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Aim: Although most patients with COVID-19 experience respiratory tract infections, severe reactions to the virus may cause coagulation abnormalities that mimic other systemic coagulopathies associated with severe infections, such as disseminated intravascular coagulation and thrombotic microangiopathy. Fluctuations in platelet markers, which are an indicator of the acute phase response for COVID-19, are of clinical importance. The aim of this study is to evaluate the relationship between disease severity and Platelet Mass Index (MPI) parameters in COVID-19 patients. Material(s) and Method(s): This retrospective observational study was conducted with patients who were diagnosed with COVID-19 in a tertiary hospital. The study was continued with the remaining 280 patients. All laboratory data were scanned retrospectively from patient files and hospital information system. Result(s): A very high positive correlation was found between PMI and PLT. The PMI value in women was significantly higher than in men. It was observed that PMI did not differ significantly in terms of mortality, intubation, CPAP and comorbidity. PMI vs. Pneumonia Ct Severity Score, biochemistry parameters (AST, CRP), hemogram parameters (WBC, HGB, HCT, MCV, LYM, MPV EO) and coagulation factors (aPTT and FIB) at various levels of positive/negative, weak and strong, and significant relationship was found. There was no significant relationship between hormone and D-dimer when compared with PMI. Discussion(s): Although platelet count alone does not provide information about the prognosis of the disease, PMI may guide the clinician as an indicator of lung damage in seriously ill patients.Copyright © 2022, Derman Medical Publishing. All rights reserved.
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Introduction: The COVID-19 pandemic has required clinical teams to function with an unprecedented amount of uncertainty, balancing complex risks and benefits in a highly fluid environment. This is especially the case when considering the delivery of a pregnant woman critically unwell with COVID-19. This is one maternal critical care team's reflections on establishing best practice and a shared mental model when undertaking a Caesarean section in critically unwell patients with COVID-19. Objective(s): We describe our experience of balancing the risks and streamlining the process of this high-risk intervention. Method(s): We used our standard clinical governance forums across four specialties (Obstetrics, Intensive care, Anaesthetics and Neonatology) to identify key challenges and learning points. We developed a working group to combine our learning and develop a shared mental model across the involved teams. Result(s): 1. The decision to deliver must be multidisciplinary involving Obstetrics, Intensive care, Anaesthetics, Neonatology and the patient according to their capacity to participate. The existing structure of twice daily ITU ward rounds could be leveraged as a 'pause' moment to consider the need for imminent delivery and review the risk-benefit balance of continued enhanced pharmacological thromboprophylaxis. 2. We identified a range of scenarios that our teams might be exposed to: 3. Perimortem Caesarean section 4. Critically unwell - unsafe to move to theatre 5. Critically unwell - safe to move to theatre 6. Recreating an obstetric theatre in the ICU Advantages Avoids moving a critically unstable patient, although our experience is increasing moving patients for ECMO. Some forms of maximal non-invasive therapy such as High Flow Nasal Oxygen may require interruption to move to theatre with resultant risk of harm or be difficult to continue in transport mode through a bulky ICU ventilator e.g. CPAP Disadvantages Significant logistics and coordination burden: multiple items of specialist equipment needing to be brought to the ICU. Human factors burden: performing a caesarean section in an unfamiliar environment is a significant increase in cognitive load for participating teams. Environmental factors: ICU side rooms may offer limited space vs the need to control the space if performed on an open unit. Delivering a Neonate into a COVID bubble. Conclusion(s): Developing a shared mental model across the key teams involved in delivering an emergency caesarean section in this cohort of critically unwell patients has enabled our group to own a common understanding of the key decisions and risks involved. We recommend a patient centred MDT decision making model, with a structure for regular reassessment by senior members of the teams involved. In most circumstances the human factors and logistical burden of recreating an operating theatre in the ICU outweighs the risk of transport to theatre. Pre-defined checklists and action cards mitigate the cognitive and logistical burden when multiple teams do perform an operative delivery in ICU. Action cards highlight key aspects of routine obstetric care to be replicated in the ICU environment.
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Introduction: Perinatal admissions to Critical Care are increasing due to rising maternal age, obesity, and comorbid disease.1 The MBRRACE Report 2021 stated that of 191 maternal deaths in 2017-2019, only 17% had good care.2 Since the COVID-19 pandemic, there was a subjective increase in perinatal admissions to Mid Yorkshire Hospitals Critical Care. Objective(s): To investigate whether MYH Critical Care maternal admissions have increased, if there has been a change in admission trends and to evaluate the care of critically ill pregnant and postpartum women compared to FICM standards.3 Methods: Retrospective audit of notes of all pregnant and up to 6 weeks postpartum women admitted to critical care between 24/02/2019 and 05/09/2021. Data collected included gestation, duration of admission, organ support, days reviewed by obstetrics and mortality outcomes. Result(s): * There was 1 maternal death and 3 fetal deaths during the study period * 50% of the admissions were antenatal and 50% were postnatal * During the COVID-19 pandemic we have seen a 47% increased rate of admissions from 1 per 29 critical care bed days to 1 per 19 critical care bed days * 50% of patients were supported with ventilation and CPAP during admission, 13% with CPAP only. Prior to the COVID pandemic, no maternal admission required CPAP on our Critical Care unit during the data collection period * 63% of patients were reviewed by obstetrics at least one during their admission, but obstetric review was documented on only 37 of 112 patient days * There is no critical care SOP for perimortem Caesarean section * There is no specialist neonatal resuscitation equipment available on ICU * There is no named ICM consultant responsible for Maternal Critical Care * There is no SOP for support of maternal contact with baby * There is no critical care/obstetric services MDT follow-up Conclusion(s): This study shows that Critical Care admissions have increased, and that care does not follow all the FICM recommendations. Considering this, the following recommendations have been made: * Introduce an SOP and simulation training for peri-mortem section * Introduce neonatal resuscitation equipment box * Nomination of a named ICM Consultant lead for Maternal Critical Care to ensure quality of care and act as liaison * Train critical care staff in supporting contact between a mother and baby, with support from midwifery services * Introduction of Obstetric and Critical Care MDT follow-up.
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Objective: Immunohistochemistry of post-mortem lung tissue from Covid-19 patients with diffuse alveolar damage demonstrated marked increases in chondroitin sulfate and CHST15 and decline in N-acetylgalactosamine-4-sulfatase. Studies were undertaken to identify the mechanisms involved in these effects. Method(s): Human primary small airway epithelial cells (PCS 301-010;ATCC) were cultured and exposed to the SARSCoV- 2 spike protein receptor binding domain (SPRBD;AA: Lys310-Leu560;Amsbio). Expression of the spike protein receptor, angiotensin converting enzyme 2 (ACE2), was enhanced by treatment with Interferon-beta. Promoter activation, DNA-binding, RNA silencing, QPCR, Western blots, ELISAs, and specific enzyme inhibitors were used to elucidate the underlying molecular mechanisms. Result(s): Treatment of the cultured cells by the SPRBD led to increased CHST15 and CHST11 expression and decline in ARSB expression. Sulfotransferase activity, total chondroitin sulfate, and sulfated glycosaminoglycan (GAG) content were increased. Phospho-T180/T182-p38-MAPK and phospho- S423/S425-Smad3 were required for the activation of the CHST15 and CHST11 promoters. Inhibition by SB203580, a phospho-p38 MAPK inhibitor, and by SIS3, a Smad3 inhibitor, blocked the CHST15 and CHST11 promoter activation. SB203580 reversed the SPRBD-induced decline in ARSB expression, but SIS3 had no effect on ARSB expression or promoter activation. Phospho-p38 MAPK was shown to reduce retinoblastoma protein (RB) S807/S811 phosphorylation and increase RB S249/T252 phosphorylation. E2F-DNA binding declined following exposure to SPRBD, and SB203580 reversed this effect. This indicates a mechanism by which SPRBD, phospho-p38 MAPK, E2F, and RB can regulate ARSB expression and thereby impact on chondroitin 4-sulfate and dermatan sulfate and molecules that bind to these sulfated GAGs, including Interleukin-8, bone morphogenetic protein-4, galectin-3 and SHP-2 (Src homology region 2-containing protein tyrosine phosphatase 2). Conclusion(s): The enzyme ARSB is required for the degradation of chondroitin 4-sulfate and dermatan sulfate, and accumulation of these sulfated GAGs can contribute to lung pathophysiology, as evident in Covid-19. Some effects of the SPRBD may be attributable to unopposed Angiotensin II, when Ang1-7 counter effects are diminished due to binding of ACE2 with the SARS-CoV-2 spike protein and reduced production of Ang1-7. Aberrant cell signaling and activation of the phospho-p38 MAPK and Smad3 pathways increase CHST15 and CHST11 production, which can contribute to increased chondroitin sulfate in infected cells. Decline in ARSB may occur as a consequence of effects of phospho-p38 MAPK on RB phosphorylation and E2F1 availability. Decline in ARSB and the resulting impaired degradation of sulfated GAGs have profound consequences on cellular metabolic, signaling, and transcriptional events. Funding is VA Merit Award.Copyright © 2023 The American Society for Biochemistry and Molecular Biology, Inc.
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Objectives: We present a case report of medical intensivist driven ECMO program using ECMO as a pre-procedural tool to maintain oxygenation in a patient with critical tracheal stenosis during tracheostomy placement. Method(s): VV ECMO is primarily used to support patients when mechanical ventilation is unable to provide adequate gas exchange. Alternatively, it has been used pre-procedurally when intubation is required in anticipation of a difficult airway. Described here is the first intensivist preformed awake VV ECMO cannulation to facilitate tracheostomy in a patient with severe tracheal stenosis. Result(s): The patient is a 41-year-old female with the relevant background of COVID19 pneumonia status post tracheostomy and subsequently decannulated after prolonged intubation and ICU stay. As a result, the patient developed symptomatic tracheal stenosis and presented two years after her ICU stay for scheduled bronchoscopy and balloon dilation. However, the patient developed worsening stridor and shortness of breath requiring heliox and BPAP. After multidisciplinary discussion between the critical care team ENT teams, the decision was made to cannulate for VV ECMO as a pre-procedural maneuver to allow for oxygenation during open tracheostomy in the OR. Dexmedetomidine and local anesthesia were used for the procedure with the patient sitting at 30 degrees on non-invasive ventilation and heliox. The patient was cannulated with a 21F right internal jugular return cannula and 25F right common femoral drainage cannula by medical intensivists in the intensive care unit using ultrasound guidance. The patient went for operative tracheostomy the next day and was subsequently decannulated from ECMO the following day without complication. She was discharged home on trach collar. Conclusion(s): Intensivist performed ECMO cannulation has been shown to be safe and effective. We anticipate the indications and use will continue to expand. This case is an example that intensivist driven preprocedural ECMO is a viable extension of that practice.
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The respiratory pump that provides pulmonary ventilation includes the respiratory center, peripheral nervous system, chest and respiratory muscles. The aim of this study was to evaluate the activity of the respiratory center and the respiratory muscles strength after COVID-19 (COronaVIrus Disease 2019). Methods. The observational retrospective cross-sectional study included 74 post-COVID-19 patients (56 (76%) men, median age - 48 years). Spirometry, body plethysmography, measurement of lung diffusing capacity (DLCO), maximal inspiratory and expiratory pressures (MIP and MEP), and airway occlusion pressure after 0.1 sec (P0.1) were performed. In addition, dyspnea was assessed in 31 patients using the mMRC scale and muscle strength was assessed in 27 of those patients using MRC Weakness scale. Results. The median time from the COVID-19 onset to pulmonary function tests (PFTs) was 120 days. The total sample was divided into 2 subgroups: 1 - P0.1 <= 0.15 kPa (norm), 2 - > 0.15 kPa. The lung volumes, airway resistance, MIP, and MEP were within normal values in most patients, whereas DLCO was reduced in 59% of cases in both the total sample and the subgroups. Mild dyspnea and a slight decrease in muscle strength were also detected. Statistically significant differences between the subgroups were found in the lung volumes (lower) and airway resistance (higher) in subgroup 2. Correlation analysis revealed moderate negative correlations between P0.1 and ventilation parameters. Conclusion. Measurement of P0.1 is a simple and non-invasive method for assessing pulmonary function. In our study, an increase in P0.1 was detected in 45% of post-COVID-19 cases, possibly due to impaired pulmonary mechanics despite the preserved pulmonary ventilation as well as normal MIP and MEP values.Copyright © Savushkina O.I. et al., 2023.
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COVID-19 pandemic in 2020-2021 affected millions of people including children. Though uncommon, there are few reports of COVID in neonates also. COVID is primarily managed by pediatricians;however, they are involved when providing anesthesia to these neonates for surgery. The role of anesthetists, besides during surgery, has proven to be vital in COVID pandemic for their expertise in airway and ventilatory management, also putting them to the highest risk of exposure. Various testing methods are available, and TrueNAT and RTPCR have emerged as most reliable. Most neonates remain asymptomatic or have mild symptoms;however, RTPCR testing should be done in all at least 72 h of preoperative. Utmost care should be taken during the preoperative evaluation, and in the perioperative period, goal is to prevent transmission of COVID to noninfected HCW involved in the perioperative period, to other newborns and neonates, and also to avoid increasing the severity of the diseases in the positive neonates, while keeping in mind the vulnerability of these babies in combination with their surgical disease and the changing neonatal physiology. COVID care protocols should be followed at all times. Anesthetic considerations remain the same as described in other chapters in the book, in newborns and neonates, both term and preterm. All OT personnel need to don the PPE, which can be problematic especially for the anesthetist, as it restricts the normal unhindered movements, use of stethoscope for chest auscultation for heart rate, respiration, and ETT positioning. Hence, one needs to be very meticulous in IV line and ET placement and their securing to prevent accidental dislodging during positioning and under the drapes. All disposable and non-disposable equipment used for the covid positive baby, should be adequately treated or discarded, as the case may be, after each surgery. Only emergency surgery should be undertaken in COVID-positive neonates to prevent high postoperative morbidity and mortality. There is not much data available in neonates, and most guidelines have been introduced for children and adolescents. Neonatal care has emerged from the experience of the anesthesiologist and from extrapolation of the available pediatric guidelines. Here, we will be discussing COVID in neonates and anesthetic management in COVID-positive neonates undergoing surgery. © The Author(s), under exclusive license to Springer Nature Singapore Pte Ltd. 2023.
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The COVID-19 pandemic has caused a severe global problem of ventilator shortage. Placing multiple patients on a single ventilator (ventilator sharing) or dual patient ventilation has been proposed and conducted to increase the cure efficiency for ventilated patients. However, the ventilator-sharing method needs to use the same ventilator settings for all the patients, which cannot meet the ventilation needs of different patients. Therefore, a novel multivent system for non-invasive ventilation has been proposed in this study. The close loop system consists of the proportional valve and the flow-pressure sensor can regulate the airway pressure and flow for each patient. Multiple ventilation circuits can be combined in parallel to meet patients’ventilation demands simultaneously. Meanwhile, the mathematical model of the multivent system is established and validated through experiments. The experiments for different inspired positive airway pressure (IPAP), expired positive airway pressure (EPAP), inspiratory expiratory ratio (I:E), and breath per minute (BPM) have been conducted and analyzed to test the performance of the multivent system. The results show that the multivent system can realize the biphasic positive airway pressure (BIPAP) ventilation mode in non-invasive ventilation without interfering among the three ventilation circuits, no matter the change of IPAP, EPAP, I:E, and BPM. However, pressure fluctuation exists during the ventilation process because of the exhaust valve effect, especially in EPAP control. The control accuracy and stability need to be improved. Nevertheless, the novel designed multivent system can theoretically solve the problem of ventilator shortage during the COVID-19 pandemic and may bring innovation to the current mechanical ventilation system. Author
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Background: Several pro- and anti-inflammatory cytokines involved in COVID-19 and it is reasonable to speculate that their removal from blood might limit organ damage. Hemoperfusion with CytoSorb is a technique developed to adsorb molecules in the middle molecular weight range (up to 55 kDa). Studies in vitro and in vivo have shown that HP is highly effective in clearing blood from a number of cytokines. Method(s): We report a case series of 9 consecutive COVID-patients admitted to our COVID Intensive Care Unit (ICU). Five of them were treated with HP using CytoSorb (T), due to the heavy emergency overload it was impossible to deliver blood purification in the other 4 patients (C), who were also considered as potential candidates by the attending medical team. All patients had pneumonia and respiratory failure requiring continuous positive airway pressure. Different antibacterial prophylaxes, antiviral, and anti-inflammatory therapies including steroids were delivered. Result(s): Our results show a better clinical course of T compared to control patients (C), in fact all T except 1 survived, and only 2 of them were intubated, while all C required intubation and died. CRP decreased in both groups, but to a greater extent after HP. Lymphocytopenia worsened in control patient but not in treated patient after HP. Procalcitonin increased in 2 of the not treated patients. In all survived patients (n = 4) HP reduced pro-inflammatory cytokines, as IL-6, TNF-alpha, and IL-8. Notably, a striking effect was observed on IL-6 levels that at the end of the second session were decreased by a 40% than before the first treatment. Serum levels of IL-8 and TNF-alpha were lowered within normal range. In all patients the treatment was safe and there were no complications. Conclusion(s): Our study suggests a potential efficacy of HP in an early phase of viral infection not only for improving survival in the treated patients but also by the remodeling treatment-associated cytokine levels.
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Background: The second wave of the COVID-19 pandemic caused significant demand for beds capable of delivering enhanced respiratory support. NHS England recommended the use of CPAP for patients with COVID-19 respiratory failure, a treatment which can be offered outside of a critical care facility, and on a Respiratory High Care/ Support Unit (RSU). The enhancement of Portsmouth's RSU provided CPAP and NIV for patients with COVID-19 respiratory failure. With our intensive care facilities at 300% their normal capacity, this greatly alleviated bed pressures on critical care. Varied levels of deprivation exist in Portsmouth's dense population. Deprivation has an impact on overall health, however the effect of postcode on outcomes for people going onto support for COVID-19 respiratory failure, is unknown. Method(s): Retrospective cohort analysis of consecutive patients admitted to Respiratory Support Unit during the second wave of the COVID-19 pandemic, from 02/11/2020 to 31/01/2021. 227 patients were included in the study with 8 removed due to incomplete data, all of the patients received respiratory support in the form of CPAP or NIV. We collected multivariate data including biochemical markers, demographics, oxygenation status, co-morbidities and outcomes. Outcomes measured were: 1) Death in RSU, 2) Discharge from RSU or 3) Intubation and Ventilation. To measure deprivation, we linked a persons postcode to an area called an LSOA (Lower-layer Super Output Area). These are small areas of similar population size, each of which has a deprivation score (ie. top 10%, to the lowest 10% areas of deprivation in the UK). This is measured using an 'index of multiple deprivation'. An individual's outcome from the RSU was then analysed in relation to the deprivation score allocated to their postcode. Result(s): We observed a significant number of patients discharged from RSU, without needing invasive mechanical ventilation. 80/219 were discharged directly. 45/219 died in RSU, and 94 were eventually admitted to ITU. The average stay on CPAP or NIV before needing admission to ITU was 3 days. Some biochemical markers which stood out in relation to the outcomes described were as follows: average LDH, D-dimer and Troponin levels were higher in those who were admitted to intensive care. In patients who died, the PCT was significantly higher on average when compared to the other two groups. In the group who were discharged, mean lymphocyte count was >1, in the other two groups this was <1. From our observations in Portsmouth, there is a negative correlation between deprivation and lower aged individuals admitted for COVID-19 related respiratory support. Overall, we also saw disproportionate representation of those from the most deprived 50% of the UK in our respiratory support unit. Conclusion(s): CPAP and NIV can effectively be used in an RSU during a spike of COVID-19, to safely minimise demand on critical care services. Deprivation may have an impact on outcomes in patients needing respiratory support related to COVID-19. Deprivation levels may help predict risk of needing enhanced respiratory support in certain age groups. Multiple biochemical markers may be of prognostic value in COVID-19.
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Introduction: Inter-facility critical care transfers are a high-risk activity, with a significant reported critical incident rate.1 The 2019 ICS Transfer of the Critically Ill Adult Patient guideline2 recommends a consultant-led risk assessment is performed in order to provide a rationale for the make-up of the transfer team. Prior to our project, there was no formalised risk assessment process at our unit. Objective(s): We wished to assess whether any 'informal' risk assessment process was already being performed prior to transfers. We then aimed to implement a clear assessment process, initially for our unit but ultimately for our critical care network. Method(s): We performed a baseline audit of adult inter-facility critical care transfers undertaken by a team from our unit between 1st December 2019 and 28th February 2020. Notes were analysed for evidence of any risk assessment performed in discussion with the responsible consultant We then locally piloted a new risk assessment tool for our Critical Care Network's transfer documentation. It included the required elements from ICS guidance, and followed a systems-based approach to facilitate completion in time-critical situations. Colour coding enabled easy identification of potential high-risk transfers and guided team formation. Initial re-audit of the new tool was performed between 16th September and 16th October 2020, after which it was implemented across the network. A further re-audit was performed between 1st October and 31st December 2021. Result(s): Fifteen transfers occurred during the initial audit period. All were clinical. No risk assessments were documented (0% compliance), although all were accompanied by a transfer-trained, airway competent doctor and all but one by an ODP. Our second audit cycle identified 10 transfers, of which 4 had risk assessments completed (40% compliance). All transfers had been undertaken with a dual doctor/ODP team. We identified that there was limited knowledge of the risk assessment process among clinicians, so introduced the topic into our unit's transfer training programme. Assessment completion was made a key performance indicator, fed back to team members following each transfer. Our final cycle covered 14 clinical transfers. Eight had a fully completed risk assessment (57% compliance), 2 had partially completed risk assessments (14% partial compliance), 4 had no risk assessment and 2 cases were excluded due to incomplete data. Conclusion(s): Our tool is now used for all inter-hospital transfers across the Midlands Critical Care Network. It enabled risk assessments to be performed appropriately for transfers originating from our unit. Introduction was initially hampered by limited training for clinicians during the first wave of the Covid pandemic, and compliance improved once this was implemented. The recent introduction of a regional critical care transfer service means that the majority of transfers undertaken by our unit's staff are now time-critical clinical transfers. This may contribute to the failure to complete risk assessments in some cases, however these assessments are likely to be of higher importance since such transfers may be higher risk. We now aim to collect feedback from transferring staff to identify any barriers to correct completion.
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Introduction: Northern Ireland (NI) has 5.5 ICU beds/100 000 population,1 amongst the lowest in Western Europe.2 Alongside ICU bed expansion the Covid-19 response required delivery of advanced Respiratory support (Continuous Positive Airway Pressure (CPAP) and High Flow Nasal Oxygen (HFNO)) outside ICU. ICNARC provides robust data for patients within ICU but this is unavailable for those receiving 'critical care' elsewhere. Objective(s): To evaluate delivery of CPAP/HFNO outside of ICU to Covid-19 patients - focusing on demographics and outcomes including ICU admission and mortality. Method(s): Ward-CPAP for acute hypoxaemic respiratory failure (AHRF) was not previously utilised.3 It was introduced for Covid-19 to Medical wards. Data was analysed using the NI Electronic Care Record, ward electronic note system (EDAMS) and ICU system (ICCA, Koninklijke Philips N.V.). Data was compared between Wave 1 (01/03/2020 - 12/12/2020) and Wave 2 (13/12/2020 - 01/04/2021). Result(s): 215 patients received CPAP/HFNO/Invasive Mechanical Ventilation (IMV) for Covid-19: 103 in Wave 1 and 112 in Wave 2. 75 Covid-19 patients were admitted to the ICU itself (comprising 44 of the study cohort, 11 direct from ED and 20 transferred from other Trusts). Table 1 shows demographics. Fewer patients were female as seen elsewhere,4 there were more young patients in Wave 2. The majority of patients would likely have been ICU candidates pre-pandemic,3 but a subset of 25% were deemed for a ward ceiling-of-care on admission by a Consultant and the proportion of elderly patients was higher than described by ICNARC.4 Comorbidities and obesity were common. Outcomes are shown in Table 2 and Figures 1-3. Close co-operation with ICU saw 61% of patients with a documented ICU review. Overall 20% of patients were admitted to ICU, and 15% received IMV. Mortality was 37%, but 22% if patients with an admission ward ceiling-of-care decision were excluded. Mortality correlated with frailty and age (fig 2&3). Outcomes were generally better in Wave 2. Conclusion(s): This Evaluation documents the huge contribution to the critical care Covid-19 response made by our Medical teams, not captured by ICNARC. Most patients avoided ICU admission and IMV and outcomes were likely at least comparable which undoubtedly freed up vital ICU beds. We thank the teams involved and believe it is vital to evaluate the outcome of all critically ill Covid-19 patients irrespective of their location.
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Objectives: We would like to report a case in which a COVID-19 patient who was transferred to our hospital due to a lack of medical resources due to the COVID-19 outbreak in Daegu, South Korea, on February, 2020, underwent double lung transplantation after 110 days with VV-ECMO support and performed double lung re-transplantation 865 days after lung transplantation. Method(s): ECMO was performed on a total of 69 patients with COVID-19-related acute circulatory/ respiratory failure from February 2020 to December 2022. Among them, 16 patients were registered for lung transplantation, and 5 out of 16 registered patients performed lung transplants. One in five people who performed lung transplantation performed retransplantation on the 865thday after transplantation. Result(s): A 52-year-old female patient was transferred to our hospital, and VV-ECMO was performed the next day. The double lung transplantation was performed 112 days after hospitalization and was discharged 238 days after surgery. 668 days after lung transplantation, home O2 was applied as bronchitis obliterans syndrome, and her lung function deteriorated rapidly later, and re-transplantation was decided. In the patient;s HLA test, HLA class I cPRA% was 32% and HLA class II cPRA% was 100%. Desensitization was performed six times plasmapheresis with administrating Botezomib and immunoglobulin, and then re-transplantation was performed on the 865th day after lung transplantation. The patient has maintained her daily life without any special complications other than the occurrence of central DI after surgery. The pathological findings of the lung previously transplanted to the patient were acute rejection (ISHLT grade A2), chronic airway rejection (ISHLT grade C1, B0), and chronic vascular rejection (ISHLT grade D1). Conclusion(s): The long term result of patients who performed lung transplantation with COVID 19 related respiratory failure is still unknown. Therefore, even patients who have undergone long-term VV-ECMO support due to COVID 19 related respiratory failure are expected to achieve good results if lung transplantation is needed by carefully approaching and treating with a multidisciplinary approach.
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Objective: Acute respiratory tract infections are one of the leading causes of morbidity and mortality in children. Although human bocavirus (HBoV) infections are not as common as other seasonal respiratory viruses, children who are infected with HBoV are more likely to suffer from a variety of respiratory conditions, including the common cold, acute otitis media, asthma exacerbations, bronchiolitis pneumonia, some of the affected children require pediatric intensive care unit stay. Here, we aimed to evaluate pediatric bocavirus (HBoV) cases presenting with severe respiratory tract symptoms during the coronavirus disease 2019 (COVID-19) pandemic. Method(s): This retrospective study evaluated the medical records of children diagnosed with respiratory infections, followed up at the Faculty of Medicine, Eskisehir Osmangazi University between September 2021 and March 2022. In this study, patients with HBoV identified using nasopharyngeal polymerase chain reaction (PCR) were considered positive. Cases were analyzed retrospectively for their clinical characteristics. Result(s): This study included 54 children (29 girls and 25 boys) with HBoV in nasopharyngeal PCR samples. The cases ranged in age from 1 month to 72 months (median 25 months). At the time of presentation, cough, fever, and respiratory distress were the most prevalent symptoms. Hyperinflation (48%), pneumonic consolidation (42%), and pneumothorax-pneumomediastinum (7%) were observed on the chest X-ray;54% of the children required intensive care unit stay. The median length of hospitalization was 6 days. Bacterial coinfection was detected in 7 (17%) children, while HBoV and other viruses were present in 20 (37%) children;57% of children received supplemental oxygen by mask, 24% high-flow nasal oxygen, 7% continuous positive airway pressure, and 9% invasive mechanical ventilation support. Antibiotics were given to 34 (63%) cases, and systemic steroid treatment was given to 41 (76%) cases. Chest tubes were inserted in three out of the four cases with pneumothorax-pneumomediastinum. All patients were recovered and were discharged from the hospital. Conclusion(s): The COVID-19 pandemic changed the epidemiology of seasonal respiratory viruses and the clinical course of the diseases. Although it usually causes mild symptoms, severe respiratory symptoms can lead to life-threatening illnesses requiring intensive care admission.Copyright © 2023. The Author(s).
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Introduction: Frimley Park Hospital criteria for referral to High-Risk Obstetric Anaesthetic Clinic (HROAC) included all parturients with BMI > 40. The COVID-19 pandemic necessitated HROAC becoming virtual. It was still possible to discuss risk and assess patients' airways, but not to reliably assess the likely ease of neuraxial techniques or cannulation. Observationally, little useful clinical information was gained, and airway problems rarely noted. An audit was planned to assess how often clinically useful information about the women's airways was gained during appointments. Method(s): HROAC database search for women referred with BMI > 40 with estimated date of delivery 20/04/20-03/04/21 to see whether any airway difficulties were predicted (Mallampati 3 or 4;limited neck movement;jaw slide B or C;limited mouth opening). Result(s): 82 women had BMI > 40, of which 3 were assessed as having a potentially difficult airway: two had BMI > 50 and one had retrognathism causing difficult airway prediction unrelated to her BMI of 41.7. One woman, BMI 58.7, was assessed as having a straightforward airway but her notes revealed her airway had been challenging to intubate in the past. One was assessed in video consultation as straightforward but an airway assessment during admission at the end of her previous pregnancy was Mallampti 3. Five women declined a video consultation. Discussion(s): In view of the minimal gain of clinically useful information and the routine presence of difficult airway kit for the obstetric emergency theatre, it was deemed safe and more relevant to make airway and neuraxial assessments on admission to labour ward rather than in the antenatal clinic for women with BMI<50. The assessment would therefore be made by the duty trainee anaesthetist who would be responsible for managing the patient, thus facilitating appropriate planning and communication if a woman with a challenging airway was identified. It is therefore also made at the very end of pregnancy when weight gain and its impact on airway is likely to be at its maximum. This approach, in conjunction with an antenatal information leaflet, and the ability of any obstetrician to refer to the HROAC, complies with the need for timely assessment of women as required by GPAS [1]. By formalising the assessment of women with high BMI on the labour ward it is hoped that patient safety and planning can be maximised.Copyright © 2023 Elsevier Ltd
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BACKGROUND: One-third of pregnant women will experience worsening asthma requiring emergency hospitalization. However, no report comprehensively discussed the management of asthma attacks in pregnant women in impoverished settings. We attempt to illuminate what general practitioners can do to stabilize and improve the outcome of severe acute asthma exacerbations in primary care with resource limitations. CASE REPORT: A nulliparous 29-year-old woman in her 21st week of pregnancy presented severe acute asthma exacerbation in moderate persistent asthma with uncontrolled asthma status along with gestational hypertension, uncompensated metabolic acidosis with a high anion gap, anemia, respiratory infection, and asymptomatic bacteriuria, all of which influenced her exacerbations. This patient was admitted to our resource-limited subdistrict hospital in Indonesia during the COVID-19 pandemic for optimal stabilization. Crystalloid infusions, oxygen supplementation, nebulized beta-agonist with anticholinergic agents, inhaled corticosteroids, intravenous methylprednisolone, broad-spectrum antibiotics, subcutaneous terbutaline, mucolytics, magnesium sulphate, oral antihypertensives, and continuous positive airway pressure were used to treat her life-threatening asthma. After she was stabilized, we referred the patient to a higher-level hospital with more advanced pulmonary management under the supervision of a multidisciplinary team to anticipate the worst scenario of pregnancy termination. CONCLUSION(S): Limitations in primary care, including the lack of sophisticated intensive care units and laboratory panels, may complicate challenges in managing severe acute asthma exacerbation during pregnancy. To enhance maternal-fetal outcomes, all multidisciplinary team members should be well-informed about key asthma management strategies during pregnancy using evidence-based guidelines regarding the drug, rationale, and safety profile.Copyright © 2023 Muhammad Habiburrahman, Triya Damayanti, Mohammad Adya Firmansha Dilmy, Hariyono Winarto.
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Introduction: Most modern healthcare systems are striving to improve patient outcomes in an evidence-based manner. Increasingly, performance metrics are seen as key tools for accurately measuring and improving patient outcomes and healthcare value.1 However, in order to achieve better outcomes, process measures need to be identified. Process measures are evidence-based, best practices metrics that can be measured and thus, used to identify if outcomes are being met. Good process measures can improve patient outcomes by reducing the amount of variation in care delivery. During the Covid-19 pandemic, vast quantities of data were generated while managing ARDS (Acute Respiratory Distress Syndrome) on the ICU. Furthermore, there was as a concomitant evolution of treatment strategies, which made it exceedingly difficult to identify processes that were actually improving patient outcomes. Objective(s): The aim of our quality improvement project was to promote standardised high quality care for intubated Covid-19 patients by identifying potential quality indicators and trends in their management. It is our intention to expand on this work to report metrics on all severe acute respiratory failure patients. Method(s): 15 process metrics surrounding the early care of intubated of Covid-19 patients were selected via a consultant led review process and a literature review in an effort to identify markers of quality surrounding intubation on our ITU. The variables selected included: - P/F ratio 24 hours pre-intubation, CPAP (continuous positive airway pressure) duration prior to intubation, Recording intubation location, Enhanced thromboprophylaxis prescribed, Permissive hypercapnia, Driving pressure documented, prone position and paralysis initiated if P/F ratio was less than 20 kPa, Echo post intubation. Result(s): Data surrounding the intubation of Covid-19 patients was collected over an 11 week period between September and November 2021. The data was collected in a standardised fashion from patient notes and nursing notes, then stored in an excel file. Our data showed more than half the patients admitted were either intubated on the ward or immediately following arrival onto our ICU, possible indicating a delay in admitting Covid-19 patients. Our data also demonstrated heterogeneity of duration in CPAP prior to intubation which may also indicate delayed intubation for these patients.2 Conclusion(s): Our data demonstrated a reasonable degree of heterogeneity in our approach to the early care of intubated Covid-19 Patients. Areas of concern highlighted were the number of patients intubated on the ward or immediately upon arrival to ITU, rather than admitting prior to deterioration (most likely due to bed pressure) and variation in post intubation respiratory sampling between invasive and non-invasive broncheoalveolar lavage. Ongoing PDSA (plan-do-study-act) cycling are in progress to refine the data collection processes and reporting for all severe acute respiratory failure patients.
ABSTRACT
Introduction: Peripartum women are at increased risk for severe illness with coronavirus disease (Covid-19) infection. Recent medical literature has drawn attention to the possible influence of COVID-19 on the course of pregnancies and its long-term effects.1-5 Objective: This case series aimed to observe the clinical course of peripartum women with confirmed Covid-19 admitted to a critical care unit in the North-west of England. Method(s): Since the start of the pandemic, all pregnant women with Covid-19 infection admitted to the critical care unit were monitored and followed up. Demographic profile, medical co-morbidities, treatment received, respiratory support and vaccination status were noted. Result(s): From March 2020 until February 2022, 8 women in our practice were shifted to the critical care unit post-partum in view of worsening work of breathing & increasing oxygen requirement after initial management in the delivery suite. All admissions were during the 3rd wave of the pandemic in the UK, between June to October 2021. 5 patients underwent Caesarean section under spinal anesthesia & 3 were shifted post normal vaginal delivery. Mean age in the study population was 33.25 years (SD +/- 3.99) and mean length of stay in the ICU was 6.62 days (SD +/- 3.99). Only one woman required intubation & mechanical ventilation for 10 days and the rest were managed on High Flow Nasal Cannula (HFNC) or Continuous Positive Airway Pressure (CPAP) hood and self-proning manoeuvres. 50% of the patients received Tocilizumab. All women were discharged home and there were no maternal deaths. Pre- admission none of the women were vaccinated, but on follow up 5 out of the 8 had completed their vaccination. All women were emotionally distraught due to being isolated from their family and new born. When reviewed at 12 weeks, one patient experienced post traumatic stress disorder (PTSD) and one had features of long Covid syndrome. On follow up, all new born babies were doing well. Conclusion(s): From the limited amount of data available, psychological stress was common to all patients. Being isolated from their new-born and family was the most difficult emotional aspect for the mothers in addition to finding it difficult to breathe and uncertainty about the future. Most mothers and new-born babies were discharged from the hospital without any serious complications. However, further observation and long term follow up is imperative. Use of guidelines in peripartum patients will aid in appropriate escalation of care. Key words: COVID-19, Pregnancy, Peri-partum, Long Covid syndrome.
ABSTRACT
Objectives: Airway hemorrhage (AH) frequently complicates extracorporeal membrane oxygenation (ECMO) treatment. Inflammation, coagulopathy and antithrombotic therapy are contributing factors. Patients with COVID-19- associated ARDS (CARDS) supported with ECMO present all these features. We aim to characterize the incidence and the clinical and prognostic impact of AH. Method(s): Review of a cohort of patients with CARDS treated with ECMO support at a single ECMO centre between March 2020-February 2022 (n=92). AH was defined as a clinically significant hemorrhage fit demanded interruption of anticoagulation, transfusional support or bronchoscopy. Univariate analysis was performed using GraphPadPrism. Result(s): One third (n= 31) of patients with CARDS treated with ECMO had clinically significant AH. Patients who developed AH had significantly longer ICU length-of-stay (LoS), ECMO run and invasive mechanical ventilation (IMV) duration. Significant differences in coagulation and inflammatory markers were detected between patients with early (<72h) versus late (>9 days) onset of AH (Table 1). Mortality at day 90, demographics, comorbidities, CT scan pattern and clinical severity indexes were similar between patients with and without AH (NAH). Conclusion(s): In patients with severe CARDS treated with ECMO support, the occurrence of airway hemorrhage leads to clinically important morbidity but does not increase mortality. Distinct pathways may be involved in the development of early v. late AH. (Table Presented).