounted to a robotic manipulator. A 134-N anterior force at 30° and 90° of flexion and combined valgus (8 N·m) and internal (4 N·m) rotation torques at 15° of flexion were applied simulating tests of anterior and rotatory stability. The ACL was sectioned at the femoral footprint by detaching either the higher band of fibers neighboring the lateral intercondylar ridge in the region of the direct insertion or the posterior, crescent-shaped fibers in the region of the indirect insertion, followed by the remainder of the ACL. The kinematics of the ACL-intact knee was replayed, and the reduction in force due to each sectioned portion of insertion fibers was measured. Isometry was assessed at anteromedial, center, and posterolateral locations within the high and low regions of the femoral footprint. RESULTS: With an anterior tibial force at 30° of flexion, the high fibers carried 83.9% of the total anterior ACL load compared with 16.1% in the low fibers (P < .001). The high fibers also carried more anterior force than the low fibers at 90° of flexion (95.2% vs 4.8%; P < .001). Under combined torques at 15° of flexion, the high fibers carried 84.2% of the anterior ACL force compared with 15.8% in the low fibers (P < .001). Virtual ACL fibers placed at the anteromedial portion of the high region of the femoral footprint were the most isometric, with a maximum length change of 3.9 ± 1.5 mm. CONCLUSION: ACL fibers located high within the femoral footprint bear more force during stability testing and are more isometric during flexion than low fibers. CLINICAL RELEVANCE: It may be advantageous to create a "higher" femoral tunnel during ACL reconstruction at the lateral intercondylar ridge.

Distribution of Force in the Medial Collateral Ligament Complex During Simulated Clinical Tests of Knee Stability.

BACKGROUND: Pivot-shift injury commonly results in combined anterior cruciate ligament (ACL)/medial collateral ligament (MCL) injury, yet the contribution of the components of the MCL complex to restraining multiplanar rotatory loads forming critical subcomponents of the pivot shift is not well understood. PURPOSE: To quantify the role of the MCL complex in restraining multiplanar rotatory loads. STUDY DESIGN: Controlled laboratory study. METHODS: A robotic manipulator was used to apply combined valgus and internal rotation torques in a simplified model of the pivot-shift examination in 12 cadaveric knees (49 ± 11 years). Tibiofemoral kinematics were recorded with the ACL intact. Loads borne by the superficial MCL (sMCL), posterior oblique ligament (POL), deep MCL (dMCL), and ACL were determined via the principle of superposition. RESULTS: The POL bore about 50% of the load carried by the ACL in response to the combined torques at 5° and 15° of flexion. The POL bore load during the internal rotation component of the combined torques, while the sMCL carried load during the valgus and internal rotation phases of the simulated pivot. Load in the dMCL was always <10% of the ACL in response to combined valgus and internal rotation torques. CONCLUSION: The POL provides complementary load bearing to the ACL near extension in response to combined torques, which capture key components of the pivot-shift examination. The sMCL resists the valgus component of the maneuver alone, a loading pattern unique from those of the POL and ACL. The dMCL is not loaded during clinical tests of rotational knee stability in the ACL-competent knee. CLINICAL RELEVANCE: Both the sMCL and POL work together with the ACL to resist combined moments, which form key components of the pivot-shift examination.