Appropriate Level Of Sedation Research Articles

Prospective case series study on the use of a novel analgosedation protocol for ultrasound-guided catheterization in Neonatal Intensive Care Unit.

Our study represents the very first step towards the design of a validated protocol for analgosedation during ultrasound-guided CICC insertion in NICU. • Critically ill newborns admitted to Neonatal Intensive Care Unit often require a centrally inserted central catheter. • Achieving an appropriate level of sedation and analgesia is paramount for procedure success and patient safety, avoiding the potential risks associated with excessive deep sedation. • The use of this new protocol for analgosedation is able to achieve a good level of sedation and pain control without significant adverse event. • Ultrasound-guided CICC insertion can be performed even in non-ventilated newborns.

Propofol Mitigates Sepsis-Induced Brain Injury by Inhibiting Ferroptosis Via Activation of the Nrf2/HO-1axis.

Sepsis-associated encephalopathy (SAE) develops in 30-70% of hospitalized patients with sepsis. In intensive care units (ICUs), propofol is often administered to ensure an appropriate level of sedation in mechanically ventilated patients. Ferroptosis is a newly identified mode of cellular death characterized by the peroxidation of membrane lipids and excessive iron. This study was conducted to explore the interplay between propofol, sepsis, and ferroptosis. An acute systemic inflammatory model was constructed via the intraperitoneal administration of lipopolysaccharide (LPS). Nissl and Fluoro-Jade C (FJC) staining were employed to display neuronal damage and degeneration. Western blotting and immunofluorescence (IF) staining of Bax and Bcl-2 were used to confirm the neural apoptosis. QPCR of cytokines and DHE staining were used to indicate neuroinflammation. To validate ferroptosis, we assessed the content of malondialdehyde (MDA), GSH, and tissue iron, accompanied by transcription level of CHAC1, PTGS2 and GPX4. Additionally, we examined the content of acyl-CoA synthetase long-chain family member 4 (ACSL4), xCT (SLC7A11, solute carrier family 7 member 11), and glutathione peroxidase 4 (GPX4). The IF staining of Iba1-labeled microglia and GFAP-marked astrocytes were used to measure the gliosis. Erastin was pre-pretreated to confirm the anti-ferroptotic capability of propofol. ML385 was preconditioned to explore the role of nuclear factor erythroid 2-related factor 2 (Nrf2) and heme oxygenase-1 (HO-1) in propofol-repressed ferroptosis. Propofol dose-dependently inhibited the decrease of Nissl-positive neurons and the increase of FJC-stained neurons in septic hippocampus and cortex. Neural cytokines, oxidative stress, apoptosis and gliosis were reduced by propofol. Propofol repressed the level of MDA, iron, CHAC1, PTGS2, ACLS4 and restored the content of GSH, GPX4, xCT, Nrf2 and HO-1, thus inhibiting sepsis-induced ferroptosis. All protections from propofol could be reversed by eratsin and ML385 pretreatment. Propofol protected against sepsis-induced brain damage, neuroinflammation, neuronal apoptosis and gliosis through the activation of the Nrf2/HO-1 axis to combat ferroptosis.

New sedatives and analgesic drugs for gastrointestinal endoscopic procedures.

Procedural sedation has become increasingly common in endoscopy. Sedatives and analgesics induce anxiolysis and amnesia. In addition, an appropriate level of sedation is necessary for safe procedures including therapeutic endoscopy. Midazolam and propofol are the most commonly used drugs in sedative endoscopy. In recent years, the need to ascertain the safety and effectiveness of sedation has increased in practice. Therefore, new sedatives and analgesic drugs for optimal sedative endoscopy, have recently emerged. This article reviews the characteristics of sedatives and analgesics, and describes their clinical use in gastrointestinal endoscopy.

The impact of a single room environment on sedation practices in intensive care

Introduction: Appropriate levels of sedation in critical illness are important because poorer outcomes are associated with over- or under- sedation. Environmental factors, such as staffing levels, decreased patient visibility, greater distance between patients and nursing patients in single rooms, also impact sedation practices because of the perception of increased personal and patient risk. Objectives/Aims: To explore the effect of a single room environment on sedation practices in critically ill adults. Methods: A pre-post quasi-experimental design with data collected 12 months before in an open-plan ICU (n=319) and after (n=306) the move to a new ICU with single rooms. Data were collected for the first 14d of ICU admission or until ICU discharge from all adult patients requiring mechanical ventilation for >12h. Results: Patient characteristics such as age, sex, APACHE II score, length of stay and ventilation were similar in both groups. In the single room environment, there was no difference in the median total dose of midazolam delivered across the first 4d of ICU admission. The median total dose was statistically higher for fentanyl on days 1 (981.6mcg vs 1201.7mcg) and 3 (1019.7mcg vs 1219.1mcg) of ICU admission; for morphine on day 2 (71.9mg vs. 134.3mg) and day 3 (58.3mg vs 125.3mg); and for propofol on day 1 (1134.0mg v 1692.1mg) and day 3 (1208.7mg vs 2053.4mg). Time series analysis demonstrated a sharp increase in the proportion of patients over-sedated on days 1-3 for the 2 months following the move to single rooms; this decreased over the subsequent 10 months. Conclusion: Moving from an open plan to a single room environment may contribute to perceptions of increased personal and patient risk which results in administration of higher levels of sedation medication. In our context initial over-sedation corrected over time to be similar to pre-move levels.

Evidence-Based Recommendations for the Appropriate Level of Sedation to Manage Pain in Pediatric Oncology Patients Requiring Procedures: A Systematic Review From the Children's Oncology Group [Formula: see text

Repeated invasive and painful procedures are often necessary components of pediatric cancer treatment. Adequate pain control during procedures is essential; however, procedure-related pain may be underestimated and undertreated. Currently, there is not a standard approach for the appropriate level of sedation to manage procedure-related pain in children with cancer. A team was assembled to review the evidence and develop recommendations to determine the appropriate level of sedation necessary for pain control in patients undergoing pediatric oncology procedures. After a systematic search of the literature, 15 research-based articles were synthesized and critically appraised. A recommendation was made related to the level of sedation utilized for bone marrow aspirates and bone marrow biopsies. There is a need for further research related to the necessary level of sedation for patients undergoing pediatric oncology procedures.

Paediatric procedural sedation and analgesia by emergency physicians in a country with a recent establishment of emergency medicine.

Paediatric patients receive less procedural sedation and analgesia (PSA) in the emergency department compared with adults, especially in countries where emergency medicine is at an early stage of development. The objectives of this study were to evaluate the adverse events and efficacy of paediatric PSA in a country with a recent establishment of emergency medicine and to describe which factors aided implementation. This is a prospective, multicentre, observational study of paediatric patients undergoing PSA by the first trained emergency physicians (EPs) in The Netherlands. A standardized data collection form was used at all participating hospitals to collect data on adverse events, amnesia, pain scores, and procedure completion. A survey was used to interpret which factors had aided PSA implementation. We recorded 351 paediatric PSA. The mean age was 9.5 years (95% confidence interval: 9.1-10.0). Esketamine was most frequently used (42.4%), followed by propofol (34.7%). The adverse event rate was low (3.0%). Amnesia was present in 86.8%. The median pain score was 2 (out of 10) for patients without amnesia. Procedures were successfully completed in 93.9% of the cases. Paediatric PSA provided by the first EPs in The Netherlands showed appropriate levels of sedation and analgesia with a high rate of procedure completion and a low rate of adverse events. Our paper suggests that EPs provided with a proper infrastructure of mentorship, training and guidelines can implement effective paediatric PSA.

Effect of Neuromuscular Blocking Agents on Sedation Requirements in Trauma Patients with an Open Abdomen.

The appropriate level of sedation in patients with an open abdomen following damage control laparotomy (DCL) is debated. Chemical paralysis with neuromuscular blocking agents (NMBAs) has been used to decrease time to abdominal closure. We sought to evaluate the effect of NMBA use on sedation requirements in patients with an open abdomen and to determine the effect of sedation on patient outcomes. A retrospective cohort study was conducted at an American College of Surgeons' verified level 1 trauma center. Adult trauma patients who underwent DCL between 2009 and 2015 were included. Patients with an intensive care unit length of stay of less than 48hours and those who died before abdominal closure were excluded. The NMBA+ group received continuous NMBA within 24hours of DCL; the NMBA- group did not. The primary outcome was cumulative sedation dose during the 7days following DCL. Secondary outcomes included Richmond Agitation-Sedation Scale (RASS) score, mechanical ventilation-free days, and delirium-coma-free days. Delirium-coma-free days were analyzed with linear regression. A total of 222 patients were included (NMBA+ 125; NMBA- 97). Demographics were similar between groups including age, Injury Severity Score, and mechanism of injury. The median time to closure in the overall cohort was 2days (interquartile range [IQR] 1-2days). Propofol and fentanyl were the primary sedatives used. The NMBA+ group received higher cumulative doses of propofol (NMBA+ 5405mg, IQR 3103-10,573mg; NMBA- 3601mg, IQR 1605-6887mg; p=0.007), but not of fentanyl. Time to abdominal closure, but not NMBA use, was associated with a higher cumulative propofol dose on multivariate analysis. The NMBA+ group had significantly lower RASS scores on the first 3days following DCL. Mechanical ventilation-free days (NMBA+ 20days vs NMBA- 18days, p=0.960) and delirium-coma-free days (NMBA+ 18days vs NMBA- 18days, p=0.610) were similar between the groups. On linear regression, cumulative propofol dose was associated with fewer delirium-coma-free days (β-coefficient -0.007, 95% confidence interval -0.015 to -0.003). In trauma patients managed with DCL, higher cumulative sedative doses were administered in patients who received adjunctive NMBA, although NMBA therapy was not associated with a higher cumulative propofol dose on multivariate analysis. Consideration must be given to the potential effect of sedation on delirium and awakening following DCL.

A Prospective Evaluation of the Incidence of Adverse Events in Nurse-Administered Moderate Sedation Guided by Sedation Scores or Bispectral Index

Moderate sedation is routinely performed in patients undergoing minor therapeutic and diagnostic procedures outside the operating room. The level of sedation is often monitored by sedation nurses using clinical criteria, such as sedation scores. The Bispectral Index (BIS) is derived from changes in the electroencephalograph profile that may provide an objective measure of the level of sedation. In this prospective observational study, we investigated whether using BIS values to guide sedative drug administration influences the level of sedation and the incidence of adverse events compared with using Ramsay sedation scale (RSS) only in nurse-administered moderate sedation. We hypothesized that both depth of sedation and the incidence of adverse events related to oversedation would decrease when sedation nurses used BIS values to help guide sedative drug administration. Sedation care was provided by trained sedation nurses under the supervision of a physician performing the procedure. The sedation regimen was initiated with IV midazolam 1 to 2 mg and fentanyl 50 mcg or hydromorphone 0.2 mg. Additional small boluses of midazolam, fentanyl, or hydromorphone were administered to maintain an RSS of 2 to 3 (cooperative, oriented, and responding to verbal command). Propofol was not used. Information including patient demographics, type of procedure, medication administered, RSS, and rates of adverse events was recorded by the sedation nurses for each patient on a computer-readable form. The study was divided into 3 phases. In phase 1 (baseline, 6 months' duration), baseline data on sedation practice were prospectively collected. There was no change from standard of care for all patients except that each patient had a BIS sensor attached, but the monitor was covered and nurses were blinded to the BIS values. In phase 2 (training, 3 months), the sedation nurses received comprehensive education on the use of BIS to guide sedative drug administration, pharmacology of commonly used drugs, and methods for rescue from oversedation. The recommended BIS range for moderate sedation was 75 to 90. Adequate training of all sedation nurses on the use of BIS was documented. In phase 3 (implementation, 6 months), the BIS values were used to guide drug administration. Data were available on 1766 patients (999 and 767 patients in phases 1 and 3, respectively). Most of the procedures were colonoscopies, upper gastrointestinal endoscopies, examinations under anesthesia, endoscopic retrograde cholangiopancreatography, and central venous access catheter placements. No differences in the demographics between the 2 groups were observed. The RSS was inversely associated with the BIS value, r = -0.16 (95% confidence interval, -0.19 to -0.12; P < 0.00001). An RSS of 2 to 3 was maintained in 94% of patients in phase 1 and 96% of patients in phase 3 The mean (±SD) BIS values were 80.9 ± 6.8 in phase 1 and 80.4 ± 6.5 in phase 3. The number of sedation-related adverse events was lower in our sample when BIS was used, with an odds ratio of 0.41 (95% confidence interval, 0.28-0.62; P < 0.0001), and patients with restlessness had a lower BIS value than those without this symptom (P < 0.0001). No serious adverse events or deaths were reported. Nurse-administered moderate sedation using midazolam and fentanyl was usually associated with appropriate levels of sedation as assessed by both the RSS and BIS with an overall low incidence of adverse events. The use of BIS did not change the mean level of sedation significantly, although the number of sedation-related adverse events appears to be lower when BIS was used.

Chloral hydrate sedation for infant pulmonary function testing

Chloral hydrate sedation for infant pulmonary function testing

The SNAP index does not correlate with the State Behavioral Scale in intubated and sedated children

Ensuring appropriate levels of sedation for critically ill children is integral to pediatric critical care. Traditionally, clinicians have used subjective scoring tools to assess sedation levels. The SNAP II uses dual frequency processed electroencephalography to evaluate brain activity and may provide an objective assessment of sedation levels. This study attempts to find an objective method to monitor sedation in critically ill pediatric patients. We compared the SNAP II, a processed electroencephalography device, with the State Behavioral Scale (SBS), a subjective sedation scoring tool. We hypothesize that the SNAP II correlates with the SBS and has less observer bias. This was an IRB approved prospective, observational study. Patients receiving intravenous sedation while being mechanically ventilated were enrolled after informed consent. After the SNAP II monitoring electrodes were attached, blinded bedside nurses assessed sedation levels using the SBS. SNAP indices were collected and compared with SBS scores to determine correlation. We compared 417 paired data points from 15 patients using Pearson's correlation and least squares means to determine correlation between the SBS and SNAP indices. No correlation was observed. Using covariance model patterning for repeated measures to adjust for covariates again showed no correlation. The SNAP index does not correlate with SBS scores in our pediatric intensive care unit (PICU). Its use cannot be recommended to measure levels of sedation in our population. Future research should continue to explore objective ways of measuring sedation in critically ill children.

Eficacia de la premedicación anestésica en el paciente pediátrico con midazolam oral y acetaminofén. Estudio observacional

Anesthetic premedication with midazolam helps reduce anxiety in the children and the parents, the need for analgesic use, and the development of negative psychological events during the postoperative period; it also results in shorter inhalation induction and orotracheal intubation. Compounded preparations have been developed using ampoules for parenteral administration mixed with flavor modifiers in order to improve acceptance. To determine the efficacy of premedication using a mix of midazolam plus acetaminophen, a prospective descriptive observational study was conducted in 216 children ASAI or II, scheduled for surgical or diagnostic procedures requiring general anesthesia. Anxiety-sedation scales were given (Modified Yale scale and RASS), and tolerance to separation from the parents was assessed. ResultsThe RASS scale applied at the time of induction showed that 92% of the patients were at an appropriate level of sedation to tolerate facemask inhalation induction, and 86% of patients tolerated well their separation from their parents. It was found that age, gender, education, socioeconomic status, pre-anesthetic check type (telephonic or in person), or a history of previous anesthesia, did not have a statistically significant correlation with the degree of anxiety-sedation. ConclusionsPremedication with a compounded preparation does reduce anxiety at the time of separating the child from its parents, and allows a good acceptance of the inhaled anesthetic induction.

Efficacy of anesthetic premedication in pediatric patients using oral midazolam and acetaminophen. Observational study

Anesthetic premedication with midazolam helps reduce anxiety in the children and the parents, the need for analgesic use, and the development of negative psychological events during the postoperative period; it also results in shorter inhalation induction and orotracheal intubation. Compounded preparations have been developed using ampoules for parenteral administration mixed with flavor modifiers in order to improve acceptance. To determine the efficacy of premedication using a mix of midazolam plus acetaminophen, a prospective descriptive observational study was conducted in 216 children ASAI or II, scheduled for surgical or diagnostic procedures requiring general anesthesia. Anxiety-sedation scales were given (modified Yale scale and RASS), and tolerance to separation from the parents was assessed. ResultsThe RASS scale applied at the time of induction showed that 92% of the patients were at an appropriate level of sedation to tolerate facemask inhalation induction, and 86% of patients tolerated well their separation from their parents. It was found that age, gender, education, socioeconomic status, pre-anesthetic check type (telephonic or in person), or a history of previous anesthesia, did not have a statistically significant correlation with the degree of anxiety-sedation. ConclusionsPremedication with a compounded preparation does reduce anxiety at the time of separating the child from its parents, and allows a good acceptance of the inhaled anesthetic induction.

The sedation mechanical ventilation in patients with BIS monitoring

Sedation was one of the basic treatment of ICU mechanically ventilated patients and appropriate level of sedation can help patients with physical and mental rehabilitation.Bispectral index was an objective means to assess depth of sedation which had been gradually applied to the ICU mechanically ventilated patients.This article only showed bispectral index of principles,methods and mechanical ventilation in patients with sedation nursing status quo. Key words: Sedation; Bispectral index; Mechanical ventilation; Nursing

Multisociety sedation curriculum for gastrointestinal endoscopy

Multisociety sedation curriculum for gastrointestinal endoscopy

Measuring Sedation in Adult Intensive Care Unit Patients

Patients in the intensive care unit (ICU) are given sedation to achieve certain goals, for example, to maintain patient-ventilator synchrony, to provide some level of comfort and decrease agitation, or to prevent unplanned extubation or central line removal. The goal of sedation should drive the method of delivery (intermittent bolus or continuous drip), the choice of medication (half-life considerations), and the scales used to measure the appropriate level of sedation (Richmond Agitation-Sedation Scale, Ramsey Sedation Scale, Riker Sedation-Agitation Scale).Oversedation prolongs mechanical ventilation time and length of ICU stay. It also increases the patient’s risk for ventilator-associated pneumonia (VAP) and other health care–associated infections. Undersedation may create a risk to patient safety or the effectiveness of medical and nursing interventions.1

Validation of sleep nasendoscopy for assessment of snoring with bispectral index monitoring

Bispectral index (BIS) monitor is a neurophysiological monitoring device which continually analyses a patient's electroencephalogram during sedation and general anaesthesia to assess the level of consciousness and depth of anaesthesia. BIS monitoring, whilst performing sleep nasendoscopy (using midazolam and propofol), has helped validate depth of sedation and allowed comparison with levels of sedation of control patients during natural sleep. A prospective study of 30 patients with snoring undergoing sleep nasendoscopy with BIS monitoring was conducted. BIS monitoring was recorded throughout the procedure and assessment of snoring was made at the appropriate level of sedation and snoring. BIS values were compared with control patients. The 30 patients undergoing sleep nasendoscopy had average BIS values ranging from 50.72 to 61.2. Similar results were seen with BIS and oxygen saturation in the control group. BIS monitoring provides an adjunct to the assessment of sleep nasendoscopy in determining the level of sedation required for snoring assessment. Comparable BIS values and oxygen saturation levels were obtained between controls and patients during sedation-induced sleep, thus validating the role of sleep nasendoscopy.

Ketamine sedation for patients with acute agitation and psychiatric illness requiring aeromedical retrieval

ObjectiveAeromedical retrieval services face the difficult problem of appropriate levels of sedation for transport of acutely agitated patients to definitive care. This paper describes a technique using ketamine, which is...

Effect of ketamine pretreatment for anaesthesia in patients undergoing percutaneous transluminal balloon angioplasty with continuous remifentanil infusion

BackgroundAn appropriate level of sedation and pharmacological assist are essential during percutaneous transluminal balloon angioplasty (PTA). Ketamine provides good analgesia while preserving airway patency, ventilation, and cardiovascular stability with an opioid sparing effect suggesting that it would be ideal in combination with remifentanil and midazolam in spontaneously breathing patients. We evaluated the effect of a small dose of ketamine added to midazolam and remifentanil on analgesia/sedation for PTA procedures.MethodsSixty-four patients receiving PTA were enrolled. The Control group received midazolam 1.0 mg i.v. and continuous infusion of remifentanil 0.05 µg/kg/min. The Ketamine group received, in addition, an intravenous bolus of 0.5 mg/kg ketamine. Patients' haemodynamic data were monitored before remifentanil infusion, 5 min after remifentanil infusion, at 1, 3, 5, 30 min after incision, and at admission to the recovery room. Verbal numerical rating scales (VNRS) and sedation [OAA/S (Observer's Assessment of Alertness/Sedation)] scores were also recorded.ResultsThe VNRS values at 1, 3, and 5 min after incision and OAA/S scores at 5 min after remifentanil infusion, and 1, 3, and 5 min after incision were lower in the Ketamine group than in the Control group. In the Control group, the VNRS value at 1 min after incision significantly increased and OAA/S values at 3, 5, and 30 min after incision significantly decreased compared to baseline values, while there were no significant changes in the ketamine group.ConclusionsA small dose of ketamine as an adjunct sedative to the combination of midazolam and remifentanil produced a better quality of sedation and analgesia than without ketamine and provided stable respiration without cardiopulmonary deterioration.

Safety and Effectiveness of Analgesia with Remifentanil for Percutaneous Transhepatic Biliary Drainage

The purpose of this study was to evaluate the safety and effectiveness of analgesia with remifentanil for percutaneous transhepatic biliary drainage. Analgesia for percutaneous transhepatic biliary drainage was induced with remifentanil in 186 patients over a 1-year period. Remifentanil was administered IV with an infusion pump at 0.1 microg/kg/min as the usual dose and 0.15 microg/kg/min as the maximal dose. Selected patients with severe anxiety also received a 1-mg bolus of midazolam. Vital signs, sedation levels, and side effects were checked every 5 minutes during the procedure and recovery. The patients scored their pain subjectively on an 11-point numerical rating scale. The mean total dose of remifentanil was 116.3 microg (range, 32.5-200 microg). Midazolam was administered to 15 patients. Transient bradycardia occurred in 19 patients (10%). Hypotension did not develop in any patient. Respiratory depression occurred in four patients (2%). An appropriate level of sedation was obtained in 182 patients (98%), the modified Ramsay score being 2 (n = 164, 88%) or 3 (n = 18, 10%). Forty-nine of the patients (26%) indicated no pain (numeric rating, 0), 120 (64%) indicated mild pain (numeric rating, 1-3), and 16 (9%) indicated moderate pain (numeric rating, 4-6). One patient (1%) indicated severe pain (numeric rating, 7). Remifentanil is safe and highly effective for pain control during percutaneous transhepatic biliary drainage. This drug is a suitable option for analgesia during painful interventional radiology procedures.

A reply to both of the above letters

A reply to both of the above letters