Multiple organ failure (MOF) is a major cause of trauma mortality and morbidity. The role of surgical procedures in precipitating MOF remains unclear. Data on timing and duration of surgery was collated on 491 consecutive patients admitted to a Major Trauma Centre, who survived more than 48 hours and required Intensive Care Unit admission. MOF was defined according to the Denver Post Injury MOF Score, where MOF can occur only later than 48 hours after injury to exclude physiological derangements resulting from inadequate resuscitation. Overall, 268 patients (54.6%) underwent surgery within 48 hours of injury, with 110 (22.4%) requiring surgery within 6 hours of injury. Total mean intra-operative time (p=0.067) nor the need for an operation within the first 6 (p=0.069) or 48 hours (p=0.124) were associated with MOF development. Multivariate predictive modelling of MOF showed timing and duration of surgery had no significant predictive power for MOF development (Odds Ratio 0.72, 95% CI 0.47–1.10). Despite previous indication that early surgical intervention can precipitate MOF, current surgical strategy does not appear to impact MOF development

Aims

Little is known about the effect of haemorrhagic shock and resuscitation on fracture healing. This study used a rabbit model with a femoral osteotomy and fixation to examine this relationship.

Aims. Periprosthetic joint infection (PJI) demonstrates the most feared complication after total joint replacement (TJR). The current work analyzes the demographic, comorbidity, and complication profiles of all patients who had in-hospital treatment due to PJI. Furthermore, it aims to evaluate the in-hospital mortality of patients with PJI and analyze possible risk factors in terms of secondary diagnosis, diagnostic procedures, and complications. Methods. In a retrospective, cross-sectional study design, we gathered all patients with PJI (International Classification of Diseases (ICD)-10 code: T84.5) and resulting in-hospital treatment in Germany between 1 January 2019 and 31 December 2022. Data were provided by the Institute for the Hospital Remuneration System in Germany. Demographic data, in-hospital deaths, need for intensive care therapy, secondary diagnosis, complications, and use of diagnostic instruments were assessed. Odds ratios (ORs) with 95% confidence intervals (CIs) for in-hospital mortality were calculated. Results. A total of 52,286 patients were included, of whom 1,804 (3.5%) died. Hypertension, diabetes mellitus, and obesity, the most frequent comorbidities, were not associated with higher in-hospital mortality. Cardiac diseases as atrial fibrillation, cardiac pacemaker, or three-vessel coronary heart disease showed the highest risk for in-hospital mortality. Postoperative anaemia occurred in two-thirds of patients and showed an increased in-hospital mortality (OR 1.72; p < 0.001). Severe complications, such as organ failure, systemic inflammatory response syndrome (SIRS), or septic shock syndrome showed by far the highest association with in-hospital mortality (OR 39.20; 95% CI 33.07 to 46.46; p < 0.001). Conclusion. These findings highlight the menace coming from PJI. It can culminate in multi-organ failure, SIRS, or septic shock syndrome, along with very high rates of in-hospital mortality, thereby highlighting the vulnerability of these patients. Particular attention should be paid to patients with cardiac comorbidities such as atrial fibrillation or three-vessel coronary heart disease. Risk factors should be optimized preoperatively, anticoagulant therapy stopped and restarted on time, and sufficient patient blood management should be emphasized. Cite this article: Bone Jt Open 2024;5(4):367–373

Sarcopenia is a progressive and generalized skeletal muscle disorder that involves loss of muscle mass and function. It is associated with increased adverse outcomes including falls, functional decline, frailty and mortality and affects 65% of people over the age of 65 more than half of people aged 80 and above. The factors that cause and worsen sarcopenia are categorised into two groups. The primary aetiological factor is ageing and the secondary factors include disease, physical inactivity, and poor nutrition. Sarcopenia is considered to be ‘primary' (or age-related) when no other specific cause is evident. However, a number of ‘secondary' factors may be present in addition to ageing. Sarcopenia can occur secondary to a systemic or inflammatory disease, including malignancy and organ failure. Physical inactivity is one of the major contributors to the development of sarcopenia, whether due to a sedentary lifestyle or to disease related immobility or disability. Furthermore, sarcopenia can develop as a result of inadequate protein consumption. Biomarkers are objective and quantifiable characteristics of physiological and pathophysiological processes. Biomarkers can be used to predict the development of sarcopenia in older susceptible adults and enable early interventions that can reduce the risk of physical disability, the co-morbidities associated with the loss of muscle mass and the poor health outcomes that result from sarcopenia. Non-invasive imaging technologies can be used as biomarkers to detect loss of skeletal muscle mass in sarcopenia include bone densitometry, computed tomography, ultrasound and magnetic resonance imaging. However, imaging requires sophisticated and expensive equipment that is not available in a resource poor setting. Therefore, markers of skeletal muscle strength and fitness and soluble biochemical markers in blood may be used as alternative biomarkers. Studies on sarcopenia have identified numerous soluble biochemical biomarkers. These biomarkers can be divided into two groups: “muscle-specific” and “non-muscle-specific” biomarkers. Since sarcopenia is associated with rapid skeletal muscle wasting, the skeletal muscle-specific isoform of troponin T may be considerate a useful biomarker of sarcopenia, since high troponin levels in blood are an expression of muscle wasting. Peptides derived from collagen type VI turnover may be potential biomarkers of sarcopenia. We have recently conducted a systematic review to summarize the data from recent mass-spectrometry based proteomic studies of the secretome of skeletal muscle cells in response to disease, exercise or metabolic stress in order to identify the proteins involved in muscle breakdown. Developing robust in vitro models for the study of sarcopenia using primary muscle cells is a high priority as is exploiting the in vitro models to understand catabolic and inflammatory processes and molecular mechanisms involved in sarcopenia. Co-cultures with adipose-derived and other cells may be used to screen for small molecules and biologicals capable of inhibiting the catabolic and inflammatory pathways involved in sarcopenia. This presentation reviews recent progress in this area and outlines opportunities for future research on sarcopenia

Purpose. Severe osteo-articular infection can be a devastating disease causing local complications, multiple organ failure and death. The aim of this study is to highlight the potential severity and subsequent sequelae of osteo-articular infections in children and to determine causative factors leading to this devastating condition. Methods. We retrospectively report on six cases treated at two academic hospitals. We included all patients with osteo-articular infections who had multi-organ involvement. All patients had more than one joint as well as another organ involved as a direct result of the bacteraemia. All patients with single organ involvement were excluded. The patient files were recorded as part of a previously published study. Data capture included X-rays, serology for blood culture, FBC, ESR, CRP and HIV. Ultrasound of involved joints, technetium bone scans, echocardiograms and computed tomography of the brain were performed when indicated. Results. There was a delay in the diagnosis and subsequent treatment of all of these patients, mean duration 4.8 days(1 to 10) Twenty-two osteo-articular sites were involved mean 3,7 sites (2 to 6)and seventeen other organs mean 2,8 (2 to 5). The mean number of debridements or joint washouts for each patient was 4,5 (3 to 6). Four of the six cases cultured organisms: One Staphylococcus aureus, one Haemophilus influenzae and one Candida spp on tissue. Local complications included chronic osteomyelitis, physeal separation, pathological fractures and hip dislocation. There was one death in a nine year old HIV positive patient with severe multiple organ failure. Conclusion. A delay in the diagnosis and treatment of osteo-articular infection was identified as the causative factor leading to severe infection with life threatening complications. NO DISCLOSURES

Hypothesis: In severely the injured, there has been a move away from early total care to staged physiological and anatomic reconstruction, damage control orthopaedics (DCO). This seeks to limit the magnitude of the second hit insult resulting from operative treatment after trauma, deferring complex reconstructive work until a later stage. For femoral shaft fracture, this entails initial external fixation, to provide early skeletal stabilisation, and subsequent conversion to an intramedullary nail (IMN). Materials and Methods: Patients with femoral shaft fracture, who underwent primary IMN or DCO between 1996 and 2002 were identified from our database. Those with New Injury Severity Score (NISS) < 20 were excluded. The systemic inflammatory response (SIRS) and Marshall multi-organ failure scores (MMOFS) were calculated every 12h for 4 days. These systems have been previously correlated with outcome and complications in critical care. Results: 174 patients were included. The mean SIRS score was higher at each time period post operatively in the IMN group (p < 0.01). The MMOFS was slightly higher at each point in the DCO group, (only sig. at 48h). There was a higher incidence of pneumonia and mortality (significant p < 0.02), ARDS and MOF (both n.s.) in the DCO group, this being attributable to the higher incidence of head and thoracic injury (AIS severity 2 or more). The mean peak post-operative SIRS score was significantly higher in the IMN group than in the DCO group, both at primary procedure and conversion, as was the time with SIRS score above 1. The pre-op and peak post-op SIRS score correlated with the peak post op MMOFS score (p 0.0002). The conversion pre-op SIRS score correlated with post-operative peak SIRS score and MMOFS score (p 0.0001). On average, a significant rise in the MMOFS score did not occur following the conversion procedure. Conclusion: It would appear that despite having significantly more severe injuries, patients in the DCO group had a smaller, shorter postoperative systemic inflammatory response and suffered only slightly more pronounced organ failure than the IMN group. They did suffer more complications, but this was only significant for pneumonia. DCO patients undergoing conversion whilst their SIRS score was raised suffered the most pronounced subsequent inflammatory response and rise in organ failure score

Background. Polytrauma patients are at high risk of systematic inflammatory response syndrome (SIRS) due to an exaggerated unbalanced immune response that can lead to multiple organ failure and increased mortality. This response is often heightened following acute surgical management as a result, damage-control orthopaedics (DCO) was born. This allows the patient to be stabilised using external fixation allowing physiology to improve. This systematic review aims to compare DCO against early total care (ETC) (<24hrs intramedullary nailing) in polytraumatised patients with femoral shaft fractures using a diagnosis of acute lung injury (ALI) as the primary outcome measure. Method. A systematic review of MEDLINE, EMBASE, CENTRAL and AMED was carried out to identify all English language studies comparing ETC versus DCO using ALI as the primary outcome measure. Two authors independently screened the studies and performed data extraction. Risk of bias was assessed using the Cochrane risk of bias tool and the Risk-of-Bias Assessment Tool for Non-randomised Studies. Results. Three studies were selected for final inclusion. One multicentre RCT demonstrated a significantly higher odds ratio (6.69) of ALI in the subgroup receiving ETC compared to DCO. The two other studies were retrospective case series with one reporting no significant difference and the second study reporting a significant reduction in ARDS when a DCO approach was used (7.8% vs 15.1%). Meta-analysis was not possible due to heterogeneity. Conclusions. This review supports evidence that in the more unstable patients (Injury Severity Score≥30) treated surgically for femoral shaft fractures in the first 24 hours, DCO may have a protective effect over ETC for ALI. However further studies with large sample sizes are needed to provide clarity on the subject area. Level of Evidence. 1. Ethics. No approval required given the nature of this study (systematic review)

Purpose of study:. In polytrauma patients (ISS > 16) early long bone and pelvic fracture fixation (< 24 hours post injury) has been shown to be beneficial. Surgery in the presence of subclinical hypo perfusion (SCH) (normal vital signs with a serum lactate > 2.5 mmol/L) may be detrimental. This study aimed to investigate the effect of fracture fixation in polytrauma patients with SCH. Description of methods:. We performed a retrospective database review of polytrauma patients (ISS > 16) with significant long bone or pelvic fractures (extremity NISS> 9) who underwent surgical fracture stabilisation within 48 hours of injury. In the group of patients with normal vital signs (mean arterial pressure (MAP) > 60 mmHg and heart rate (HR) < 110 beats/min) we compared outcomes of those with normal lactate (< 2.5 mmol/L) prior to surgery with patients that had a raised lactate (> 2.5 mmol/L). Results:. Of the 36 patients with normal preoperative vital signs, 17 had normal serum lactates (control group) and 19 abnormal (SCH group). The SCH group required more inotropes in the first 24 hours post-surgery (p=0.02), had higher Sequential Organ Failure Assessment (SOFA) scores on day three (p=0.003) and showed a trend towards higher SOFA scores on day seven (p=0.061). Conclusion:. Early fracture fixation in patients with SCH as evidenced by a lactate > 2.5 mmol/L is associated with worse postoperative outcomes. Consideration should be given to delaying surgery in this cohort until resuscitation is complete

Post traumatic stress disorder (PTSD) is well recognised in children having repeated medical/surgical procedures. It has been suggested that it is common in young children undergoing growing rod treatment with ongoing lengthening and the inevitable accompanying complications. We present an index case history, review the literature in order to infer a correlation for the incidence of PTSD and discuss diagnosis and management. We present an index case history of PTSD in a young child undergoing growing rod treatment for scoliosis. The literature was reviewed for PTSD in paediatric surgery and pathologies requiring multiple treatments. Spinal surgery is compared with paediatric cancer, burns, organ failure/transplant, cardiopulmonary disease, inflammatory bowel disease, cystic fibrosis and limb lengthening. No published studies examine PTSD in children undergoing multiple spinal surgeries. One paper reports that children undergoing growing rod treatments show “behavioural alterations” and changes in psychosocial behaviour, including anxiety on entering the operating room and broken rod worries. A recent spine meeting presentation referred to this. Psychosocial problems occur in up to 30% of children with chronic or life-threatening illnesses which involve ongoing treatments. Factors such as age, parental anxiety and previous adverse medical experiences influence anxiety, depression and PTSD. Based on our index case and methodological correlation with similar pathologies, we fell that PTSD is a genuine concern in children who have repeated spinal operations. This paper is part of an ongoing study, but we believe that the spinal community should be aware of this diagnosis and its management. Ethics approval: Audit Interest Statement: None

Background /Methods: Abbreviated Injury Scale based systems; the ISS, NISS, and AISmax, are used to assess trauma patients. The merits of each in predicting outcome are controversial. A large prospective database was used to assess their predictive capacity using receiver operator characteristic curves. Results: 13,301 adult patients met the inclusion criteria. All systems were significant outcome predictors for sepsis, multiple organ failure (MOF), length of hospital stay, length of ICU admission and mortality (p 0.0001). NISS was a significantly better predictor than the ISS for mortality (p 0.0001). NISS was equivalent to the AISmax for mortality prediction and superior in patients with orthopaedic injuries. NISS was significantly better for sepsis, MOF, ICU stay and total hospital stay (p 0.0001). Analysis of the ROC curves revealed that the traditional ISS cut-offs for severity of 16, 25 and 50 should be increased to 20, 30 and 55 to provide patients with equivalent outcome. Conclusions: NISS is superior or equivalent to the ISS and AISmax for prediction of all investigated outcomes in a population of blunt trauma patients. As NISS is easier to calculate, its use is recommended to stratify patients for clinical and research purposes

Introduction: Elevated plasma elastase levels have been reported following major trauma and isolated femoral fracture. Reamed femoral nailing has been shown to further increase plasma elastase levels. The aim of this study was to investigate neutrophil (PMN) priming for degranulation following major trauma and isolated long-bone pelvis fracture by assessing the ability of PMN to release elastase in-vitro in response to phorbol myristate acetate (PMA) an analogue of dia-cylglycerol (DAG) a component of the “second messenger” system. Methods: 11 major trauma (ISS≥18) patients and 18 patients with isolated long-bone/pelvis fracture, were consented to enter the study. Patients in the isolated fracture group were further stratified depending upon the type of fracture stabilization they underwent [reamed nail (n=12), Ex-Fix (n=6)]. Blood samples were obtained on admission, at 24 hours post injury, at day 3 and day 5. 11 healthy volunteers were used as controls. PMN were isolated by dextran sedimentation and ficoll-hypaque density gradient centrifugation. The ability of PMN to degranulate was assessed by an elastase substrate assay. Results: A significant increase in the capacity of PMN to release elastase in response to a PMA stimulus was seen in major trauma patients on admission as compared with healthy volunteers. However in patients with isolated long-bone/pelvis fracture, there was no difference in levels of elastase release. Further no difference in the ability of PMN to release elastase was seen between the reamed nail and Ex-Fix groups. Conclusions: In conclusion we show that PMN are primed for increased degranulation (elastase release) following major trauma but not following isolated long-bone/pelvis fracture. These primed PMN are capable of increased tissue damage following major trauma thus increasing the risk of development of multiple organ failure

Aims

Two-stage exchange revision total hip arthroplasty (THA) performed in case of periprosthetic joint infection (PJI) has been considered for many years as being the gold standard for the treatment of chronic infection. However, over the past decade, there have been concerns about its safety and its effectiveness. The purposes of our study were to investigate our practice, collecting the overall spacer complications, and then to analyze their risk factors.

Introduction: The principles of fracture management in patients with multiple injuries continue to be of crucial importance. Early treatment of unstable patients with head, chest, abdomen or pelvic injuries with blood loss) followed by an immediate fracture fixation (“Early Total Care”) may be associated with a secondary life threatening posttraumatic systemic inflammatory response syndrome (SIRS). We present our experience experience in the treatment strategy of polytraumatized patients with femoral shaft fracture. Patients and Methods: From 1995 to 2008 there were 137 polytraumatized patients with femoral shaft fracture treated in our hospital. The outcomes of their treatment were retrospectively analyzed in this study. Patients were grouped according the treatment strategies for stabilization of the femoral shaft fracture: Group A – 99 patients treated with early total care (ETC) - intramedullary nailing (IMN) within 24 h of injury Group B- 38 patients treated with temporary external fixation as a bridge to IMN (DCO surgery starting at 2005). Results: The groups were comparable regarding age, gender distribution and mechanism of injury. ISS was higher in group B (DCO) – 32,2 compared to group A (ETC) – 22,6. The patients in DCO group required significantly more fluids (14,2 L) then those in ETC (8,2 L) and blood (2,2 vs 1,3 L) in the initial 24 hours. Thoracic, abdominal or head injuries were accounted significantly higher number of patients submitted to DCO group from 2005 (24,2%) compared to ETC group (12,4%). Mean operative time for External Fixators was 40 minutes, 110 minutes for IMN. There was a significantly higher incidence of ARDS in ETC group −18,2% compared to DCO group – 8,6%. The incidence of multiple organ failure (MOF) was significantly lower in DCO group – 7,4% than in ETC group – 12,1 %. There were 3 unexpected deaths and 2 cases with conscious worsening in patients with head injury in ETC group. No significant differences in the incidence of local complications were found. Conclusions: Based on this study it seems that a significant reduction in incidence of general systemic complications (ARDS, MOF) was found in DCO group in comparison with ETC group, Changing of the treatment protocol from ETC to DCO is not associated with increased rate of local complications (pin-tract infections, delayed unions or nonunions). There is a lower complication rate in DCO Group despite higher ISS compared with the ETC Group, DCO surgery appears to be an viable alternative for polytraumatized patients with femoral shaft fracture

Background: Bacterial translocation is defined as a phenomenon in which live bacteria cross the intestinal barrier and spread the other systemic organs after various type of traumatic insults such as hemorrhagic shock, burn, malnutrition and abdominal trauma. It has also been shown that multiple fractures of long bones associated with head injury promote bacterial translocation. Aim: To determine whether early internal fixation of long bone fractures helps to prevent bacterial translocation. Materials and methods: Thirty-seven male Sprague-Dawley rats were divided into three groups. 1) anesthesia only (control group, n=12); 2) anesthesia + tibia fracture + femur fracture + moderate head trauma (trauma group, n=14), and 3) anesthesia + fixation of both tibia and femur fractures + moderate head trauma (fixation group, n=11). Head injury was created by using Marmarou’s impaction-acceleration model and fractures were created by using a blunt guillotine. After 24 hours, mesenteric lymph nodes, liver, spleen and systemic blood samples were quantitatively cultured to detect bacterial translocation. Finally, ileum was cultured to determine the indigenous intestinal flora. Results: The most commonly translocating bacteria were enterococci, E.coli, and group D streptococci. The incidence of bacterial translocation was lower in fixation group (2/11) than the trauma group (10/14) (Fishers exact test, p=0.025). No statistical difference was detected between the control and the fixation group. The number of organs containing viable bacteria was significantly lower in the control and fixation groups than the trauma group (Mann Whitney U test, p=0.002). Conclusion: Multiple organ failure which is the most severe complication after trauma has a mortality rate of 50–70%. It is believed that MOF results from sepsis from organisms in the intestinal flora; a process termed bacterial translocation. Our data revealed that in case of multiple long bone fractures combined with moderate head injury, systemic translocation of the gut bacteria may be prevented by early internal fixation of the bones

Patients with bilateral femur shaft fractures are known to have a higher rate of complications when compared with those who have unilateral fractures. Many contributing factors have been considered responsible, however due to the heterogeneity of the studied populations solid conclusions cannot be substantiated. Patients included in our study were separated according to the presence of a unilateral (group USF) (n=146) versus bilateral femur shaft fracture (group BSF) (n=19)Endpoints of the study included the incidence of systemic (SIRS, Sepsis, Acute Lung Injuries) complications. The perioperative assessment included documentation of clinical and laboratory data assessing blood loss, coagulopathy, wound infection, and pneumonia. Local (wound infection, compartment syndrome etc.) and systemic complications (ALI, MOF, Sepsis) were documented. Statistical analyses were conducted to examine the relation between the occurrence of unilateral versus bilateral femoral fractures and variables indexing patient demographic characteristics and other indicators of initial injury severity. Independent sample t-tests were used to examine treatment group differences for variables that approximated a Gaussian distribution. For non-normal indicators of injury severity Mann-Whitney tests were performed. Pearson chi-square tests were performed for binary indicators of injury severity, except when expected cell counts did not exceed 5 participants. When this occurred, the Fisher exact test was used Evidence indicated that patients who suffered a bilateral femoral fracture were significantly more likely to have hemothorax and receive a blood transfusion upon admission to the hospital in comparison to patients who suffered a unilateral femoral fracture. Bivariate analyses also indicated that patients with bilateral femoral fractures exhibited a longer clinical recovery time and were more likely to experience clinical complications in comparison to those with unilateral fractures. However, there were no significant differences between the fracture groups in terms of the number of hours spent on a ventilator or the occurrence of pneumonia, acute lung injury, acute respiratory distress, sepsis, and multiple organ failure following surgery. Patients in borderline condition spent significantly more time in the ICU in comparison to those in stable condition. The high incidence of posttraumatic complications in poly-trauma patients with bilateral femur shaft fractures is caused by the accompanying injuries rather than by the additional femur fracture itself. It also documents that a thorough preoperative assessment can help differentiate those who have a high like hood of developing systemic complications from those who do not

Confirmation of cervical stability in multiple trauma patients is often difficult. Prolonged collar immobilization of these patients is often required. Missed injuries can be catastrophic. Since January 2000, the senior author has regularly applied a modification of the classical White & Panjabi stretch test in the operating room as a method of assessing cervical stability in qualifying trauma patients. Review of the first thirty cases finds two cases of stable ligamentous injury identified which would have otherwise been missed, a mean of almost two weeks’ collar immobilization eliminated and no missed instabilities, with no complications or assessment failures to date. The purpose of this study was to present the protocol and preliminary results of a modified White & Panjabi cervical stretch test in the assessment of cervical instability in multiple trauma patients. Multiple trauma patients having no radiographic evidence of cervical instability on static imaging are routinely protected in hard collars until able to cooperate with clinical assessment and/or undergo flexion/extension radiographs for concern to possible discoligame-nous instability in the neck. Beginning in January 2000, such patients who were going to the operating room were routinely assessed with a stress test incorporating fluoroscopically-controlled axial distraction to tensile limit of the neck followed by maximum passive flexion and extension stressing. In the absence of intersegmental hypermobility, cervical precautions and immobilization were considered unnecessary and discarded. Chart documentation was reviewed for outcome and complications after discharge from the hospital. To date thirty-two tests have been performed and twenty-six cases had complete chart documentation available for review. No complications of the procedure and no missed instabilities have been identified. An average of thirteen days’ collar immobilization were eliminated by this protocol. Two cases of ligamentous hypermobility without instability were identified, one at O/C1 and the other at C5/6; both patients were treated observationally and have done well. One case of an undisplaced C2 pedicle fracture in a massively traumatized geriatric case was confirmed as stable on the day of injury, eliminating the need for collar support until the patient died of multiple organ failure twenty-one days later. Two patients went on to have neck pain complaints on regaining consciousness, but could be reassured that there was no instability. The operating-room cervical stress test is a practical and safe maneuver that can eliminate the requirement for collar immobilization in obtunded trauma patients, safely identify subtle ligamentous injuries without frank instability, and confirm stability in cases of undisplaced fracture. The operating-room cervical stress test is an effective tool in screening trauma patients for such injuries. It does not require access to MRI technology and can be used in any hospital with an operating room. Prolonged cervical collar immobilization and missed discoligamentous injuries of the neck in multiple trauma patients can be eliminated with the application of this test

Aims

Poly (ADP-ribose) polymerase (PARP) inhibitor has been reported to attenuate inflammatory response in rat models of inflammation. This study was designed to investigate the effect of PARP signalling in osteoarthritis (OA) cartilage inflammatory response in an OA rat model.

During the pandemic of COVID-19, some patients with COVID-19 may need emergency surgeries. As spine surgeons, it is our responsibility to ensure appropriate treatment to the patients with COVID-19 and spinal diseases. A protocol for spinal surgery and related management on patients with COVID-19 has been reviewed. Patient preparation for emergency surgeries, indications, and contraindications of emergency surgeries, operating room preparation, infection control precautions and personal protective equipments (PPE), anesthesia management, intraoperative procedures, postoperative management, medical waste disposal, and surveillance of healthcare workers were reviewed. It should be safe for surgeons with PPE of protection level 2 to perform spinal surgeries on patients with COVID-19. Standardized and careful surgical procedures should be necessary to reduce the exposure to COVID-19.

The June 2015 Trauma Roundup³⁶⁰ looks at: HIV-related implant surgery in trauma; Major transfusion under the spotlight; Surgery and mortality in elderly acetabular fractures; Traction pin safety; Obesity and trauma; Salvage of acetabular fixation in the longer term

The June 2014 Research Roundup³⁶⁰ looks at:Intraoperative irrigation a balance of toxicities; Ibandronate effective in bone marrow oedema; Risk stratification in damage control surgery; Osteoblast like cells potentially safe; Better wear and antibacterial?; Assessing outcomes in hip fracture.