Non-thermal Infrared Light Treatment of Ischemia/Reperfusion Injury and Subsequent Analysis of Macrophage Differentiation.

Tissue damage and necrosis from inflammatory processes are a consequence of ischemia reperfusion injury (IRI). In skeletal muscle, ischemia reduces the aerobic energy capacity of muscle cells, leading to adverse biochemical alterations and inflammation. The goal of this study is to show that exposure to near-infrared light (NIR) during a period of ischemia reduces IRI by decreasing necrosis and inflammation in addition to decreasing proinflammatory M1 and increasing protective M2 macrophages. C57/Bl6 mice underwent unilateral tourniquet-induced hindlimb ischemia for 3 h followed by reperfusion for either 15 or 30 min. Mice were randomly assigned to 3 groups. Group 1 underwent IRI with 30 min reperfusion. Group 2 underwent IRI with a 15 min reperfusion. Each group consisted of 50% no-NIR and 50% NIR-treated mice with exposure of 50 mW/cm2 for 5 min/1 h after tourniquet closure. Group 3 were sham animals anesthetized for 3 h omitting IRI. Laser doppler flow imaging was performed on all mice to confirm ischemia and reperfusion. Flow data were expressed as the ratio of ischemic limb and the contralateral control. The mice were euthanized after reperfusion, and the quadriceps and gastrocnemius were harvested. Immunoprecipitation and western blot of macrophage-markers CD68 (M1) and CD206 (M2) were performed and normalized to CD14 expression. The expression of the inflammatory markers CXCL1 and CXCL5 was significantly reduced by NIR in the IRI group. A significant decrease in CD68 and an increase in CD206 expression was observed in animals receiving IR and NIR. Tissue necrosis was decreased by NIR in the IRI group, as visualized by 2,3,5-triphenyltetrazolium chloride (TTC) staining. The findings demonstrate that exposure to NIR reduced IRI and improved tissue survival. NIR reduced inflammation, decreased proinflammatory M1, and increased protective M2 macrophages. Exposure to NIR reduced inflammation and enhanced regeneration, leading to tissue protection following ischemia.

Intrapelvic Loss of a Trial Femoral Head During Total Hip Arthroplasty: A Case Report.

CASE: We report a case of intraoperative femoral head trial dislocation, with intrapelvic migration treated only with close observation with over the 17-year follow-up. CONCLUSION: Total hip arthroplasty has been used as an effective means of treating debilitating arthritis of the hip. Common complications of hip arthroplasty have been discussed at length in the literature. Intraoperative dislocation of the femoral head trial with intrapelvic migration is a relatively uncommon complication with only several documented cases in the literature. Multiple treatment strategies are described for this complication including immediate surgical exploration, delayed surgical exploration, laparoscopic exploration, and observation.

Modified V-Y Turndown Flap Augmentation for Quadriceps Tendon Rupture Following Total Knee Arthroplasty: A Retrospective Study.

BACKGROUND: Quadriceps tendon rupture following total knee arthroplasty (TKA) is an infrequent but potentially devastating adverse event. Although uncommon, the long-term sequelae of this injury can result in permanent inability to walk. Despite the severity of this injury, there is no single accepted treatment, with various surgical methods producing mixed results. Therefore, the purpose of this study was to assess the efficacy of a modified V-Y turndown flap as a viable alternative method of treatment for this injury. METHODS: Twenty-four quadriceps tendon ruptures in 23 patients (10 men and 13 women) who underwent TKA (8 primary and 15 revision), including 1 tendon rerupture, were treated with use of a modified V-Y turndown. The average patient age at the time of the V-Y flap repair was 61 years (range, 41 to 86 years). Knee Society scores, range of motion, strength, medical comorbidities, nature of the procedure (i.e., primary versus revision), and the ability to walk were all recorded before and after the quadriceps reconstruction, along with general satisfaction and adverse events following the procedure. RESULTS: Twelve patients (52%) had predisposing comorbidities, including obesity, diabetes, chronic dialysis, and steroid dependence. Prior to repair with the V-Y flap, none of the patients were able to walk independently, requiring either a wheelchair or walker. No patient had quadriceps strength greater than 3 (of 5), although all had full passive extension. Following the repair procedure, patients had significant (p < 0.0001) improvements in mean Knee Society knee score (88.7; range, 45 to 95) and mean strength (4.8; range, 3 to 5), and all were able to walk without assistive devices. Twenty knees exhibited active range of motion of 0° to 120°, whereas 4 had residual extensor lag of ≥5° (range, 5° to 35°). Major adverse events were limited to a single hematoma and an unacceptable extensor lag (35°) after repair. CONCLUSIONS: The modified V-Y quadriceps tendon turndown flap was a reliable alternative treatment for achieving restoration of the extensor mechanism after complete quadriceps tendon rupture following TKA. LEVEL OF EVIDENCE: Therapeutic Level IV. See Instructions for Authors for a complete description of levels of evidence.

Selective Denervation for Persistent Knee Pain After Total Knee Arthroplasty: A Report of 50 Cases.

BACKGROUND: Despite the general success of total knee arthroplasty (TKA), up to 20% of patients report dissatisfaction following surgery. One potential cause of this dissatisfaction is residual pain secondary to neuroma formation in the sensory nerve branches that innervate the knee. We found, after performing a retrospective review, that up to 9.7% of patients following primary TKA and up to 21% of revision cases exhibited persistent knee pain attributable to neuroma formation. Despite the high incidence of this pathology, little is known about the effective diagnosis or treatment of neuroma formation following TKA. METHODS: Between 2011 and 2014, 50 patients with persistent symptomatic neuroma pain following TKA underwent selective denervation. These patients had demonstrated the appropriate selection criteria and had failed conservative management. Patients were evaluated by the visual analog scale pain score and the Knee Society Score to determine the outcome of the described treatment. RESULTS: Thirty-two patients (64%) rated their outcome as excellent, 10 (20%) as good, 3 (6%) as fair, and 2 (4%) reported no change. The mean visual analog scale pain score was improved from 9.4 ± 0.8 to 1.1 ± 1.6 following surgery (P ≤ .001). The mean Knee Society Scores increased from 45.5 ± 14.3 to 94.1 ± 8.6 points (P ≤ .0001). Three patients (6%) required the second neurectomy due to recurrent pain and received excellent pain relief postoperatively. There were 2 complications of superficial skin peri-incisional hyperemia related to dressings. Average follow-up duration was 24 months (range, 16-38 months). CONCLUSION: Our study suggests that selective denervation provides an effective and long-lasting option for the management of this pathology.

Autophagy modulates articular cartilage vesicle formation in primary articular chondrocytes.

Chondrocyte-derived extracellular organelles known as articular cartilage vesicles (ACVs) participate in non-classical protein secretion, intercellular communication, and pathologic calcification. Factors affecting ACV formation and release remain poorly characterized; although in some cell types, the generation of extracellular vesicles is associated with up-regulation of autophagy. We sought to determine the role of autophagy in ACV production by primary articular chondrocytes. Using an innovative dynamic model with a light scatter nanoparticle counting apparatus, we determined the effects of autophagy modulators on ACV number and content in conditioned medium from normal adult porcine and human osteoarthritic chondrocytes. Healthy articular chondrocytes release ACVs into conditioned medium and show significant levels of ongoing autophagy. Rapamycin, which promotes autophagy, increased ACV numbers in a dose- and time-dependent manner associated with increased levels of autophagy markers and autophagosome formation. These effects were suppressed by pharmacologic autophagy inhibitors and short interfering RNA for ATG5. Caspase-3 inhibition and a Rho/ROCK inhibitor prevented rapamycin-induced increases in ACV number. Osteoarthritic chondrocytes, which are deficient in autophagy, did not increase ACV number in response to rapamycin. SMER28, which induces autophagy via an mTOR-independent mechanism, also increased ACV number. ACVs induced under all conditions had similar ecto-enzyme specific activities and types of RNA, and all ACVs contained LC3, an autophagosome-resident protein. These findings identify autophagy as a critical participant in ACV formation, and augment our understanding of ACVs in cartilage disease and repair.

Porous ongrowth surfaces alter osteoblast maturation and mineralization.

Implant fixation through osseointegration is essential for the success of uncemented total joint arthroplasty, and nature and composition of implant surface play a critical role in this process. Despite widespread use of uncemented implants, the extent of bone ingrowth into implants is generally only a small percentage of the total implant surface. An understanding of the processes whereby bone cells grow into and multiply on porous surfaces is critical for the design and manufacture of implants that maximize ingrowth and implant fixation. A wide variety of implant materials are currently utilized for uncemented total joint arthroplasty, including titanium mesh, cobalt chromium beads, and tantalum deposited on a carbon network. Despite differences in physical and chemical properties of these materials, all have functioned well clinically. Therefore, the goals of this study were to compare and contrast the effects of these materials on the proliferation, phenotypic maturation, and mineralization of osteoblasts. Disks of porous tantalum, titanium mesh, and cobalt chromium beaded surfaces were fabricated and processed employing the same methods used to produce implants, including packaging and sterilization. Preosteoblasts were plated on disks, cellular morphology was evaluated by scanning electron microscopy. Osteoblast proliferation was significantly higher on the porous tantalum compared to other implant surfaces. Alkaline phosphatase activity, osteocalcin secretion, and upregulation of RUNX2 were inversely proportional to the rate of proliferation. Mineralization of osteoblasts paralleled the rate of proliferation. These findings suggest that proliferation of osteoblasts into the interstices of implant materials along with delayed maturation were favorable for increased bone ongrowth and ultimately implant stabilization.

Metal ions activate vascular endothelial cells and increase lymphocyte chemotaxis and binding.

Metal on metal articulations in hip arthroplasty offer advantages, including lower volumetric wear compared to conventional metalonpolyethylene bearings, and increased resistance to dislocation. Reports described early failures, with histologic features similar to a Type IV immune response. Mechanisms by which metal wear products cause this reaction are not completely understood. We hypothesized a mechanism through direct activation of endothelial cells (ECs) by metal ions, resulting in both vasculitis and accumulation of lymphocytes without prior immune sensitization. Effects of metal ions were evaluated using human ECs in culture. Alterations in chemotactic proteins IL8 and MCP1 were assessed, as was upregulation of the adhesion molecule ICAM-1 and lymphocyte binding to ECs. Cobalt increased secretion of IL8 and MCP1 significantly, and upregulated the expression of ICAM-1 in ECs compared to stimulation by chromium and controls. Binding of lymphocytes to ECs and transEC migration were both significantly increased by cobalt but not chromium. These findings suggest that cobalt contributes more to the activation of ECs and lymphocyte binding than chromium without an allergic response. Some of the adverse tissue reactions to implants with components made of cobalt-chromium-molybdenium alloys may be due in part to activation of the endothelium by metal ions.

Far red/near infrared light treatment promotes femoral artery collateralization in the ischemic hindlimb.

Nitric oxide (NO) is a crucial mediator of hindlimb collateralization and angiogenesis. Within tissues there are nitrosyl-heme proteins which have the potential to generate NO under conditions of hypoxia or low pH. Low level irradiation of blood and muscle with light in the far red/near infrared spectrum (670 nm, R/NIR) facilitates NO release. Therefore, we assessed the impact of red light exposure on the stimulation of femoral artery collateralization. Rabbits and mice underwent unilateral resection of the femoral artery and chronic R/NIR treatment. The direct NO scavenger carboxy-PTIO and the nitric oxide synthase (NOS) inhibitor L-NAME were also administered in the presence of R/NIR. DAF fluorescence assessed R/NIR changes in NO levels within endothelial cells. In vitro measures of R/NIR induced angiogenesis were assessed by endothelial cell proliferation and migration. R/NIR significantly increased collateral vessel number which could not be attenuated with L-NAME. R/NIR induced collateralization was abolished with c-PTIO. In vitro, NO production increased in endothelial cells with R/NIR exposure, and this finding was independent of NOS inhibition. Similarly R/NIR induced proliferation and tube formation in a NO dependent manner. Finally, nitrite supplementation accelerated R/NIR collateralization in wild type C57Bl/6 mice. In an eNOS deficient transgenic mouse model, R/NIR restores collateral development. In conclusion, R/NIR increases NO levels independent of NOS activity, and leads to the observed enhancement of hindlimb collateralization.

Proteomic analysis of articular cartilage vesicles from normal and osteoarthritic cartilage.

OBJECTIVE: Articular cartilage vesicles (ACVs) are extracellular organelles found in normal articular cartilage. While they were initially defined by their ability to generate pathologic calcium crystals in cartilage of osteoarthritis (OA) patients, they can also alter the phenotype of normal chondrocytes through the transfer of RNA and protein. The purpose of this study was to analyze the proteome of ACVs from normal and OA human cartilage. METHODS: ACVs were isolated from cartilage samples from 10 normal controls and 10 OA patients. We identified the ACV proteomes using in-gel trypsin digestion, nanospray liquid chromatography tandem mass spectrometry analysis of tryptic peptides, followed by searching an appropriate subset of the Uniprot database. We further differentiated between normal and OA ACVs by Holm-Sidak analysis for multiple comparison testing. RESULTS: More than 1,700 proteins were identified in ACVs. Approximately 170 proteins satisfied our stringent criteria of having >1 representative peptide per protein present, and a false discovery rate of ≤5%. These proteins included extracellular matrix components, phospholipid binding proteins, enzymes, and cytoskeletal components, including actin. While few proteins were seen exclusively in normal or OA ACVs, immunoglobulins and complement components were present only in OA ACVs. Compared to normal ACVs, OA ACVs displayed decreases in matrix proteoglycans and increases in transforming growth factor ß-induced protein ßig-H3, DEL-1, vitronectin, and serine protease HtrA1 (P < 0.01). CONCLUSION: These findings lend support to the concept of ACVs as physiologic structures in articular cartilage. Changes in OA ACVs are largely quantitative and reflect an altered matrix and the presence of inflammation, rather than revealing fundamental changes in composition.

The serine protease inhibitor trappin-2 is present in cartilage and synovial fluid in osteoarthritis.

OBJECTIVE: Trappins are small serine protease inhibitors bound to extracellular matrix (ECM) through the actions of transglutaminase (TGase) enzymes. Trappin-2 is present in many tissues and is upregulated at sites of injury. In osteoarthritis (OA), serine proteases contribute to articular cartilage destruction, and TGase activity is increased. Yet little is known about matrix-bound serine protease inhibitors or TGase substrates in articular cartilage. Our purpose was to determine if trappin-2 was present in OA cartilage and synovial fluid (SF). METHODS: OA knee articular cartilage and SF were assayed for trappin-2 protein by Western blotting, ELISA, and immunohistochemistry. Trappin-2 mRNA was detected with RT-PCR. The ECM components bound to trappin-2 were identified by 2-D gel electrophoresis and peptide fingerprinting. RESULTS: Trappin-2 was detectable in OA articular cartilage extracts, cultured chondrocytes, conditioned media, and SF by Western blotting. OA cartilage protein extracts contained significantly higher quantities of trappin-2 than normal cartilage protein extracts (22.98 +/- 1.28 ng/mg wet weight vs 14.97 +/- 1.92 ng/mg wet weight; p < 0.01). RT-PCR confirmed the presence of trappin-2 mRNA in OA chondrocytes. Immunohistochemical studies of OA cartilage revealed trappin-2 protein in chondrocytes. Peptide mapping of trappin-2 binding partners showed that fibromodulin was bound to trappin-2 in cartilage. CONCLUSION: We confirmed the presence of trappin-2 in OA cartilage and SF. Elevated levels of TGase activity in OA cartilage may increase levels of this serine protease inhibitor in response to injury.

Retrieval of an intact, intraarticular bullet by hip arthroscopy using the lateral approach.

A twenty-seven-year-old man sustained a gunshot wound to the left gluteal region. Both plain films and a computed tomography (CT) scan confirmed that the bullet was in the hip joint. Using the lateral approach, the patient underwent hip arthroscopy, and the bullet was removed without difficulty. After surgery, the patient went on to an uneventful recovery. The use of arthroscopy for bullet removal minimized the surgical dissection, avoided an extensive capsulotomy, and reduced the associated risk of injury to the blood supply of the femoral head and osteonecrosis. This report illustrates the application of hip arthroscopy in the removal of retained bullets with minimal associated morbidity and further expands the indications for this procedure.