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Bleeding and thrombosis-related complications are common in pediatric cardiac patients supported by extracorporeal membrane oxygenation (ECMO) and are associated with morbidity and mortality. The purpose of this study was to evaluate the utility of aminocaproic acid (ACA), an antifibrinolytic agent, as it pertains to bleeding in pediatric cardiac patients on ECMO. This included a retrospective cohort study of pediatric cardiac patients receiving ACA while supported on ECMO between 2013 and 2017. For each patient, data were collected in three time intervals the 24 hours before ACA initiation, and then 0-24 and 24-48 hours following ACA initiation. For each time frame, bleeding, component transfusion, and laboratory data were collected and analyzed. A total of 62 patients were included, representing 42% of our cardiac ECMO patients during the time period. ACA was initiated at 16.3 ± 8.7 hours following initiation of ECMO. The mean bleeding rate before ACA was 10.57 mL/kg/h, which reduced to 7.8 mL/kg/h in the 24-hour period after initiation of ACA and a further decrease to 3.65 mL/kg/h during the 24- to 48-hour time period following ACA initiation. ACA administration was associated with reduction in bleeding (p less then .001) and packed red blood cell transfusions (p = .02), administration of fresh frozen plasma (p less then .001), platelets (p = .017), cryoprecipitate (p = .05), factor VII (p = .002), and Cell Saver (p = .005). Hemoglobin and platelet count were stable, whereas prothrombin time (PT), partial thromboplastin time, and international normalized ratio (INR) showed significant reduction over the time course. ACA administration was not associated with specific adverse effects. A clinically significant reduction in bleeding amount, red blood cell transfusions, and other hematologic interventions occurred following ACA administration for pediatric patients on ECMO. selleck chemicals Wider consideration for ACA use as a part of a multipronged strategy to manage bleeding during ECMO should be considered.Zero-balance ultrafiltration (ZBUF) during cardiopulmonary bypass (CPB) has been purported to reduce pro-inflammatory mediators during cardiac surgery. However, its clinical benefit is equivocal and its effect on renal function unknown. The purpose of this study was to examine the effect of ZBUF on urine output in adult patients undergoing CPB. Following institutional review board approval, 98,953 records from a national registry of adult patients at 215 U.S. hospitals between January 2016 and September 2019 were reviewed. Groups were stratified according to ZBUF use. Anuric patients were excluded from the study as they were patients with missing data on urine output, ultrafiltration use, or ZBUF volume. The primary endpoint was intraoperative urine output normalized to body weight and procedure duration (total operative time). Final analysis of this endpoint was carried out using a linear mixed-effects regression model adjusting for patient and procedural characteristics, as well as practice patterns associalts are reproducible in prospective clinical studies.New cardiopulmonary bypass device techniques emerge and are reported in the scientific literature. The extent to which they are actually adopted into clinical practice is not well known. Since 1989, we have periodically surveyed pediatric cardiac centers to ascertain practice patterns. In December 2016, a 186-question perfusion survey was distributed to pediatric cardiac surgery centers all over the world using a Web-based survey tool. Responses were received from 93 North American (NA) centers (the United States and Canada) and 67 non-NA (NNA) centers, representing 19,645 cumulative annual procedures in NA and 27,776 in NNA centers on patients less then 18 years. Wide variation in practice was evident across geographic regions. However, the most common pediatric circuit consisted of a hard-shell (open) venous reservoir, an arterial roller pump, and a hollow-fiber membrane oxygenator with a separate or integrated arterial filter. Compared with our previous surveys, there was increased utilization of all types of safety devices. The use of an electronic perfusion record was reported by 50% of NA centers and 31% of NNA centers. There was wide regional variation in cardioplegia delivery systems and cardioplegia solutions. Seventy-nine percent of the centers reported the use of some form of modified ultrafiltration. The survey demonstrated that there remains variation in perfusion practice for pediatric patients. Future surveys will be useful to evaluate the adoption of emerging perfusion practice guidelines.Heterogeneous catalysis plays an important role in many chemical reactions, especially those applied in industrial processes, and therefore, its theoretical foundations are introduced not only to students majoring in chemical engineering or catalysis but also as part of general chemistry courses. The consideration of catalytic activity of various solids and mechanisms of catalytic reactions requires the introduction of the concept of an active site, which together with the catalyst specific surface area are discussed as key parameters controlling the reaction rate. There are many known demonstrations of heterogeneous catalysis phenomena that can be performed live in a lecture hall, but all of them focus only on the general idea of catalytic processes and are not suitable for quantitative analysis. Therefore, herein we present a simple demonstration of the influence of the specific surface area of a catalyst on the rate of a catalytic reaction. This demonstration is based on a model reaction of hydrogen peroxide decomposition catalyzed by cobalt spinel (Co3O4) calcined at various temperatures. The differences in reaction rates can be monitored visually, and the obtained data can be used directly for a simple kinetic analysis, including comparison of numerical values of the reaction rate constants.The increasing use of information technology in the discovery of new molecular entities encourages the use of modern molecular-modeling tools to help teach important concepts of drug design to chemistry and pharmacy undergraduate students. In particular, statistical models such as quantitative structure-activity relationships (QSAR)-often as its 3D QSAR variant-are commonly used in the development and optimization of a leading compound. We describe how these drug discovery methods can be taught and learned by means of free and open-source web applications, specifically the online platform www.3d-qsar.com. This new suite of web applications has been integrated into a drug design teaching course, one that provides both theoretical and practical perspectives. We include the teaching protocol by which pharmaceutical biotechnology master students at Pharmacy Faculty of Sapienza Rome University are introduced to drug design. Starting with a choice among recent articles describing the potencies of a series of molecu Sybyl host, the 3dqsar web portal offers one of the few available means of performing this well-established 3D QSAR method.There is a disconnect between the cutting-edge research done in academic labs, such as nanotechnology, and what is taught in undergraduate labs. In the current undergraduate curriculum, very few students get a chance to do hands-on experiments in nanotechnology-related experiments most of which are through selective undergraduate research programs. In most cases, complicated synthesis procedures, expensive reagents, and requirement of specific instrumentation prevent broad adaptation of nanotechnology-based experiments to laboratory courses. DNA, being a nanoscale molecule, has recently been used in bottom-up nanotechnology with applications in sensing, nano-robotics, and computing. In this article, we propose a simple experiment involving the synthesis of a DNA nanoswitch that can change its shape from a linear "off" state to a looped "on" state in the presence of a target DNA molecule. The experiment also demonstrates the programmable topology of the looped state of the nanoswitch and its effect on gel migration. The experiment is easy to adapt in an undergraduate laboratory, requires only agarose gel electrophoresis, a minimal set-up cost for materials, and can be completed in a 3-hour time frame.Total hip arthroplasty (THA) and total knee arthroplasty (TKA) are commonly performed surgeries worldwide. The number of joint replacement surgeries being performed has increased considerably over the past two decades, but it has also seen an increase in litigation associated with it. The purpose of our study was to review and consolidate literature regarding medico-legal issues pertaining to THA and TKA cases. We looked at the causes of litigation, medico legal aspects of pre-operative requirements, optimisation of medical condition, indications and contraindications for arthroplasty, informed consent, implants, mixing of components from different manufacturers and post-operative rehabilitation. We also wanted to analyse available literature and legal proceedings regarding these cases in India specifically.

The reintroduction of elective Orthopaedic surgery during the COVID-19 pandemic is likely to occur in phases, dictated by resource limitations and loco-regional pandemic status. Guidelines providing a general framework for the prioritisation of surgery have largely been based on surgical urgency, while scoring systems such as the MeNTS score may have limited applicability in the setting of Orthopaedic Surgery. We, therefore, propose an Orthopaedic-specific algorithm ('MeNT-OS'), based on a modification of the MeNTS scoring system, that may be used to objectively triage and prioritise Orthopaedic cases during the COVID-19 pandemic.

We developed a scoring algorithm modified from the Medically Necessary Time-Sensitive Procedure (MeNTS) score with 13 unique variables, reflecting human and physical resource utilisation, surgical complexity, functional status of patients, as well as COVID-19 transmission risk. This score was then trialled in a sample of 118 cases, comprising 69 completed and 49 postponed cases.g system has been assessed using data from our institution and offers an objective and systematic approach that is geared towards Orthopaedic procedures. We believe this scoring tool can provide Orthopaedic surgeons a safe and equitable approach to making difficult decisions on prioritisation of surgery during the COVID-19 period, and possibly other resource-limited settings in the future.

When the world was frantically searching for a drug effective against the coronavirus disease (COVID)-19, remdesivir, a broad-spectrum anti-viral medication, became a part of the COVID treatment. We planned a study to evaluate improvement in clinical outcomes with remdesivir treatment for five days.

Participants more than 40-years old and with moderate to severe COVID-19 but not on mechanical ventilation were randomly assigned into two groups-remdesivir group (34 cases) to receive the study drug intravenous (IV) remdesivir for five days plus the standard care (SC) and non-remdesivir group (36 cases) to receive the SC but not to receive the study drug. Follow-up was continued for 12 days after the beginning of treatment or until discharge/death. Patient's clinical status was assessed by laboratory investigations and physical examination (from day 1 to day 12 on a 4-point ordinal scale and from day 12 to 24 on a 6-point ordinal scale). Oxygen support requirements and adverse events were recorded. The data were entered and analysed using Statistical Package for the Social Sciences (SPSS) version 22.

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