Nurse-administered Propofol Sedation Research Articles

S747 Assessing the Safety and Feasibility of Endoscopist-Directed Nurse-Administered Propofol Sedation in Patients Undergoing Various Endoscopic Procedures

S747 Assessing the Safety and Feasibility of Endoscopist-Directed Nurse-Administered Propofol Sedation in Patients Undergoing Various Endoscopic Procedures

Safety Profile of Endoscopist-directed Balanced Propofol Sedation for Procedural Sedation: An Experience at a Hospital-based Endoscopy Unit.

Nurse-administered propofol sedation was restricted to anesthesiologists in 2009, a practice that has contributed to spiraling health care costs in the United States. The aim of this study was to evaluate the safety of endoscopist-directed balanced propofol sedation (EDBPS). We identified patients undergoing endoscopy with EDBPS from January 1, 2017, to June 20, 2017, and abstracted their medical records. Adverse events (AEs) included: hypoxia (oxygen saturation < 90%); hypotension [(a) systolic blood pressure < 90 mm Hg, (b) systolic blood pressure decline of >50 mm Hg, (c) decline in mean arterial pressure of >30%]; bradycardia (heart rate of < 40 beats/min). Logistic regression identified factors independently associated with AEs. A total of 1897 patients received EDBPS during the study period [mean age: 55 y (SD=11.4 y); 56.4% women]. Patients received median doses of 50 µg fentanyl, 2 mg of midazolam, and a mean propofol dose of 160±99 mg. There were no major complications (upper 95% confidence interval, 0.19%). Overall, 334 patients (17.6%) experienced a clinically insignificant AE: 65 (3.4%) experienced transient hypoxia, 277 patients (14.6%) experienced hypotension, 2 had transient bradycardia. In bivariate analysis, older age was associated with risk for hypotension, propofol dose was associated with transient hypoxemia, and procedure duration was associated with both hypotension and transient hypoxia. In multivariate analysis, only procedure length was associated with AEs (odds ratio scale 10; odds ratio=1.07; 95% confidence interval, 1.05-1.09, P<0.001). EDBPS is safe for endoscopic sedation. Given the higher cost of anesthesia-administered propofol, endoscopists should reinstate EDBPS by revising institutional sedation policies.

Safety of endoscopist-directed nurse-administered balanced propofol sedation in patients with severe systemic disease (ASA class III)

The safety of endoscopist-directed nurse-administered propofol sedation (EDNAPS) has been demonstrated in low-risk patients (American Society of Anesthesiologists [ASA] class I and II). There are limited data regarding the safety of EDNAPS for endoscopic procedures in ASA class III patients. The purpose of this study was to determine the safety of EDNAPS for routine outpatient endoscopy in this population. We retrospectively reviewed all outpatient EGDs and colonoscopies performed with EDNAPS at the University of Utah from January 2015 to November 2018. Exclusion criteria were inpatient procedures, combined procedures, ASA IV or higher, use of continuous or bilevel positive airway pressure at the start of the procedure, or procedures performed by a nongastroenterologist. Major adverse events were defined as intubation or death. Minor adverse events were defined as hypoxia, hypotension, bradycardia, or need for airway interventions. Patients were stratified by procedure type and ASA I/II status and were compared with patients with ASA III status and matched according to age, gender, and the involvement of a fellow in a 3 to 1 fashion. The final sample size was 18,910 colonoscopy procedures (17,205 patients) and 9178 EGD procedures (6827 patients). In both colonoscopy and EGD procedures, there were no major adverse events such as intubation, need for resuscitation, or death. The rates of any airway intervention, jaw thrust, oral nasal airway, or use of positive pressure ventilation were low in both procedure types and not different between ASA I/II and ASA III patients. EDNAPS is safe in both ASA I/II and ASA class III patients undergoing routine outpatient endoscopy.

Patient Satisfaction of Propofol Versus Midazolam and Fentanyl Sedation During Colonoscopy in Inflammatory Bowel Disease

Colonoscopy is essential for optimal management of inflammatory bowel disease. However, many patients opt out due to unpleasantness related to this procedure. We investigated if Nurse Administered Propofol Sedation (NAPS) would improve patient satisfaction and attitude towards future colonoscopies. Randomized clinical trial of deep sedation with NAPS (n = 63) versus moderate midazolam and fentanyl sedation (n = 67). To assess the primary end point of patient satisfaction at discharge, we developed a Satisfaction Questionnaire comprising 13 items each rated by a 5-point Likert scale and with higher scores reflecting more positive outcomes (13-65 points). Fifty-six patients (43%) with ulcerative colitis, 48 (37%) with Crohn's disease, and 26 (20%) with high suspicion of inflammatory bowel disease were included. Most (88%) had previously had a colonoscopy and pre-procedure expectations were similar between groups. Patients receiving deep sedation had significantly higher satisfaction score (mean 60.1, SD 3.4) than those receiving moderate sedation (51.2, 8.4; P < .001). This was driven especially by less pain, more amnesia, sedation more to their liking, and better experience with the current than previous sedations. Importantly, these patients significantly more often preferred the same sedation for a future colonoscopy and were also inclined to accept more frequent colonoscopies. Assistance from another colonoscopist and disruption of the procedure due to pain occurred significantly more frequent in the moderate sedation group. There were no safety signals associated with NAPS. Patients with inflammatory bowel disease favor deep propofol sedation over moderate midazolam and fentanyl sedation. Availability of NAPS may facilitate patient adherence to endoscopy-based monitoring programs. Clinicaltrials.gov NCT01934088.

S0524 Safety Profile of Endoscopist-Directed Balanced Propofol Sedation for Procedural Sedation: An Experience at a Hospital-Based Endoscopy Unit

INTRODUCTION: Nurse administered propofol sedation was widely used for endoscopic procedures until 2009 when its use was restricted to anesthesiologists per CMS guidelines, a practice that has led to increases in healthcare costs. Aim was to evaluate the safety of endoscopist-directed balanced propofol sedation (EDBPS) for endoscopy. METHODS: We identified patients who underwent endoscopic procedures with EDBPS from Jan to Jun 2017. Medical records were abstracted for data on procedure indication, medication doses, time to induction of sedation, duration of procedure and recovery time. Adverse events (AEs) included: Hypoxia - oxygen saturation (SPO₂) 50 mm Hg, c) Drop in mean arterial pressure (MAP) > 30%; Bradycardia (heart rate < 40 beats/minute). Major complications include death, neurologic sequelae (CVA, permanent cognitive impairment), and need for hospitalization or endotracheal intubation. RESULTS: A total of 1897 patients received EDBPS during the study period. Mean age was 55 (SD 11.4) years and 43.6% were men. Patients received median doses of 50 mcg fentanyl and 2 mg of midazolam and a mean propofol dose of 160 ± 99 mg (range 20–960). Mean time for sedation induction was 3.4 (SD 1.9) and mean recovery was 14 (SD 10.2) min. There were no major complications (0%; 95% CI, 0–0.19%). Three hundred thirty-four patients (17.6%) experienced an AE, all of which were managed with simple measures (chin-lift, jaw thrust and increasing flow of O₂ and IV fluids): 65 (3.4%) had transient hypoxia, 277 (14.6%) had hypotension. In bivariate analysis, a 5-yr increase in patient age was associated with in increased risk of hypotension. A 50 mg increase in propofol dose was associated with a statistically significant risk of transient hypoxia. A 10-min increase in procedure duration was associated with statistically significant risk of both transient hypoxia and hypotension (Table 1). Age, weight, BMI, propofol dose and procedure length were associated with AEs (Table 2). Gender had no association with AEs. In multivariate analysis, only procedure length was independently associated with AEs. CONCLUSION: EDBPS is safe for endoscopic procedural sedation, as AEs occurred infrequently. Given the much higher cost of anesthesia-administered propofol for routine endoscopic procedures, endoscopists should re-instate EDBPS by revising institutional sedation policies.Table 1Table 2

Propofol sedation in Drug Induced Sedation Endoscopy without an anaesthesiologist – a study of safety and feasibility

Propofol sedation in Drug Induced Sedation Endoscopy (DISE) of the upper airway of patients with obstructive sleep apnea (OSA) without the presence of anesthesiologist has not been done before. Propofol sedation is normally administered by an anesthesiologist. This is the first study of this new method. Based on the positive experience with Nurse-administered Propofol Sedation (NAPS) for endoscopic procedures in the departments of gastroenterology we wanted to test the set-up as method of propofol sedation for DISE procedures in our Otorhinolaryngology (ORL) department. The ORL specialists and staff nurses that carry out DISE procedures all underwent a formalized education in Nurse-administered Propofol Sedation before the study. We included 200 patients with severe snoring and / or obstructive sleep apnea. They were referred for DISE examination prior to possible targeted surgery based on the findings. In our study the aforementioned ORL team successfully cared out propofol sedation without the presence of an anesthesiologist. All examinations were carried out according to plan. There were no adverse events during the procedures or in the following observational period. The NAPS method of sedation for DISE seems safe and feasible when performed by trained staff in a hospital setting.

Nonoperating room anesthesia for gastrointestinal endoscopic procedures.

To assess the trends in nonoperating room anesthesia (NORA) for gastrointestinal endoscopy over the past few years, and to describe alternative methods of delivering propofol sedation in selected low-risk patients. The use of NORA for routine gastrointestinal endoscopic procedures has been rising steadily over the past decade in the United States, considerably increasing healthcare costs. Because of this, there have been attempts to develop nonanesthesiologist-administered propofol sedation methods in low-risk patients. There is controversy as to whether properly trained nonanesthesia personnel can use propofol safely via the modalities of nurse-administered propofol sedation, computer-assisted propofol sedation or nurse-administered continuous propofol sedation SUMMARY: The deployment of nonanesthesia-administered propofol sedation for low-risk procedures allows for optimal allocation of scarce anesthesia resources, which can be more appropriately used for more complex cases. This can address some of the current shortages in anesthesia provider supply, and can potentially reduce overall healthcare costs without sacrificing sedation quality. We also address the realm of anesthesia provider care for advanced endoscopic procedures including setup for administration of anesthesia, decision-making regarding placement of an endotracheal tube, and the potential need to move a challenging case to the operating room.

Safety and Effectiveness of Nurse-Administered Propofol Sedation in Outpatients Undergoing Gastrointestinal Endoscopy

Esophagogastroduodenoscopy (EGD) and colonoscopy are common outpatient gastrointestinal endoscopic procedures that frequently use sedation. We aimed to identify a protocol that combines safety with cost effectiveness. We collected data from consecutive outpatients (age, 20-98 y) who underwent diagnostic EGD (n= 117,661) or colonoscopy (n= 32,550) with propofol sedation from January 2006 through December 2016. Propofol was administered by a nurse via bolus injection using an age-adjusted standard protocol, up to a total of 200 mg. The primary outcome measure was occurrence of adverse events within 24 hours. Secondary outcome measures included rates of procedure success, respiratory depression, and other procedure-related adverse events. The median dose of propofol administered for EGD was 77 mg (range, 20-160 mg) and for colonoscopy was 99 mg (range, 40-200 mg). Among patients undergoing EGD, those younger than 41 years required 1.5-fold more propofol than patients 61-80 years old. The only adverse event was the transient need for supplemental oxygen supply, required by 1950 patients (1.3%): 1689 undergoing EGD (1.4%) and 261 undergoing colonoscopy (0.8%). Patients were discharged after 60 minutes and at least 66,250 patients (44%) drove themselves from the hospital. None experienced a traffic accident within 24 hours after receiving propofol sedation. Nurse-administered propofol monosedation using an age-adjusted standard protocol up to a maximal of 200 mg is safe and practical for outpatient gastrointestinal endoscopy.

63 Nurse Administered Propofol Sedation (NAPS) Is More Efficient than Anaesthesiologist Administered Sedation With Propofol (AAP) for Endoscopic Procedures in Patients at Low-Intermediate Anesthetic Risk

63 Nurse Administered Propofol Sedation (NAPS) Is More Efficient than Anaesthesiologist Administered Sedation With Propofol (AAP) for Endoscopic Procedures in Patients at Low-Intermediate Anesthetic Risk

Sa1094 Nurse-Administered Propofol Sedation for Outpatient Colonoscopy

Sa1094 Nurse-Administered Propofol Sedation for Outpatient Colonoscopy

Mo1688 - The Safety of Endoscopist Directed Nurse Administered Propofol Sedation (EDNAPS) for Endoscopic Procedures in a Regional Hospital Setting

Mo1688 - The Safety of Endoscopist Directed Nurse Administered Propofol Sedation (EDNAPS) for Endoscopic Procedures in a Regional Hospital Setting

Assessing the safety of physician-directed nurse-administered propofol sedation in low-risk patients undergoing endoscopy and colonoscopy

Background and study aims Physician-directed nurse-administered balanced propofol sedation (PhD NAPS) in patients undergoing endoscopy and/or colonoscopy is being increasingly utilized worldwide. However, this method of sedation is not universally employed in Australian hospitals due to concerns surrounding its safety. The aim of this study was to assess the safety of PhD NAPS in low-risk patients undergoing endoscopy and/or colonoscopy. Patients and methods This study was conducted at a single tertiary teaching hospital in Adelaide, Australia. It was a prospective study involving 1000 patients with an ASA score of 1 – 3 presenting with any indication for endoscopy, colonoscopy or both. A total of 981 patients (451 male) with a mean age of 53 years (range: 16 – 87) were recruited from January 2010 to October 2012. 440 endoscopies, 420 colonoscopies, and 121 combined procedures were performed. The intra-procedural adverse events (AEs) were recorded. Results There were no major intra-procedural adverse events. Minor AEs occurred in 6.42 % of patients, and resolved spontaneously or with intravenous fluid boluses in all cases. Conclusion PhD NAPS is safe when the proceduralist and nursing staff are adequately trained and strict patient selection criteria are used.

Sedation for routine gastrointestinal endoscopic procedures: a review on efficacy, safety, efficiency, cost and satisfaction.

Most gastrointestinal endoscopic procedures are now performed with sedation. Moderate sedation using benzodiazepines and opioids continue to be widely used, but propofol sedation is becoming more popular because its unique pharmacokinetic properties make endoscopy almost painless, with a very predictable and rapid recovery process. There is controversy as to whether propofol should be administered only by anesthesia professionals (monitored anesthesia care) or whether properly trained non-anesthesia personnel can use propofol safely via the modalities of nurse-administered propofol sedation, computer-assisted propofol sedation or nurse-administered continuous propofol sedation. The deployment of non-anesthesia administered propofol sedation for low-risk procedures allows for optimal allocation of scarce anesthesia resources, which can be more appropriately used for more complex cases. This can address some of the current shortages in anesthesia provider supply, and can potentially reduce overall health care costs without sacrificing sedation quality. This review will discuss efficacy, safety, efficiency, cost and satisfaction issues with various modes of sedation for non-advanced, non-emergent endoscopic procedures, mainly esophagogastroduodenoscopy and colonoscopy.

Safety of sedation during gastroscopy and colonoscopy in low-risk patients - results of a retrospective subgroup analysis of a registry study including over 170 000 endoscopies

Administering sedation is an established standard in gastrointestinal endoscopy, particularly in situations in which sedation is used to make the examination more comfortable for the patient (e. g., during preventive check-up examinations). It is important to have precise information about the risk of sedation-associated complications. The aim of this study was to record the incidence and type of sedation-associated complications in a low-risk group of patients (ASA 1 or 2) undergoing elective diagnostic esophagogastroduodenoscopy or colonoscopy. Risk factors for the development of a sedation complication were also to be identified. Using a prospective multicenter study design, sedation-associated complications were documented in the ProSed2 study using an electronic endoscopy documentation system. Thirty-nine research centers took part inthe study from December 2011 to June 2014. Atotal of 368 206 endoscopies were recorded. 177 944 of the procedures met the defined criteria for subgroup analysis (endoscopy with sedation, patient in ASA class 1 or 2, esophagogastroduodenoscopy or colonoscopy, no emergency endoscopies, no therapeutic procedures). The patients received propofol alone in 64.4 % of the sedations, or a combination of propofol and midazolam in 22.4 %. Sedation was administered by the endoscopist or endoscopy assistant in 56.5 % of cases, or by a third person in 43.5 % (anesthesist < 0.1 %, intensive-care specialist 5.7 %, nurse-administered propofol sedation 37.8 %). A total of 332 minor complications were documented (0.2 %). No major complications or deaths occurred. The following risk factors were identified for the development of sedation-associated complications: Patients in ASA class 2 and sedation with midazolam in combination with an opiate. These findings on sedation-associated complications show that severe complications and deaths do not occur, and that minor complications occur very rarely. Sedation can therefore be regarded as extremely safe in this group of patients. Even though this analysis did not include therapeutic colonoscopies (e. g. polypectomy), these data should lower the threshold for patients undergoing preventive check-up examinations and it should therefore be offered as a standard.

Mo1964 Safety Analysis of Bariatric Patients Undergoing Outpatient Upper Endoscopy With Nurse Administered Propofol Sedation

Mo1964 Safety Analysis of Bariatric Patients Undergoing Outpatient Upper Endoscopy With Nurse Administered Propofol Sedation

Development and validation of a theoretical test in non-anaesthesiologist-administered propofol sedation for gastrointestinal endoscopy

Objective: Safety with non-anaesthesiologist-administered propofol sedation (NAAP) during gastrointestinal (GI) endoscopy is related to theoretical knowledge. A summative testing of knowledge before attempting supervised nurse-administered propofol sedation (NAPS) in the clinic is advised. The aims of this study were to develop a theoretical test about propofol sedation, to gather validity evidence for the test and to measure the effect of a NAPS-specific training course.Material and methods: A three-phased psychometric study on multiple choice questionnaire (MCQ) test development, gathering of validity evidence and evaluation of the effect of a specific NAAP course on the test result. A MCQ containing 86 questions was developed and administered 113 times to 91 participants representing novices, intermediates and experienced.Results: Question difficulty analyses revealed 50 level I and II questions. The 50 MCQs showed mean (SD) intergroup differences (p = 0.001) between novices = 28.6 (4.82), intermediates = 36.8 (5.43) and experienced = 41.8 (4.65) and provided a pass score of 35.2. The course with pre-course test had significant effect on the knowledge of nurses (18% increase) and physicians (19% increase; p = 0.001 and 0.001, respectively).Conclusions: Data supported the validity of the developed MCQ test. The NAPS-specific course with pre-course testing adds theoretical knowledge to already well-prepared participants.

High efficacy with deep nurse-administered propofol sedation for advanced gastroenterologic endoscopic procedures.

Background and study aims: Whereas data on moderate nurse-administered propofol sedation (NAPS) efficacy and safety for standard endoscopy is abundant, few reports on the use of deep sedation by endoscopy nurses during advanced endoscopy, such as Endoscopic Retrograde Cholangiopancreatography (ERCP) and Endoscopic Ultrasound (EUS) are available and potential benefits or hazards remain unclear. The aims of this study were to investigate the efficacy of intermittent deep sedation with propofol for a large cohort of advanced endoscopies and to provide data on the safety. Patients and methods: All available data from patients sedated with intermittent deep NAPS for ERCP, EUS or double balloon enteroscopy (DBE, since the method was implemented in May 2007 through December 2012 were included for evaluation in a retrospective case-control design. Results: Data from 1899 patients undergoing 1899 procedures were included for evaluation. All but one procedure were completed with intermittent deep NAPS. The mean propofol dose was 397 mg (SD: 232.4) and the infusion rate was 23.9 mg/kg. The frequency of hypoxia was 4.3 % and 20 patients needed assisted ventilation (1.1 %). Anesthesiologic support was requested eight times (0.4 %). One patient was intubated due to suspected aspiration. Conclusions: Intermittent deep NAPS for advanced endoscopies in selected patients provided an almost 100 % success rate. However, the rate of hypoxia, hypotension and respiratory support was high compared with previously published data, but the method was still assessed as safe.

Safety in numbers: the case for endoscopist-directed propofol sedation.

In this volume of Endoscopy International Open, Ooi and Thomson [1] present a series of over 33,000 endoscopic procedures over a 9-year period that were performed with endoscopist directed, nurse-administered propofol sedation at a tertiary referral center. To be more specific, most patients received a combination of fentanyl, midazolam, and propofol, more commonly known as balanced propofol sedation. The primary outcome was the response of an institutional emergency medical response team as a surrogate for a severe cardiopulmonary unplanned event. The authors found that the incidence of emergency response team events was quite uncommon (23/33,539 procedures, 0.07 %). Of these 23 instances, 18 were in patients receiving an upper endoscopy. Seventeen patients exhibited advanced American Society of Anesthesiologists (ASA) physical status classification scores (ASA III: 15; ASA IV: 2), and 12 were being evaluated for upper gastrointestinal bleeding. All seven instances of urgent intubation occurred in the esophagogastroduodenoscopy (EGD) group and two of these eventually died. In both deaths, the indication for the upper endoscopy was for upper gastrointestinal bleeding with advanced ASA physical status classification. Interestingly, in both cases, there did not appear to be evidence of aspiration. Given the rarity of the events, it is impossible to perform any meaningful statistical analysis, yet the descriptive pattern of patients at risk for significant cardiopulmonary unplanned events is quite similar to the study of Rex et al. [2]: the incidence of airway intervention was higher in subjects receiving an EGD and mortality was seen in those with advanced malignancy or other serious medication conditions. One could make the argument that, in the majority of the cases with upper gastrointestinal bleeding who required the emergency response team, the reason for the urgent intervention was not as a result of the propofol sedation per se, but due to the tempo of bleeding which required airway intervention. The mortality rate in the Rex study was much lower however (4/646,080, 0.0006 %). The reasons for this are unknown, but patient selection, heterogeneity in the administration algorithms of propofol, and the use of additional agents may have played a role. A particular strength of the study is the fact that the nurse sedationist training and competency requirement were standardized and quite comprehensive. This involved a yearly practical and written assessment, demonstration of airway management competency, and a minimum threshold volume of at least 250 annual procedures in order to remain qualified. There are several shortfalls with this study. Patient selection did not include a formal ASA physical status classification, urgency of the procedure, Mallampati score, or the exclusion of patients with gastroparesis. The actual targeted depth of sedation appears to have been variable (moderate or deep sedation) as response to repeated tactile or noxious stimuli was required. An emergency response team call was also made for decreased levels of consciousness which was not further defined. A standardized dosing algorithm for the opioid and benzodiazepine did not appear to be utilized. There is also no data as to whether reversal agents or other airway measures such as nasopharyngeal tube placement were employed which may have averted an emergency response team call. Also, there was not another instance of endotracheal intubation after 2008. This may reflect a systematic change in training, management, and/or patient selection. In conclusion, this study emphasizes that with proper training and prudent patient selection, endoscopist-directed propofol sedation is safe and effective. Hopefully, we can look forward to the day when this evidence-based practice will be universally adopted.

Morbidity and mortality of endoscopist-directed nurse-administered propofol sedation (EDNAPS) in a tertiary referral center.

Background and study aims: Endoscopist-Directed Nurse-Administered Propofol Sedation (EDNAPS) has been evaluated in community settings rather than tertiary referral centers. Patients and methods: A hospital-wide prospectively collected database of Medical Emergency Team Calls (METCALL), emergency responses triggered by medically unstable patients, was reviewed. Responses that followed EDNAPS were extracted and compared with a prospectively entered database of all endoscopies performed using EDNAPS over the same period. Results: A total of 33,539 endoscopic procedures (16,393 gastroscopies, 17,146 colonoscopies) were performed on 27,989 patients using EDNAPS. Intravenous drugs included midazolam (0 – 5 mg), fentanyl (0 – 100 mcg), and propofol (10 – 420 mg). Of 23 METCALLs (18 gastroscopies and 5 colonoscopies), there were 16 with ASA scores of III or higher. Indications for gastroscopy were gastrointestinal (GI) hemorrhage (n = 11; 8 variceal, 3 nonvariceal), dysphagia (n = 5), PEG removal (n = 1), and dyspepsia (n = 1). Fifteen of 22 patients, including all of those who had a colonoscopy, made a full recovery and returned to the ward or were discharged home. In the gastroscopy group, seven were intubated and admitted to Intensive Care, of whom six were emergency cases for gastrointestinal bleeding (n = 4 variceal, n = 2 non variceal) and one in which the indication was PEG removal. Two deaths occurred in the intubated group. Conclusions: In a tertiary referral center, EDNAPS for low-to-moderate risk (ASA ≤ 2) patients undergoing gastroscopy and colonoscopy is very safe. Gastroscopy is associated with greater anesthetic risk than colonoscopy and those with high ASA scores needing urgent endoscopy for upper gastrointestinal hemorrhage are at particular risk of cardiorespiratory decompensation.

The Current Status of Nurse-Administered Propofol Sedation in Endoscopy: An Evidence-Based Practice Nurse Fellowship Project.

The Society for Gastroenterology Nurses and Associates (SGNA) launched a nurse fellowship program in 2011 to promote evidence-based practice. Each accepted applicant was challenged to select a relevant topic, explore the current research, and translate this information to daily practice. The author, an SGNA Fellow, selected the topic, nurse-administered propofol sedation, that has been a prevailing subject in endoscopy for many years. A significant amount of literature has been written on the drug's safety and efficacy. This article explores a brief history of the practice and the future of this controversial drug for procedural sedation. A review of current literature is explored with an emphasis on the past 5 years as well as a discussion on regulatory limitations that have been placed on the practice of non-anesthesiologist-administered propofol sedation.