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OBJECTIVES Pediatric orthotopic liver transplant recipients frequently need mechanical ventilation during the immediate posttransplant period. However, intensive care unit beds are costly and scarce; therefore, anticipating which patients will require postoperative mechanical ventilation support is important. In addition, immediate postoperative extubation may reduce the incidence of postoperative respiratory complications and improve patient outcomes after orthotopic liver transplant. Here, we aimed to determine the predictors of need for mechanical ventilation after orthotopic liver transplant in pediatric patients. MATERIALS AND METHODS We retrospectively analyzed the records of 57 pediatric patients who underwent orthotopic liver transplant (performed by the same team at Baskent University Hospital from April 1996 to August 2009). Patients were divided into 2 groups according to whether they required postoperative mechanical ventilation or not. Collected data included demographic features; comorbidities; 6% of our pediatric orthotopic liver transplant recipients required mechanical ventilation postoperatively. Growth failure and higher intraoperative lactate levels were associated with need for postoperative mechanical ventilation.OBJECTIVES Posttransplant erythrocytosis affects 8% to 26% of kidney transplant recipients. In this study, our aim was to define associations among hypercalcemia, persistent hyperparathyroidism, and posttransplant erythrocytosis. We also investigated the effects of biologic sex, age, and dialysis modality before transplant on posttransplant erythrocytosis development. MATERIALS AND METHODS We enrolled 247 patients [159 (64%) male and 88 (36%) female] who underwent kidney transplant between 2009 and 2018. All demographic and laboratory parameters were retrospectively analyzed as possible factors associated with posttransplant erythrocytosis. RESULTS Fifty-nine (24%) of total patients had posttransplant erythrocytosis. The median time to posttransplant erythrocytosis development was 16 months (range, 8-34 mo). Male sex, the use of peritoneal dialysis as maintenance renal replacement therapy before kidney transplant, and persistent hyperparathyroidism were defined as independent risk factors for posttransplant erythrocytosis development in our multivariate logistic regression analyses (odds ratio = 5.228, 3.963, and 4.109, respectively). In addition, high serum creatinine levels were associated with a lower incidence of posttransplant erythrocytosis (odds ratio = 0.253). Although significance did not remain after multivariate analysis, hypercalcemia was found to be significantly associated with posttransplant erythrocytosis in univariate analyses (odds ratio = 1.768). In subgroup analyses, where only male patients were evaluated, persistent hyperparathyroidism and peritoneal dialysis were found to be independent risk factors for posttransplant erythrocytosis development (odds ratio = 4.176 and 5.003). CONCLUSIONS Persistent hyperparathyroidism and hypercalcemia could precipitate development of posttransplant erythrocytosis. The preserved residue renal function may be associated with increased endogenous erythropoietin, which could lead to posttransplant erythrocytosis development.OBJECTIVES We aimed to describe changes in body mass index after kidney transplant and to assess how these changes influence long-term outcomes. MATERIALS AND METHODS Data were collected from kidney transplant recipients seen at our center between January 2007 and July 2016. Changes in body mass index over the posttransplant period were modeled using a generalized estimating equation, with changes calculated for each patient from pretransplant to 6 months posttransplant. Calculations were then categorized into 3 body mass index groups stable (change of ± 1.5 kg/m² or less), reduced (reduction of > 1.5 kg/m²), and increased (increase of > 1.5 kg/m²). Outcomes among groups were compared. RESULTS Among 1344 total patients, the geometric mean pretransplant body mass index was 27.3 kg/m². This declined significantly (P .05). CONCLUSIONS Our data demonstrated that body mass index was significantly reduced in the first month after kidney transplant before increasing to pretransplant levels during years 3 to 5. Furthermore, patients who retained decreased levels at 6 months had impaired graft function in long-term follow-up. These observations conflict with the existing literature and warrant further investigations.OBJECTIVES The safety of living liver donors is considered a high priority. In this study, we aimed to highlight the incidence and risk factors of respiratory complications among living liver transplant donors at our institute. MATERIALS AND METHODS We evaluated data of 178 related living liver donors who were seen from January 2014 to December 2018. We recorded significant respiratory complications, such as pulmonary embolism, pleural effusion, pneumothorax, pneumonia, acute lung injury, acute respiratory distress syndrome, and transfusion-related acute lung injury. selleck products Complications were noted as clinically evident and/or needing intervention. We also recorded the frequency of nonrespiratory complications and duration of intensive care unit and hospital stays. RESULTS Ten donors (5.6%) developed significant respiratory complications 2 (1.1%) had pulmonary embolisms, 3 (1.7%) developed symptomatic pleural effusion that required thoracentesis, and 4 (2.25%) had chest infections. The remaining donor (0.6%) had unexplained respiratory insufficiency. Logistic regression analyses identified age ≥ 35 years and previous surgery as the main risk factors of significant respiratory complications. There were no recorded cases of pneumothorax, acute lung injury, acute respiratory distress syndrome, and transfusion-related acute lung injury. Raw surface collection (14.6%) and biliary leakage (7.9%) were the most frequent nonrespiratory complications. There was no significant difference between patients with and without significant respiratory complications with regard to intensive care unit and hospital stays. CONCLUSIONS Despite the low incidence of significant respiratory complications among our living liver donor cohort, close monitoring and early management are essential to achieve better prognosis, especially in donors older than 35 years or those with previous surgery.Many insects can climb on smooth inverted substrates using adhesive hairy pads on their legs. The hair-surface contact is often mediated by minute volumes of liquid, which form capillary bridges in the contact zones and aid in adhesion. The liquid transport to the contact zones is poorly understood. We investigated the dynamics of liquid secretion in the dock beetle Gastrophysa viridula by quantifying the volume of the deposited liquid footprints during simulated walking experiments. The footprint volume increased with pad-surface contact time and was independent of the non-contact time. Furthermore, the footprint volume decreased to zero after reaching a threshold cumulative volume (approx. 30 fl) in successive steps. This suggests a limited reservoir with low liquid influx. We modelled our results as a fluidic resistive system and estimated the hydraulic resistance of a single attachment hair of the order of MPa · s/fl. The liquid secretion in beetle hairy pads is dominated by passive suction of the liquid during the contact phase. The high calculated resistance of the secretion pathway may originate from the nanosized channels in the hair cuticle. Such nanochannels presumably mediate the transport of cuticular lipids, which are chemically similar to the adhesive liquid.Ischaemic mitral regurgitation (IMR), a frequent complication following myocardial infarction (MI), leads to higher mortality and poor clinical prognosis if untreated. Accumulating evidence suggests that mitral valve (MV) leaflets actively remodel post MI, and this remodelling increases both the severity of IMR and the occurrence of MV repair failures. However, the mechanisms of extracellular matrix maintenance and modulation by MV interstitial cells (MVICs) and their impact on MV leaflet tissue integrity and repair failure remain largely unknown. Herein, we sought to elucidate the multiscale behaviour of IMR-induced MV remodelling using an established ovine model. Leaflet tissue at eight weeks post MI exhibited significant permanent plastic radial deformation, eliminating mechanical anisotropy, accompanied by altered leaflet composition. Interestingly, no changes in effective collagen fibre modulus were observed, with MVICs slightly rounder, at eight weeks post MI. RNA sequencing indicated that YAP-induced genes were elevated at four weeks post MI, indicating elevated mechanotransduction. Genes related to extracellular matrix organization were downregulated at four weeks post MI when IMR occurred. Transcriptomic changes returned to baseline by eight weeks post MI. This multiscale study suggests that IMR induces plastic deformation of the MV with no functional damage to the collagen fibres, providing crucial information for computational simulations of the MV in IMR.Microbial communities are complex dynamical systems harbouring many species interacting together to implement higher-level functions. Among these higher-level functions, conversion of organic matter into simpler building blocks by microbial communities underpins biogeochemical cycles and animal and plant nutrition, and is exploited in biotechnology. A prerequisite to predicting the dynamics and stability of community-mediated metabolic conversions is the development and calibration of appropriate mathematical models. Here, we present a generic, extendable thermodynamic model for community dynamics and calibrate a key parameter of this thermodynamic model, the minimum energy requirement associated with growth-supporting metabolic pathways, using experimental population dynamics data from synthetic communities composed of a sulfate reducer and two methanogens. Our findings show that accounting for thermodynamics is necessary in capturing the experimental population dynamics of these synthetic communities that feature relevant species using low energy growth pathways. Furthermore, they provide the first estimates for minimum energy requirements of methanogenesis (in the range of -30 kJ mol-1) and elaborate on previous estimates of lactate fermentation by sulfate reducers (in the range of -30 to -17 kJ mol-1 depending on the culture conditions). The open-source nature of the developed model and demonstration of its use for estimating a key thermodynamic parameter should facilitate further thermodynamic modelling of microbial communities.A mathematical model is proposed for shape evolution and locomotion of fish epidermal keratocytes on elastic substrates. The model is based on mechanosensing concepts cells apply contractile forces onto the elastic substrate, while cell shape evolution depends locally on the substrate stress generated by themselves or external mechanical stimuli acting on the substrate. We use the level set method to study the behaviour of the model numerically, and predict a number of distinct phenomena observed in experiments, such as (i) symmetry breaking from the stationary centrosymmetric to the well-known steadily propagating crescent shape, (ii) asymmetric bipedal oscillations and travelling waves in the lamellipodium leading edge, (iii) response to remote mechanical stress externally applied to the substrate (tensotaxis) and (iv) changing direction of motion towards an interface with a rigid substrate (durotaxis).

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