Project description:Osteolysis is a serious postoperative complication of total joint arthroplasty that leads to aseptic loosening and surgical revision. Osteolysis is a chronic destructive process occurs when host macrophages recognize the implant particles and release inflammatory mediators that increase bone-resorbing osteoclastic activity and attenuate bone-formation osteoblastic activity. Although much progress has been made on understanding molecular responses of macrophage to implant particles, pathways/signals initiating osteolysis remain poorly characterized. Transcriptomics and gene-expression profiling of these macrophages may unravel key mechanism in pathogenesis of osteolysis and aid in identifying molecular candidates for therapeutic intervention. To this end, we analyzed the transcriptional profiling of macrophages exposed to UHMWPE particles of the most common components used in bearing materials of orthopedic implants. Regulated genes in stimulated macrophages were involved in cytokine, chemokine, growth factor and receptor activities. Gene enrichment analysis suggested that stimulated macrophages elicited common gene expression signatures for inflammation and rheumatoid arthritis. Among the regulated genes, TNFSF15 and CCL20 were further characterized as molecular targets involved pathogenesis of osteolysis. Treatment of monocyte cultures with TNFSF15 and CCL20 resulted in an increase in osteoclastogenesis and bone-resorbing osteoclastic activity, suggesting their potential contribution to loosening between implant and bone tissue.

Project description:Peri-implant fibrosis is one of the most common reasons for implant failure and surgical revision after prosthetic joint replacement. This type of surgical revisionis associated with substantial additional morbidity and healthcare costs. However, the cellular and molecular mediators of peri-implant fibrosis remain unclear. Here, we show that peri-implant fibrotic tissue in mice and humans is largely composed of a specific population of leptin receptor-expressing(LEPR+) cells and that these LEPR+cells are necessary and sufficient to both generate and maintain peri-implant fibrotic tissue. Genetic ablation of LEPR+cells prevents peri-implant fibrosis, and implantation of LEPR+cells from peri-implant fibrotic tissue is sufficient to induce fibrosis in secondary hosts. We further identify adhesion G protein-coupled receptorF5 (ADGRF5) as a crucial mediator of the fibrotic response by LEPR+cells, as conditional deletion of ADGRF5 in LEPR+cells attenuates peri-implant fibrosis while augmenting peri-implant bone formation. Finally, we demonstrate that inhibition of ADGRF5 by intra articular or systemic administration of neutralizing anti-ADGRF5prevents and reverses peri-implant fibrosis. Thus, pharmaceutical agents that inhibit the ADGRF5 pathway inLEPR+cells may represent a new approach to prevent and treat peri-implant fibrosis.

Project description:Surgical interventions rapidly trigger a cascade of molecular, cellular and neural signaling responses that ultimately reach remote organs, including the brain. Using a mouse model of orthopedic surgery, we have previously demonstrated hippocampal metabolic, structural, and functional changes associated with cognitive impairment. However, the nature of the underlying signals responsible for such periphery-to-brain communication remains hitherto elusive. This is the first exploratory study that tests the hypothesis of extracellular vesicles (EVs) as potential mediators carrying information from the injured tissue to the distal organs including the brain. The primary goal was to investigate whether the cargo of circulating EVs after surgery can undergo quantitative changes that could potentially trigger phenotypic modifications in the target tissues. EVs were isolated from the serum of the mice subjected to a tibia surgery after 6, 24, and 72 h, and the proteome and miRNAome were investigated using mass spectrometry and RNA-seq approaches. We found substantial differential expression of proteins and miRNAs starting at 6 h post-surgery and peaking at 24 h. Interestingly, one of the up-regulated proteins at 24 h was α-synuclein, a pathogenic hallmark of certain neurodegenerative syndromes. We conclude that surgery alters the cargo of circulating EVs in the blood, and our results suggest EVs as potential systemic signal carriers mediating remote effects of surgery on the brain.

Project description:Analysis of intra- and inter variation using multiple biopsies taken from the same knee. The biopsies were obtained from thirteen different patients; seven by orthopedic surgery and six by rheumatic arthroscopy. Orthopedic samples (patients 1-7 Three synovial tissue specimens were obtained from random sites of the synovium for each patient. Biopsy III of patient 7 was not used due to bad RNA quality. For patients 1-3 each biopsy was divided into three parts (1/3 of a biopsy is denoted subbiopsy). In total this resulted in 39 specimens from the orthopedic patients (nine biopsies from patients 1-3 and three biopsies from each of patients 4-7). For patient 1-3, pt1 b1.BA means patient 1 – biopsy 1 – subbiopsy B – Technical replicate A. For patient 4-7, pt4 b1A means patient 4 – biopsy 1 – technical replicate A. Arthroscopic samples (patients 8-13) Arthroscopic biopsies were taken at the site of inflammation close to cartilage (cc) or not close to cartilage (ncc), defined as less or more than 1.5 cm away from cartilage, respectively. Multiple biopsies were taken from two sites in patients 8, 11, 12, 13 and from four sites in patients 9 and 10. pt12_ncc_1A means patient 12 – not close to cartilage – biopsy 1 – technical replicate.

Project description:The specific genes that distinguish normal fracture healing from abnormal healing or nonunion in humans are unknown. This study was an exploratory investigation of peripheral blood from 2 chronic nonunion patients collected perioperatively (pre/post revision surgery) and at 3 months post revision follow up for comparison to Acutely injured subjects and Healthy volunteer cohorts analyzed separately. We used microarrays to do a global comparison between 2 chronic nonunion patients collected perioperatively (pre/post revision surgery) and at 3 months post revision follow up.

Project description:The specific genes that distinguish normal fracture healing from abnormal healing or nonunion in humans are unknown. This study was an exploratory investigation of peripheral blood from 2 chronic nonunion patients collected perioperatively (pre/post revision surgery) and at 3 months post revision follow up for comparison to Acutely injured subjects and Healthy volunteer cohorts analyzed separately. We used microarrays to do a global comparison between 2 chronic nonunion patients collected perioperatively (pre/post revision surgery) and at 3 months post revision follow up.

Project description:Innate immune activation upon surgery serves as a protective mechanism, its orchestration and timely resolution is essential for patient recovery. We investigated the determinants associated with recovery after orthopedic surgery including monocyte and cytokine signature. Blood samples from orthopedic surgery (ORT) patients were collected before (T0), and 24 h (T1) and 3-5 days (T2) after surgery. Bulk RNAseq of peripheral blood monocyte samples was performed in order to delinate the profile of monocytes in each of the time points. The bulk RNAseq data evealed upregulated genes controlling immune cell migration and differentiation, but not of pro-inflammatory genes in T2.

Project description:Patient Microbiome and Surgical Site Infection in Spine Surgery

Project description:Patient Microbiome and Surgical Site Infection in Spine Surgery

Project description:Prospective Bacteriology of Surgical Site Infection Following Surgery for Intestinal Failure