Wrist arthroscopy is a standard procedure in hand surgery for diagnosis and treatment of wrist injuries. Even though not generally recommended for similar procedures, general administration of perioperative antibiotic prophylaxis (PAP) is still widely used in wrist arthroscopy. A clinical ambispective dual-centre study was performed to determine whether PAP reduces postoperative infection rates after soft tissue-only wrist arthroscopies. Retrospective and prospective data was collected at two hospitals with departments specialized in hand surgery. During the study period, 464 wrist arthroscopies were performed, of these 178 soft-tissue-only interventions met the study criteria and were included. Signs of postoperative infection and possible adverse drug effects (ADEs) of PAP were monitored. Additionally, risk factors for surgical site infection (SSIs), such as diabetes mellitus and BMI, were obtained.Aims
Methods
Carpometacarpal osteoarthritis is a degenerative disease of the hand that causes pain, stiffness and weakness. Currently, no drugs are available to prevent progression or cure this disease. Ultimately, the last treatment option is the surgical removal of the trapezium bone. In order to this limited treatment options, the utilization of autologous fat injections or adipose-derived stem progenitor cells (ADSPCs) provides a novel treatment option to inhibit the progression of this disease and potentially regenerate the damaged tissue. By utilizing next-generation-sequencing (NGS), we aim to uncover novel factors, released by ADSPCs or whole-fat aspirates, that might be involved into the metabolism of osteoarthritic cartilage.Background
Objective
Previous studies have shown that Tnmd is important for tendon maturation and has key implications for the residing tendon stem/progenitor cells. The putative signaling in which Tnmd participates is just starting to be better understood (Dex et al. 2016). However, its exact functions during tendon healing process still remain elusive. Therefore, the aims of this study were to perform systematic review of the literature on Tnmd-related research and to investigate the role of Tnmd in early tendon healing by applying a tendon rupture model in Tnmd-deficient mice. First, we searched in the PubMed database for articles containing “tenomodulin” or its alternative names and abbreviations. After exclusion of papers only available in abstract form and foreign language, we grouped the remaining 128 full-text publications into four study types: 1) looking into functions of Tnmd; 2) using Tnmd as a tendon marker; 3) correlating Tnmd mutations to a variety of diseases; and 4) reviews. Following literature analysis, we carried out a pilot Achilles tendon injury model with Tnmd-knockout (KO) mouse strain. Adult Tnmd-KO (n = 8) and wild-type (WT) (n = 8) mice underwent unilateral surgery of Achilles tendon based on Palmes et al. 2002 and were compared at day 8 postoperatively by: 1) H&E staining for overall assessment; 2) immunohistochemical BrdU analysis for cell proliferation; and 3) Safranin O staining for endochondral formation. Our literature screen revealed that Tnmd has been strongly justified as the best tendon and ligament marker in more than 90 different studies. Moreover, in vivo and in vitro investigations have demonstrated its positive role on tendon cell proliferation and tissue functions. Our follow up surgical study showed a very different scar organization in Tnmd-KO with a clearly reduced cell density. BrdU analysis confirmed a lower number of proliferating cells in Tnmd-KO scar area. Interestingly, endochondral formation was not observed in the scar tissues in either of the genotypes at day 8. Taken together, we systematically summarized the current knowledge on Tnmd gene and highlighted several future research perspectives. Lack of studies on the role of Tnmd in tissue healing, motivated our pilot investigation on Achilles tendon rupture, which in turn suggested that loss of Tnmd results in inferior repair process.
