Bone Mesenchymal Stem Cells (BMSCs) Transplantation Can Repair Rat Femoral Head Necrosis and Inhibit the Expression of Omgp

To study the therapeutic effect of BMSCs on femoral head necrosis and whether it can inhibit the growth of OMgP. 15 healthy rats were divided into ZZ group (normal group), GT group (femoral head necrosis) and MM group (BMSCs transplantation). At 1 h, 3 h, 1 d, and 3 d, the expression of OMgP in GT group were higher than ZZ group (P <0.05) and MM group, indicating that BMSCs transplantation can decreased OMgP expression. At 1 d, 7 d, and 14 d, BBB scores of the GT group were lower than ZZ group (P < 0.05) and MM group (P < 0.05), indicating that BMSCs transplantation can improve spinal cord injury behavior. The cells in ZZ group were well stained and morphologically intact, the femoral head was not damaged, and the articular surface was smooth, GT group had cartilage necrosis with disordered inferior epiphysis, and the femoral head of the MM group had less damage and increased osteoblasts. The blood vessel counts in necrotic area in GT group were higher than ZZ group and MM group with decreased new bone area in repair area compared to ZZ and MM group (P <0.05), indicating that the area of femoral head necrosis after BMSCs transplantation was improved. The levels of ALP and BGP in GT group were lower than ZZ group (P <0.05) and MM group (P <0.05). Bone marrow mesenchymal stem cell transplantation can effectively repair new bone area, up-regulate ALP and BGP, and have a positive effect on femoral head necrosis, possibly by inhibiting OMGP activity.

Ulnar variance in distal radial fractures: assessment and interpretation

We explored patterns of shortening of the distal radius and investigated the effect of displacement on ‘ulnar variance’ in 250 patients with distal radial fractures. A small number of patients (5%) had a fracture that resulted in true shortening. Thirty-two per cent had fractures that appeared short, but lateral radiographs revealed that the articular surface was tilted, with either the anterior or dorsal rim of the articular surface being proximal to the distal ulna but the other rim was distal to it. We recommend initial assessment of variance on lateral radiographs. If the anterior and dorsal rims of the distal radial articular surface are proximal to the distal ulna, then true shortening is present and lengthening and stabilization, to hold the radius distracted, should be considered. If only one rim is proximal to the distal ulna, then correction of the tilt will lessen the apparent positive variance. Level of evidence: IV

Extension-Block Pinning for Unstable Dorsal Proximal Interphalangeal Joint Fracture-Dislocations: A Simple, Percutaneous Technique With Reproducible Outcomes

Background: Proximal interphalangeal (PIP) joint fracture-dislocations can be technically challenging injuries to treat, and no technique has proven to be superior nor lead to predictably good outcomes. We describe our experience of treating unstable dorsal fracture-dislocations of the PIP joint with extension-block pinning (EBP) at our institution over a 22-year period. Methods: In all, 23 patients with 24 unstable dorsal fracture-dislocations of the PIP joint treated with EBP between January 1998 and October 2020 were identified. All patients underwent closed reduction of the PIP joint and insertion of a Kirschner wire into the proximal phalanx, creating a mechanical block. Range of motion and joint congruity were assessed at final clinic follow-up. Long-term function was assessed via completion of a Quick Disabilities of the Arm, Shoulder, and Hand (QuickDASH) questionnaire. Spearman’s correlation coefficient was utilized to assess if any association existed between treatment delay, pin-in-body days, or amount of articular surface involved and QuickDASH score. Results: Mean range of motion at final follow-up was 83.3° and 22 of 24 PIP joints demonstrated a congruent reduction. In all, 15 of the 23 patients completed the QuickDASH questionnaire at a median long-term follow-up of 57.5 months (range: 3-157 months). Average QuickDASH score was 18.8, indicating minimal long-term disability. No statistically significant associations were found between treatment delay, pin-in-body days, or amount of articular surface involved and QuickDASH score. Conclusions: EBP offers a simple and innovative method to treat a complex injury of the PIP joint. It is technically straightforward and cheap, and produces excellent functional outcomes with minimal long-term disability.

Periarticular screws: what’s in and what’s out of the joint?

Periarticular hardware placement can be challenging and a source of angst for orthopaedic surgeons due to fear of penetrating the articular surface and causing undue harm to the joint. In recent years, many surgeons have turned to computed tomography (CT) and other intraoperative or postoperative modalities to determine whether hardware is truly extraarticular in areas of complex anatomy. Yet, these adjuncts are expensive, time consuming, and often unnecessary given the advancement in understanding of intraoperative fluoroscopy. We present a review article with the goal of empowering surgeons to leave the operating room, with fluoroscopy alone, assured that all hardware is beneath the articular surface that is being worked on. By understanding a simple concept, surgeons can extrapolate the information in this article to any joint and bony surface in the body. While targeted at both residents and surgeons who may not have completed a trauma fellowship, this review can benefit all orthopaedic surgeons alike.

Implantation of Various Cell-Free Matrixes Does Not Contribute to the Restoration of Hyaline Cartilage within Full-Thickness Focal Defects

Articular cartilage is a highly organized tissue that has a limited ability to heal. Tissue engineering is actively exploited for joint tissue reconstruction in numerous cases of articular cartilage degeneration associated with trauma, arthrosis, rheumatoid arthritis, and osteoarthritis. However, the optimal scaffolds for cartilage repair are not yet identified. Here we have directly compared five various scaffolds, namely collagen-I membrane, collagen-II membrane, decellularized cartilage, a cellulose-based implant, and commercially available Chondro-Gide® (Geistlich Pharma AG, Wolhusen, Switzerland) collagen membrane. The scaffolds were implanted in osteochondral full-thickness defects, formed on adult Wistar rats using a hand-held cutter with a diameter of 2.0 mm and a depth of up to the subchondral bone. The congruence of the articular surface was almost fully restored by decellularized cartilage and collagen type II-based scaffold. The most vivid restoration was observed 4 months after the implantation. The formation of hyaline cartilage was not detected in any of the groups. Despite cellular infiltration into scaffolds being observed in each group except cellulose, neither chondrocytes nor chondro-progenitors were detected. We concluded that for restoration of hyaline cartilage, scaffolds have to be combined either with cellular therapy or morphogens promoting chondrogenic differentiation.

Complications in surgical management of calcaneal fractures with anatomical plates

<p class="abstract"><span lang="EN-US">Calcaneal fractures, irrespective of their types, are treated non-operatively, one of the reasons being fear of complications. But conservatively managed fractures can result in equally problematic complications. Incidence of subtalar arthritis in such cases is reported to be 16.9% compared 3.3% in cases treated surgically. With surgical treatment aimed at achieving anatomical joint reduction, regaining calcaneal height, its length and width, successful attempts at curtailing the long-term complications can be made. This was a prospective study of 20 cases of calcaneal fractures, admitted to MNR Medical College and Hospital, Sangareddy from August 2020 to September 2021 were treated with ORIF with non-locking anatomical calcaneal plates using Fernandez’s approach, without use of bone graft. Essex Lopresti and Sander’s classification were used. Intra-operative assessment of reduction and articular surface reconstruction was done under fluoroscopic guidance. Regular follow up was done for assessment of fracture union and complications, assessment of late collapse. Among the 20 cases, 73% were men and 27% women. On typing the fractures based on Essex-Lopresti classification, intra-articular tongue type constituted 13% and 87% were of joint depression. Near normal anatomical reduction was obtained in all cases except in one where it was difficult due to comminution noted during surgery. 2 cases developed superficial skin necrosis at the surgical site, 1 case of deep infection and abscess formation and 3 cases of subtalar arthritis. This study showed that the incidence of long-term complications can probably be minimized by restoring the altered anatomy through surgical means; hence we advocate surgical management and accurate anatomical reduction in cases of displaced and comminuted calcaneal fractures with proper surgical principles. </span></p>

Radiographic Outcomes following K-Wire Augmentation of Dorsal Spanning Plate Fixation for Intra-Articular Fractures of the Distal Radius

Background Restoration of articular surface alignment is critical in treating intra-articular distal radius fractures. Dorsal spanning plate fixation functions as an internal distraction mechanism and can be advantageous in the setting of highly comminuted fracture patterns, polytrauma patients, and patients with radiocarpal instability. The addition of K-wires to support articular surface reduction potentially augments fracture repair stability. Questions/Purposes We examined the radiographic outcomes and maintenance of reduction in patients with comminuted intra-articular distal radius fractures treated with K-wire fixation of articular fragments followed by dorsal spanning plate application. Patients and Methods We reviewed 35 consecutive patients with complex intra-articular distal radius fractures treated with dorsal spanning plate and K-wire fixation between April 2016 and October 2019. AO classification was recorded: B1 (3), B3 (2), C2 (2), C3 (28). A two-tailed paired t-test was used to compare findings immediately post-dorsal spanning plate surgery and at final follow-up after dorsal spanning plate removal. Results Mean patient age was 43.3 years (19–78 years). Mean follow-up was 7.8 months (SD 4.3 months) from surgery and 2.5 months from pin removal (SD 2.6 months). All patients achieved radiographic union. Radial height (mean interval change (MIC) 0.2 mm, SD 2.2, p = 0.63), articular step-off (MIC 0.1 mm, SD 0.6 mm, p = 0.88), and radial inclination (MIC −1.1 degrees, SD 3.7 degrees, p = 0.10) did not change from post-surgery to final follow-up. Ulnar variance (MIC −0.9 mm, SD 2.0 mm, p = 0.02) and volar tilt (MIC −1.5 degrees, SD 4.4 degrees, p = 0.05) were found to have decreased. Conclusion Dorsal spanning plate augmented with K-wire fixation for comminuted intra-articular distal radius fractures in polytrauma patients allows for immediate weightbearing and maintains articular surface alignment at radiographic union and may provide better articular restoration than treatment with dorsal spanning plate alone. Level of Evidence This is a Level IV, therapeutic study.

The Association of Crista Volume With Sesamoid Position as Measured From 3D Reconstructions of Weightbearing CT Scans

Background: Malposition of the sesamoids relative to the first metatarsal head may relate to intersesamoid crista underdevelopment or erosion. Using 3-dimensional models created from weightbearing CT (WBCT) scans, the current work examined crista volume and its relationship to first metatarsal pronation and sesamoid station. Methods: Thirty-eight hallux valgus (HV) patients and 10 normal subjects underwent weightbearing or simulated WBCT imaging. The crista was outlined by the inferior articular surface, and a line was drawn to connect the lowest point of each sulcus on either side of the intersesamoidal crista throughout the length of the crista. The volume was calculated. Sesamoid station and first metatarsal pronation were calculated from the 3D reconstructions. The mean crista volumes between HV and normal patients were statistically compared, as were the crista volume and pronation angle between sesamoid stations. Results: The mean crista volume in HV patients was 80.10 ± 35 mm3 and in normal subjects was 150.64 ± 24 mm3, which differed significantly between the 2 groups ( P < .001). Mean crista volumes were found to be statistically significantly different between the sesamoid stations ( P < .001) with decreasing crista volumes significantly and strongly correlated with increasing sesamoid station ( r = −0.80, P < .001). There was no difference in the mean pronation angle between the 4 sesamoid stations ( P = .37). The pronation angle was not associated with crista volume ( P = .52). Conclusion: HV patients have lower mean crista volume than normal patients. Crista volume is correlated with sesamoid station. Pronation of the first metatarsal was not associated with crista volume. Clinical Relevance: Crista volume may offer an additional determinant for the severity of hallux valgus.