ANALGESIA AND SEDATION OF MECHANICALLY VENTILATED PATIENTS IN THE INTENSIVE CARE - CURRENT APPROACH.

Analgesia and sedation are basic parts of the treatment in the intensive care. Nevertheless, deep sedation during mechanical ventilation has many adverse effects. In last decades the trend towards mild titrated sedation is seen. It enables early weaning from mechanical ventilation and shortening the stay in the intensive care setting and hospital. In this article pharmacology of main drugs used for analgesia/sedation nad strategy of sedation in mechanically ventilated patients are described. The last section of this article is dedicated to sedation of patients with acute respiratory distress syndrome of common"and COVID -19 etiology. These patients usually suffer from critical respiratory failure and agressive ventilatory support, prone positioning and other invasive techniques are needed. That is why deep sedation or even paralysis is sometimes necessary, but also in these patients lower sedation and weaning attempts should be tried as soon as possible.Copyright © 2022 TIGIS Spol. s.r.o.. All rights reserved.

Relationship and Impact of Information Seeking Anxiety and Personality Traits on Health Information Seeking Behavior during COVID-19

Aim: To determine the intraoperative Ramsay sedation score after dexmedetomidine infusion in patients undergoing perineal surgery. Study design: Descriptive study. Place and duration of study: Department of Anaesthesia, JPMC, Karachi from 13th February 2021 to 13th August 2021. Methodology: One hundred and seventy four patients who met the diagnostic criteria were enrolled. Result(s): The mean age was 46.51 years with the standard deviation of +/-10.87. 66 (37.9%) were male and 108 (62.1%) were female. Whereas, mean duration of surgery, Ramsay sedation score at 5 minutes, 15 minutes, 30 minutes, height, weight and BMI in our study was 1.41+/-0.40 hours, 1.72+/-0.44, 3.51+/-0.60, 4.57+/-0.62, 165.62+/-8.23 cm, 68.34+/-8.23 kg and 24.85+/-3.34 kg/m2 respectively. Conclusion(s): Intraoperative dexmedetomidine proved beneficial in perineal surgeries and could be served as a potent sedative drug.Copyright © 2023 Lahore Medical And Dental College. All rights reserved.

Prolonged unconsciousness in severe COVID-19 infection with veno-venous ECMO support

Objectives: Patients with severe COVID-19 infections have been shown to have prolonged periods of coma followed by meaningful neurological recovery. Therefore, neurological prognostication is challenging, particularly in those who require veno-venous extracorporeal membrane oxygenation (VV-ECMO) support. We hoped to evaluate which variables can be considered when trying to predict neurological recovery. Method(s): We conducted a case-control retrospective chart review of patients on VV-ECMO from March 2020 to January 2022. This time-frame was selected to limit the effect of post-pandemic changes in sedation practices. Our outcome was duration of unconsciousness, defined as days with GCS motor score <6. We first conducted a matched cohort analysis, comparing COVID and non-COVID patients. We then performed a Classification and Regression Tree (CART) analysis to determine the Relative Variable Importance (RVI) of clinical variables associated with duration of unconsciousness. Result(s): Our matched analysis included 52 patients, 27 (52%) of whom had COVID-19. There were no significant differences in the baseline characteristics of the groups (Table 1). Patients with COVID-19 had a significantly longer median duration on ECMO (p<0.001) and hospital length of stay (p=0.003). The median duration of unconsciousness was similar between COVID-19 and non-COVID patients (p=0.58). The CART analysis results (Figure 1) showed that the most important variables to predict duration of unconsciousness were successive variations in GCS (RVI 100%) and GCS standard deviation (RVI 99%). COVID positivity only had a weak predictability (RVI 4%). Conclusion(s): Our analysis has shown that in patients on VV-ECMO, those with COVID-19 spent a longer time on ECMO and in the hospital. While there was no significant difference in the duration of unconsciousness, we found that patients who had high fluctuations of GCS during ECMO had a shorter duration of coma. (Figure Presented).

Sleep Promotion in a Busy Inner City High Dependency Unit

Introduction: Critical care patients commonly have disrupted sleep patterns, with reduction of REM sleep, duration of sleep, increased fragmentation and loss of circadian rhythm.1 Causes include the patients' pathophysiology, medications administered and the busy critical care environment. Data collection showed that our patients were sleeping, on average, for a single block of sleep of 3.5 hours. Delirium rates and its known deleterious effects are highly associated with poor sleep, as well as an impairment of psychomotor performance and neurocognitive dysfunction. Sleep deprivation in the healthy population impairs lymphocyte action, cytokine production and pro-inflammatory balance, as well as a reduction in respiratory function and prolongation of respiratory support.2 Objectives: To firstly measure the sleep quality and explore the reasons behind poor sleep from the patients themselves and to gauge the MDT knowledge and interest in sleep, as a fundamental component of patient management. Then using the results we aimed to improve the duration and quality of the patients sleep on high dependency unit. Method(s): The Adapted Richard Campbell Sleep Questionnaire was given to all patients in the HDU over a 4 week period. Results were analysed, then stored for post intervention comparison. The duration of sleep was documented for all patients and a staff questionnaire was done to assess knowledge and concern of staff. Interventions included a staff sleep awareness week with education and prompts attached to the charting tables promoting sleep. Face masks and ear plugs were freely available to be distributed at the evening ward round. The critical care pharmacist identified medications that could alter the patients ability to achieve REM sleep - e.g. evening administered PPIs, and melatonin was commenced early when sleep was troublesome. Estates fixed soft close doors and soft closed bins supplied for clinical areas. After interventions, there was a further 4 week study period where the above factors were repeated. The need for natural light was highlighted and thus this was optimized in the ward environment and those physiologically able were offered trips outdoors to facilitate normal day night wake cycle. With the COVID pandemic ongoing we also endeavored to limit movement overnight of venerable patients. Result(s): The original data collection was of 45 patients with multiple data points, and the second of 27 patients with multiple data points. Results from the Adapted Richard Campbell Sleep Questionnaire were compared using a one tailed students t test. There were significant increases in the subjective quality of sleep (p=0.046) and quantity of sleep (p=0.00018). Reasons given as to improvement of sleep were reduction in discomfort from monitoring and the bed (p=0.026), reduced ambient light (p=0.031) and reduced impact from the presence of other patients (p=0.002). Conclusion(s): There was marked improvement in the awareness of the importance of sleep within the critical care team after education promoting a change in attitude and culture towards sleep. We are planning a second iteration targeting sedation, noise from monitors and staff and overnight interventions. Although this has been done with level 2 patients, extension to level 3 areas would be beneficial.

Analgosedation of patients with severe COVID-19 associated respiratory failure supported with extracorporeal membrane oxygenation: A retrospective, single-center analysis

Objectives: Analgosedation of patients with severe respiratory failure due to coronavirus disease 2019 (COVID-19) proved to be challenging. Patients supported with venovenous extracorporeal membrane oxygenation (VV ECMO) seemed to require analgosedative drugs in high doses. This study reviews analgosedation practices in patients with COVID-19 associated severe respiratory failure supported with VV ECMO. Method(s): This is a retrospective, single-center registry study including all patients with COVID-19 associated severe respiratory failure that were supported with VV ECMO at our center. All sedative and analgetic drugs administered intravenously or via inhalation to patients for at least two hours were recorded and analyzed. Result(s): Between March 2020 and January 2022, 88 patients with COVID-19 associated severe respiratory failure were supported with VV ECMO at our center. Propofol and sufentanil were used most frequently for analgosedation in this cohort. Both drugs were co-administered following treatment standards established prior to the emergence of COVID-19 at our center. Sedative and analgetic drugs were switched to alternative regimens after a median time of 3 and 12.5 days. Alternative regimens included Isofluran, alpha-2- agonists (clonidine or dextomidine) or esketamine. Alpha-2- agonists were initiated at a median time of 2 days after starting VV ECMO support. Benzodiazepines were used primarily as last resort treatment option for sedation at our center. During the four waves of the pandemic experienced at our center, we experienced an increased average number of drugs needed for analgosedation. Conclusion(s): Analgosedation in critically ill COVID-19 patients supported with ECMO is challenging. It remains unclear, whether the standard analgosedation regimen with sufentanil and propofol established at our center prior to the COVID-19 pandemic is optimal for this patient cohort. Further studies are needed to determine optimal and long term safe analgosedation regimens in critically ill patients supported by VV ECMO. Furthermore, changes experienced during the course of the pandemic need to be scrutinized in comparison to other cohorts. (Table Presented).

Successful ECMO course in an Acquired Immune Deficiency Syndrome (AIDS) patient with ARDS complicated by pneumocystis jirovecii pneumonia and COVID-19: A unique case

Objectives: Reviewing current literature and case reports of patients placed on Venous-Venous ECMO support for HIV and AIDS, with confection with Pneumocystis pneumonia and covid-19 pneumonia. The use of extracorporeal membrane oxygenation (ECMO) in patients who have acute respiratory distress syndrome has been shown to have very good outcomes. However, there is limited data to support the initiation of ECMO in patients who have human immunodeficiency virus infection with or without acquired immune deficiency syndrome. Method(s): We present a unique and challenging case of a 30 year old male, with no known past medical history, unvaccinated against covid-19, who presented with one week of progressive shortness of breath. On admission he was found with moderate bilateral infiltrates and was diagnosed with covid-19 pneumonia. Despite appropriate medical therapy, patient developed worsening hypoxic respiratory failure. Found to have elevated (1- 3)-7beta;-d-glucan and tested positive for HIV. CD4 count 11, HIV viral load 70,000. The patient remained severely hypoxemic despite mechanical ventilation, sedation, paralytics and proning. Venous venous extracorporeal membrane oxygenation was initiated. Considering his non improvement with variety of antivirals and antibiotics and with elevated (1-3)-7beta;-d-glucan in the setting of AIDS he was treated for presumed Pneumocystis pneumonia. The patient tolerated proning while on VV ECMO and his course was complicated with bilateral pneumothorax necessitating chest tube placement. Result(s): The patient successfully completed 64 days on VV ECMO, where he was treated for PCP pneumonia, covid pneumonia, CMV viremia and tolerated initiation of anti-retroviral therapy. Patient was successfully decannulated, and ultimately discharged from the hospital. Conclusion(s): VV-ECMO can be a beneficial intervention with successful outcomes in severely immunocomprimised patients with AIDS. This case highlights the importance of minimizing sedation and early mobilization on ECMO support. (Figure Presented).

Characteristics of delirium and its association with sedation and in-hospital mortality in patients with COVID-19 on veno-venous extracorporeal membrane oxygenation.

Background: Veno-venous extracorporeal membrane oxygenation (VV-ECMO) has been used in patients with COVID-19 acute respiratory distress syndrome (ARDS). We aim to assess the characteristics of delirium and describe its association with sedation and in-hospital mortality. Methods: We retrospectively reviewed adult patients on VV-ECMO for severe COVID-19 ARDS in the Johns Hopkins Hospital ECMO registry in 2020-2021. Delirium was assessed by the Confusion Assessment Method for the ICU (CAM-ICU) when patients scored-3 or above on the Richmond Agitation-Sedation Scale (RASS). Primary outcomes were delirium prevalence and duration in the proportion of days on VV-ECMO. Results: Of 47 patients (median age = 51), 6 were in a persistent coma and 40 of the remaining 41 patients (98%) had ICU delirium. Delirium in the survivors (n = 21) and non-survivors (n = 26) was first detected at a similar time point (VV-ECMO day 9.5(5,14) vs. 8.5(5,21), p = 0.56) with similar total delirium days on VV-ECMO (9.5[3.3, 16.8] vs. 9.0[4.3, 28.3] days, p = 0.43). Non-survivors had numerically lower RASS scores on VV-ECMO days (-3.72[-4.42, -2.96] vs. -3.10[-3.91, -2.21], p = 0.06) and significantly prolonged delirium-unassessable days on VV-ECMO with a RASS of -4/-5 (23.0[16.3, 38.3] vs. 17.0(6,23), p = 0.03), and total VV-ECMO days (44.5[20.5, 74.3] vs. 27.0[21, 38], p = 0.04). The proportion of delirium-present days correlated with RASS (r = 0.64, p < 0.001), the proportions of days on VV-ECMO with a neuromuscular blocker (r = -0.59, p = 0.001), and with delirium-unassessable exams (r = -0.69, p < 0.001) but not with overall ECMO duration (r = 0.01, p = 0.96). The average daily dosage of delirium-related medications on ECMO days did not differ significantly. On an exploratory multivariable logistic regression, the proportion of delirium days was not associated with mortality. Conclusion: Longer duration of delirium was associated with lighter sedation and shorter paralysis, but it did not discern in-hospital mortality. Future studies should evaluate analgosedation and paralytic strategies to optimize delirium, sedation level, and outcomes.

Dexmedetomidine sedation reduces the incidence of atrial fibrillation in mechanically ventilated patients with COVID-19 pneumonia: A randomized controlled trial

Background: Atrial fibrillation (AF) is a cardiac complication commonly associated with COVID-19 infection, especially in severe cases. The sedative agent dexmedetomidine is known to cause bradycardia. In this study, we are testing whether dexmedetomidine could reduce the occurrence of AF in mechanically ventilated COVID-19 patients. Method(s): This prospective trial included 144 patients who were randomly allocated to one of two groups: Group C patients were sedated with propofol and fentanyl. Group D patients were sedated with the same medications in addition to dexmedetomidine infusion. Result(s): Demographic, clinical, and cardiac characteristics of all patients did not significantly differ between the two groups. The duration of intensive care unit (ICU) stay was comparable between the two groups. However, both propofol and fentanyl consumption significantly declined in Group D. The number of AF attacks showed a significant decline in association with dexmedetomidine administration (mean = 12.5% in Group D vs. 29.2% in Group C). Dexmedetomidine also reduced the amount of required electrical cardioversion episodes. Additionally, antiarrhythmic medication needed reduced significantly in Group D. Mortality rates did not differ between the two study groups (58.3% and 63.8% in Groups D and C, respectively). Conclusion(s): Dexmedetomidine is associated with a significant reduction in the burden of AF in patients with severe COVID-19 infection, manifested by fewer AF attacks, the need for electrical cardioversion shocks, and the consumption of antiarrhythmic medication without impact on mortality.Copyright © 2023 The Author(s). Published by Informa UK Limited, trading as Taylor & Francis Group.

COVID-19 Critical and Intensive Care Medicine Essentials

This book provides healthcare professionals in Critical Care setting an easy consultation guide to fight against COVID-19. The book is divided into sections: Fundamentals of COVID-19, Pneumological critical care, Neurological manifestations, Cardiovascular manifestations, Renal manifestations, Haemostasis and coagulation, Other multi-organs involvement, Principles of therapy. Each section includes: · brief pathophysiology of COVID-19 (ventilation, neurological, cardiovascular, etc.);· principles of management (enriched with flowcharts and figures);· principles of therapy;· tips and key messages. Readers can find the most updated advices on how to face the ongoing pandemic: from principles of conventional oxygen therapy, assisted and invasive mechanical ventilation in critically ill COVID-19 patients to the complications sometimes underestimated. Tables and flowcharts provided are based on current knowledge in COVID-19 to help the clinician managing COVID-19 patients by a multiple-organs prospective. Written by international key opinion leaders of each field, the book represents a point of reference for all professionals involved in the management of COVID-19 pandemic. © The Editor(s) (if applicable) and The Author(s), under exclusive license to Springer Nature Switzerland AG 2022.

Respiratory support with nasal high flow without supplemental oxygen in patients undergoing endoscopic retrograde cholangiopancreatography under moderate sedation: a prospective, randomized, single-center clinical trial.

BACKGROUND: Nasal high flow (NHF) may reduce hypoxia and hypercapnia during an endoscopic retrograde cholangiopancreatography (ERCP) procedure under sedation. The authors tested a hypothesis that NHF with room air during ERCP may prevent intraoperative hypercapnia and hypoxemia. METHODS: In the prospective, open-label, single-center, clinical trial, 75 patients undergoing ERCP performed with moderate sedation were randomized to receive NHF with room air (40 to 60 L/min, n = 37) or low-flow O2 via a nasal cannula (1 to 2 L/min, n = 38) during the procedure. Transcutaneous CO2, peripheral arterial O2 saturation, a dose of administered sedative and analgesics were measured. RESULTS: The primary outcome was the incidence of marked hypercapnia during an ERCP procedure under sedation observed in 1 patient (2.7%) in the NHF group and in 7 patients (18.4%) in the LFO group; statistical significance was found in the risk difference (-15.7%, 95% CI -29.1 - -2.4, p = 0.021) but not in the risk ratio (0.15, 95% CI 0.02 - 1.13, p = 0.066). In secondary outcome analysis, the mean time-weighted total PtcCO2 was 47.2 mmHg in the NHF group and 48.2 mmHg in the LFO group, with no significant difference (-0.97, 95% CI -3.35 - 1.41, p = 0.421). The duration of hypercapnia did not differ markedly between the two groups either [median (range) in the NHF group: 7 (0 - 99); median (range) in the LFO group: 14.5 (0 - 206); p = 0.313] and the occurrence of hypoxemia during an ERCP procedure under sedation was observed in 3 patients (8.1%) in the NHF group and 2 patients (5.3%) in the LFO group, with no significant difference (p = 0.674). CONCLUSIONS: Respiratory support by NHF with room air did not reduce marked hypercapnia during ERCP under sedation relative to LFO. There was no significant difference in the occurrence of hypoxemia between the groups that may indicate an improvement of gas exchanges by NHF. TRIAL REGISTRATION: jRCTs072190021 . The full date of first registration on jRCT: August 26, 2019.

Supraclavicular regional anaesthesia affecting bispectral index as level of consciousness monitor (SUPRABLOC): a pilot randomised controlled trial

Background: Renewed interest in regional anaesthesia during the recent COVID-19 pandemic has inspired application of neuraxial anaesthesia for previously unconventional indications, such as awake abdominal surgeries. These patients needed little sedation, since studies demonstrate that neuraxial anaesthesia causes sedation as measured by the bispectral index (BIS). In contrast, no published study has investigated the possible sedative effects of non-neuraxial regional anaesthesia. This pilot randomised controlled trial (RCT) was designed as a template for, and to test the feasibility of, performing a definitive RCT to establish if non-neuraxial regional anaesthesia has any sedative effect. Method(s): Forty participants presenting for forearm surgery were randomly allocated to two treatment groups (supraclavicular block and control). Their level of sedation was monitored with BIS prior to surgery for 60 minutes. Specific feasibility outcomes were planned and data were collected according to CONSORT 2010 recommendations. Result(s): Out of 48 patients screened, 41 (85.42%) were invited to participate. Forty patients (97.56%) consented and 100% of these completed the study. In four participants (10%), BIS electrodes needed replacement, while inadequate contact was shown in three participants (7.50%). Data collection and form completion were deemed "easy" and block success rate was 100%. Differences in mean BIS between groups were < 5 and a difference of 10% between groups in incidence of BIS < 80 (85% block group, 75% control group) was shown. Conclusion(s): We propose that progression to formal RCT is feasible only with specific modifications to the study design. The decrease in BIS value from baseline should be measured per patient and a clinically significant decrease should be estimated;emergency patients should be excluded;the sample size should be 500 patients;and multiple trial sites should be used. Further consideration should be given to whether such a trial would provide clinically useful information, and would justify the risks, patient discomfort and the considerable financial cost.Copyright © 2023, Medpharm Publications. All rights reserved.

Asymmetric Cerebral Perfusion in Comatose Extracorporeal Membrane Oxygenation Patients

Asymmetric cerebral perfusion can occur when extracorporeal membrane oxygenation (ECMO) flow competes with native cardiac circulation. It is unclear whether this phenomenon associates with brain injury. Diffuse correlation spectroscopy (DCS) provides continuous, laser-based, non-invasive, bedside monitoring of relative cerebral blood flow (rCBF). This study measured rCBF in ECMO patients via DCS to determine whether comatose patients experience asymmetric cerebral perfusion. Adults receiving ECMO for any indication were prospectively recruited from 12/2019-3/2021. Patients with prior neurologic injury, scalp/facial lacerations, and SARS-CoV-2 infection were excluded. DCS monitoring was performed daily during ECMO support with sensors placed on bilateral foreheads. Mean arterial pressure (MAP) was continuously recorded from the bedside monitor. The Glasgow Coma Scale (GCS) was assessed by clinical staff multiple times daily with sedation pauses, if possible, per standard of care. rCBF was calculated by comparing continuous cerebral blood flow (CBF) measurements to the daily median CBF, then averaged at each MAP value. Daily rCBF asymmetry was calculated by summing the absolute difference of rCBF between the two hemispheres at each MAP value, normalized for the total MAP range experienced by the patient that day. Twelve subjects were enrolled in this study (ages 21-78, 6 with cardiac arrest, 4 with acute heart failure, 2 with ARDS) and grouped by maximum GCS motor (GCS-M) score during ECMO, with 3 "comatose" subjects (GCS-M <= 4), and 9 "awake" subjects (GCS-M > 4). DCS was performed over 66 sessions with a mean duration of 131.83 +/- 1.13 minutes. Comatose subjects exhibited more rCBF asymmetry than awake subjects (0.28 +/- 0.06 mmHg-1 vs. 0.10 +/- 0.001 mmHg-1, p=0.045). No difference in asymmetry was noted between patients with or without cardiac arrest. We found that comatose ECMO subjects exhibited higher inter-hemispheric rCBF asymmetry over a range of blood pressures than awake subjects. Though our comatose sample is small, further validation of this finding and its causes, such as cerebrovascular dysregulation, is warranted.

Sedation in the ICU: association between dexmedetomidine and 28-day mortality in patients with COVID-19

Introduction: The aim of our study is to evaluate the relationship between dexmedetomidine (DEX) use as a sedative agent in mechanical ventilated ICU patients and 28-day mortality. DEX, a selective alfa-2 adrenergic receptor agonist, widely used for its sedative and analgesic properties, has been linked to increasing parasympathetic tone, reducing the inflammatory response and oxidative stress [1]. Since severe COVID-19 is associated with an hyperinflammatory state, it is hypothesized that DEX might improve outcomes in these patients. Method(s): This is a retrospective observational study of mechanically ventilated patients admitted with COVID-19 pneumonia in the ICU of a tertiary center in Portugal, between March 2020 and December 2021. Logistic regression analysis was performed to evaluate the association of DEX use and 28-day mortality from time of intubation. Result(s): A total of 277 patients were analyzed, 151 in the DEX group and 126 in the no DEX group. Patients in the DEX group were younger (53.3 vs. 63.3 years, p < 0.001), had less comorbidities (2.8 vs. 3.5, p = 0.01), lower SOFA at admission (6.2 vs. 7.1, p = 0.01) but had a prolonged ICU stay (21.4 vs. 15.9, p < 0.001). Male gender (65.6 vs. 69.0, p = 0.54), incidence of obesity (56.3 vs. 46.8, p = 0.12), coronary artery disease (4.0 vs. 7.9, p = 0.16) and atrial fibrillation (4.0 vs. 7.1, p = 0.25) were similar between groups. PaO2/ FiO2 ratio at admission (111.1 vs. 108.1, p = 0.61), days spent in RASS < 3 (13.7 vs. 12.4, p = 0.31) and opioid use (14.8 vs. 13.1, p = 0.16) were also similar. From time of intubation, 28-day mortality in the cohort receiving DEX was 14.7% compared to 59.5% in the no DEX group (OR 0.12;95% CI 0.07-0.21;p = 0.01). Conclusion(s): Use of DEX was associated with lower 28-day mortality in COVID-19 critically ill patients requiring invasive mechanical ventilation in our study analysis. Considering the limitations of a retrospective observational study, RCTs are needed to confirm the results.

Risk factors for nosocomial infections in COVID-19 ICU population

Introduction: The aim of this study is to identify the factors associated with an increased risk of developing nosocomial infections (NI) in COVID-19 patients admitted with pulmonary involvement in the ICU. NI in COVID-19 ICU population are an important cause of morbidity and mortality worldwide and its prompt identification might lead to its prevention and better outcomes. Method(s): This is a retrospective observational study of patients admitted with COVID-19 pneumonia in the ICU of a tertiary center in Portugal, between March 2020 and December 2021. We considered NI as any infection acquired > 48 h post ICU admission. Clinical, analytical and baseline patient data were evaluated. Logistic regression analysis was performed to correlate patient related variables with the development of NI. Result(s): A total of 338 patients were enrolled, from which 167 (47.9%) presented with NI. Baseline characteristics are described in Table 1. In the logistic regression analysis, older age (OR 1.13;95% CI 1.03-1.25;p = 0.013), coronary artery disease (CAD) (OR 28.7;95% CI 1.92-429;p = 0.02), obesity (OR 3.14;95% CI 0.86-11.42;p = 0.008), chronic liver disease (CLD) (OR 104.33;95% CI 1,.04-1008.49;p = 0.04), use of dexamethasone (OR 21.89;95% CI 3.04-157.85;p = 0.002) and days in RASS < 3 (OR 1.4;95% CI 1.05-1.86;p = 0.02) were associated with an increased risk of developing NI in the ICU. Surprisingly, SOFA at admission, days of invasive mechanical ventilation, days of sedation and PaO2/ FiO2 ratio at admission, although statistically significantly different between groups, did not correlate with the risk of infection. Conclusion(s): We identified prolonged deep sedation, corticosteroid use, and patient characteristics (CAD, obesity, CLD, older age) as independent risk factors for NI development in COVID-19 critically ill patients. It is also noteworthy to point out for the presence of confounding variables, including the excessive workload in the ICU during this period, leading to an increase in NI numbers.

Uncovering the Benefits of the Ketamine-Dexmedetomidine Combination for Procedural Sedation during the Italian COVID-19 Pandemic.

This retrospective observational study evaluated the safety and efficacy of the ketamine and dexmedetomidine combination (keta-dex) compared to ketamine or dexmedetomidine alone for sedation of patients with acute respiratory distress due to COVID-19 pneumonia who require non-invasive ventilation. The following factors were assessed: tolerance to the ventilation, sedation level on the Richmond Agitation-Sedation Scale (RASS), hemodynamic and saturation profile, adverse effects, and discontinuation or mortality during ventilation. The study included 66 patients who underwent sedation for non-invasive ventilation using keta-dex (KETA-DEX group, n = 22), ketamine (KET group, n = 22), or dexmedetomidine (DEX group, n = 22). The DEX group showed a slower sedation rate and a significant reduction in blood pressure compared to the KETA-DEX group (p < 0.05). An increase in blood pressure was recorded more frequently in the KET group. No reduction in oxygen saturation and no deaths were observed in any of the groups. None of the patients discontinued ventilation due to intolerance. The mean duration of sedation was 28.12 h. No cases of delirium were observed in any of the groups. Overall, keta-dex was associated with faster sedation rates and better hemodynamic profiles compared to dexmedetomidine alone. Keta-dex is effective and safe for sedation of uncooperative patients undergoing non-invasive ventilation.

Ventilator-associated events: From surveillance to optimizing management

Mechanical ventilation (MV) is a life-support therapy that may predispose to morbid and lethal complications, with ventilator-associated pneumonia (VAP) being the most prevalent. In 2013, the Center for Disease Control (CDC) defined criteria for ventilator-associated events (VAE). Ten years later, a growing number of studies assessing or validating its clinical applicability and the potential benefits of its inclusion have been published. Surveillance with VAE criteria is retrospective and the focus is often on a subset of patients with higher than lower severity. To date, it is estimated that around 30% of ventilated patients in the intensive care unit (ICU) develop VAE. While surveillance enhances the detection of infectious and non-infectious MV-related complications that are severe enough to impact the patient's outcomes, there are still many gaps in its classification and management. In this review, we provide an update by discussing VAE etiologies, epidemiology, and classification. Preventive strategies on optimizing ventilation, sedative and neuromuscular blockade therapy, and restrictive fluid management are warranted. An ideal VAE bundle is likely to minimize the period of intubation. We believe that it is time to progress from just surveillance to clinical care. Therefore, with this review, we have aimed to provide a roadmap for future research on the subject.Copyright © 2022 The Author(s)

Idiopathic anomalous congenital band causing small intestinal obstruction in a 5-month-old dog

A 5-month-old, intact male, yellow Labrador retriever was presented with a 24-hour history of anorexia and vomiting. Abdominal imaging revealed the presence of a mechanical obstruction in the jejunum and peritoneal effusion. Cytologic evaluation and culture of the effusion prior to surgery identified a suppurative exudate with bacteria consistent with septic peritonitis and suspected to be related to the intestinal lesion. An exploratory laparotomy was performed, and a segment of jejunum was circumferentially severely constricted by an off-white, fibrous band of tissue. Resection and anastomosis of the strangulated segment of jejunum and excision of the constricting band provided resolution of the clinical signs. The dog made a complete recovery. Histologic evaluation revealed the band to be composed of fibrovascular and smooth muscle tissue, consistent with an idiopathic anomalous congenital band. No other gastrointestinal lesions were observed, either grossly at surgery or histologically in the resected segment of intestine. To our knowledge, a similar structure has not been reported in the veterinary literature.Copyright © 2022 Canadian Veterinary Medical Association. All rights reserved.

Year 2022 in review - Respiratory failure and lung support therapy.

The use of ECMO methods has experienced a significant boom in recent years, mainly due to the SARS-CoV-2 pandemic. Many workplaces that had little or no experience with ECMO currently possess the relevant technology and can use this method in real clinical practice. The prone position (PP) has changed from the original position of rescue intervention to the leading position among the methods that should be considered standard in patients with a severe form of acute respiratory failure. Thus, the combination of pronation and ECMO support has received considerable attention in recent years. This text, although a year in the 2022 review, briefly discusses available evidence-based medicine publications over the past few years devoted to this topic. The use of PP in clinical conditions other than mechanical ventilation (MV), e.g. in conscious patients on non-invasive ventilatory support, is described in the next section of this text. Another topic is the correct setting of MV while using PP and the effect of PP in pregnant patients with COVID-19. Inhalational anesthetics and their use for sedation of patients on UPV are currently among the frequently discussed topics within the optimization of intensive care. Conversely, ventilator-induced dysfunction of the main respiratory muscles, especially the diaphragm, has been a serious topic in critical care for a long time. Next, critically ill patients are at risk of hyperoxemia both as part of MV and ECMO support. The negative impact of this condition is the final topic of the article.Copyright © 2022, Czech Medical Association J.E. Purkyne. All rights reserved.

Covid-19-associated diffuse posthypoxic leukoencephalopathy and microhemorrhages - A case report

Background: Delayed post-hypoxic leukoencephalopathy (DPHL) with associated microbleeds is a clinical entity presenting with cognitive impairment days or weeks after an episode of acute hypoxic brain injury. Case report: We describe a 68-year-old male with SARS-CoV2 infection who had cardiac arrest, required sedation and mechanical ventilation for 17 days, and after sedation was discontinued, he became unresponsive. Brain MRI showed diffuse confluent hyperintense signals in the subcortical white matter and multiple subcortical white matter microhemorrhages. EEG revealed diffuse attenuation of brain electrical activity with isolated polymorphic delta waves in the frontal region without epileptiform activity. Conclusion(s): Clinicians need to be aware that patients with Covid-19 can develop delayed post-hypoxic leukoencephalopathy.Copyright © 2022 The Authors

Lung clearance index using a novel washout device is elevated in premature infants

Introduction: Lung clearance index (LCI) is a measure of lung gas mixing, and a sensitive indicator of peripheral airway obstruction. In children born prematurely there have been previous reports of elevated LCI at birth and childhood. LCI in infants is highly challenging, requiring either 100% O2 to washout, or use of 4% SF6. Here we report on a novel method using a portable LCI device in non-sedated premature infants. Method(s): LCI measurements were undertaken using 0.1% SF6 and washout on air. Premature infants no longer requiring oxygen were recruited just prior to discharge. Follow up measurements were planned 1 year later. Healthy controls were recruited opportunistically when attending non-thoracic MRI scan under sedation. Result(s): 13 premature babies (mean 30+6 weeks at birth, 37+6 corrected at measurement) were recruited and successful measurements were achieved on 9 (69%). LCI data are available for 36 healthy controls (mean 62weeks old, range 12-154 weeks). Mean LCI of the premature children (8.4, SD 1.6). was significantly higher than that of the healthy cohort (mean LCI 7.0, SD 0.6), p=<0.001. Median coefficient of variation of ex-premature LCI was 6.6%. Mean(SD) FRC was 68.95(47.96)ml (21 ml/kg (SD=3.19)). Only one child attended for a follow- up measurement (study interrupted by COVID pandemic);initial LCI of 7.3 at 38+6 (7 weeks of age) which increased to 8.0 at 61 corrected weeks of age. Conclusion(s): LCI is elevated in premature infants at time of discharge. This can be measured successfully using a portable device without high concentrations of SF6 or O2, and without sedation. The longitudinal change is still to be determined.