Orthopedics

Roden-Foreman, K., J. Solis, A. Jones, M. Bennett, J. W. Roden-Foreman, E. E. Rainey, M. L. Foreman and A. M. Warren (2017). “Prospective evaluation of posttraumatic stress disorder and depression in orthopaedic injury patients with and without concomitant traumatic brain injury.” J Orthop Trauma 31(9): e275-e280.

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OBJECTIVES: Psychological morbidities after injury [eg, posttraumatic stress disorder (PTSD) and depression] are increasingly recognized as a significant determinant of overall outcome. Traumatic brain injury (TBI) negatively impacts outcomes of patients with orthopaedic injury, but the association of concurrent TBI, orthopaedic injury, and symptoms of PTSD and depression has not been examined. This study’s objective was to examine symptoms of PTSD and depression in patients with orthopaedic trauma with and without TBI. DESIGN: Longitudinal prospective cohort study. SETTING: Urban Level I Trauma Center in the Southwest United States. PATIENTS/PARTICIPANTS: Orthopaedic trauma patients older than 18 years admitted for >/=24 hours. MAIN OUTCOME MEASUREMENTS: Questionnaires examining demographics, injury-related variables, PTSD, and depression were administered during hospitalization and 3, 6, and 12 months later. Orthopaedic injury and TBI were determined based on ICD-9 codes. Generalized linear models determined whether PTSD and depression at follow-up were associated with TBI. RESULTS: Of the total sample (N = 214), 44 (21%) sustained a TBI. Those with TBI had higher rates of PTSD symptoms, 12 months postinjury (P = 0.04). The TBI group also had higher rates of depressive symptoms, 6 months postinjury (P = 0.038). CONCLUSIONS: Having a TBI in addition to orthopaedic injury was associated with significantly higher rates of PTSD at 12 months and depression at 6 months postinjury. This suggests that sustaining a TBI in addition to orthopaedic injury places patients at a higher risk for negative psychological outcomes. The findings of this study may help clinicians to identify patients who are in need for psychological screening and could potentially benefit from intervention.

Jaffe, D., D. Vier, J. Kane, M. Kozanek and C. Royer (2017). “Rate of neurologic injury following lateralizing calcaneal osteotomy performed through a medial approach.” Foot Ankle Int: 2017 Sept [Epub ahead of print].

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BACKGROUND: Calcaneal osteotomies are commonly used to correct varus hindfoot alignment in patients with symptomatic cavovarus deformity. Translational, closing wedge, and Malerba-type osteotomies have been implicated in the development of tarsal tunnel syndrome and neurologic injury to branches of the tibial nerve. The authors hypothesized that there would be minimal clinically important injury to the tibial nerve by performing a translational calcaneal osteotomy from a medial approach. METHODS: All patients undergoing a cavovarus reconstruction by a single surgeon were identified. Patients were included if they underwent a lateralizing calcaneal osteotomy via medial approach. Demographics, operative reports, and clinic notes were reviewed to identify concomitant procedures performed, incidence of postoperative tarsal tunnel syndrome, complications, and preoperative and postoperative nerve examinations. Postoperative radiographs were reviewed for location of the osteotomy relative to the posterior tubercle. RESULTS: Twenty-four patients underwent lateralizing calcaneal osteotomy via a medial approach. Of the osteotomies, 83.3% (20/24) were in the middle third of the calcaneus, with a mean of 11.6-mm translation. No patients developed postoperative tarsal tunnel syndrome or tibial nerve palsy. CONCLUSION: Lateralizing calcaneal osteotomy performed via a medial approach had a clinically negligible incidence of neurologic injury. Adequate translation was achieved to obtain correction of varus hindfoot deformity. The authors believe that there is less direct and less percussive injury to branches of the tibial nerve when performing the osteotomy from medial to lateral. This technique may represent an operative strategy to minimize risk to the tibial nerve and reduce neurologic deficit following cavovarus reconstruction.

Garofalo, R., E. Ceccarelli, A. Castagna, V. Calvisi, B. Flanagin, M. Conti and S. G. Krishnan (2017). “Open capsular and ligament reconstruction with semitendinosus hamstring autograft successfully controls superior and posterior translation for type v acromioclavicular joint dislocation.” Knee Surg Sports Traumatol Arthrosc 25(7): 1989-1994.

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PURPOSE: Appropriate surgical management for type V complete acromioclavicular (AC) joint dislocation remains controversial. The purpose of this paper is to retrospectively report the clinical and radiographic outcomes of an open surgical technique consisting for AC joint ligamentous and capsular reconstruction using autologous hamstring tendon grafts and semi-permanent sutures. METHODS: Between January 2005 and December 2011, 32 consecutive patients with symptomatic type V complete AC joint dislocation underwent surgical treatment using the same technique. The median time from injury to surgery was 45 days (range 24-90). The average median postoperative clinical and radiographic follow-up time was 30 months (range 24-33). Clinical outcomes measures included the ASES score, the visual analog score (VAS), and subjective patient satisfaction score. Minimum follow-up was 2 years. RESULTS: ASES score increased from a median of 38.2 +/- 6.2 preoperative to 92.1 +/- 4.7 postoperatively (p

Marquez-Arabia, W. H., J. Gomez-Hoyos, M. Gomez, I. Florez, J. A. Gallo, F. Monsalve, L. F. Arias and H. D. Martin (2017). “Influence of aging on microvascular supply of the gluteus medius tendon: A cadaveric and histologic study.” Arthroscopy 33(7): 1354-1360.

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PURPOSE: The purpose of this cadaveric study was to assess the relation between age and microvascular supply of 3 areas of the gluteus medius tendon using a previously validated CD31 immunohistochemistry staining technique. METHODS: Twenty-four fresh-frozen gluteus medius specimens were obtained through a posterolateral approach to the hip. Specimens aged 18 years or older, of either sex, and of any race were considered for this study. The average age of donors was 47.3 years (range, 18-68 years). Each sample was divided into 3 portions: musculotendinous, tendinous, and tendon-bone junction. H&E staining was used for qualitative structural analysis, and then all samples underwent staining with CD31 immunohistochemistry for quantitative assessment of vessels per square millimeter. A comparison of the microvessel density between zones according to age was performed by an analysis of variance. To evaluate the relation between microvessel supply and age, a regression model with curvilinear estimation was used. The data were fitted to a quadratic model. RESULTS: Vascular supply in transversal and longitudinal cuts regardless of the zone was, on average, 53.9 +/- 32.1 vessels/mm2 and 51.1 +/- 19.3 vessels/mm2, respectively. All the areas of the tendon showed a strength of relation (R) ranging from 0.41 to 0.76 between age and vascular supply. In addition, the proportion of vascular supply change explained by age (R2) was significant in most cases (ranging from 0.17 to 0.56, with P < .05). CONCLUSIONS: There is a chronological relation between aging and microvascular supply of the gluteus medius tendon, in which an initial increase occurs from 18 years of age to 30 to 40 years of age, with a progressive decrease after 50 years of age. CLINICAL RELEVANCE: The findings of our study may have implications for increased vulnerability of the gluteus medius tendon and decreased healing potential.

Liu, G. T., B. C. Balldin, J. R. Zide and C. T. Chen (2017). “A biomechanical analysis of interference screw versus bone tunnel fixation of flexor hallucis longus tendon transfers to the calcaneus.” J Foot Ankle Surg 56(4): 813-816.

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The flexor hallucis longus tendon transfer is commonly used to restore function in chronic Achilles tendon ruptures and chronic Achilles tendinopathy. The tendon is often secured to the calcaneus either through a bone tunnel or by an interference screw. We hypothesized that tenodesis using the bone tunnel method would be mechanically superior to interference screw fixation for flexor hallucis longus transfers. Eight matched pairs of cadaveric specimens were assigned randomly to the bone tunnel or interference screw technique and were loaded to failure. Biomechanical analysis was performed to evaluate the ultimate strength, peak stress, Young’s modulus, failure strain, and strain energy. Unpaired comparison, paired comparison, and linear regression analyses were used to determine statistical significance. A slight 22% +/- 9% decrease in Young’s modulus and a 52% +/- 18% increase of strain energy were found in the interference screw group. However, no differences in ultimate strength, peak stress, or failure strain were seen between the 2 groups on paired comparison. Our findings suggest that interference screw fixation provides similar spontaneous biomechanical properties to the use of a bone tunnel for flexor hallucis longus transfer to the calcaneus. The interference screw is a practical option for fixation of the flexor hallucis longus tendon to the calcaneus and can be performed through a single incision approach.