PERIOPERATIVE CARE IN DIGESTIVE SURGERY: THE ERAS AND ACERTO PROTOCOLS - BRAZILIAN COLLEGE OF DIGESTIVE SURGERY POSITION PAPER.

BACKGROUND: The concept introduced by protocols of enhanced recovery after surgery modifies perioperative traditional care in digestive surgery. The integration of these modern recommendations components during the perioperative period is of great importance to ensure fewer postoperative complications, reduced length of hospital stay, and decreased surgical costs. AIMS: To emphasize the most important points of a multimodal perioperative care protocol. METHODS: Careful analysis of each recommendation of both ERAS and ACERTO protocols, justifying their inclusion in the multimodal care recommended for digestive surgery patients. RESULTS: Enhanced recovery programs (ERPs) such as ERAS and ACERTO protocols are a cornerstone in modern perioperative care. Nutritional therapy is fundamental in digestive surgery, and thus, both preoperative and postoperative nutrition care are key to ensuring fewer postoperative complications and reducing the length of hospital stay. The concept of prehabilitation is another key element in ERPs. The handling of crystalloid fluids in a perfect balance is vital. Fluid overload can delay the recovery of patients and increase postoperative complications. Abbreviation of preoperative fasting for two hours before anesthesia is now accepted by various guidelines of both surgical and anesthesiology societies. Combined with early postoperative refeeding, these prescriptions are not only safe but can also enhance the recovery of patients undergoing digestive procedures. CONCLUSIONS: This position paper from the Brazilian College of Digestive Surgery strongly emphasizes that the implementation of ERPs in digestive surgery represents a paradigm shift in perioperative care, transcending traditional practices and embracing an intelligent approach to patient well-being.

Enhanced Recovery After Surgery (ERAS) Spine Pathways and the Role of Perioperative Checklists.

Enhanced recovery after surgery (ERAS) proposes a multimodal, evidence-based approach to perioperative care. ERAS pathways have been shown to help reduce complications, hospital length of stay (LOS), 30-day readmission rates, pain scores, and ultimately surgical costs, while improving patient satisfaction scores and outcomes in multiple surgical subspecialties [1-6]. Numerous specialties have implemented ERAS programs across the globe, providing a foundation for spine surgeons to begin the process themselves. Over the last few years, a significant number of papers have been addressing ERAS pathways for spinal surgery [7-19]. The majority have addressed the lumbar spine [9, 20-26]. The number of cervical ERAS pathways has been limited [27-29]. Many spine programs have begun the implementation of ERAS pathways, incorporating principles and interventions to various spine surgical procedures. Although differences in implementation across programs exist, there are a few common elements that promote a successful enhanced recovery approach [11, 16, 23, 25, 30-33]. All spinal ERAS pathways have three major elements, which are preoperative, perioperative, and postoperative phases. Within these phases some common elements include preoperative and intraoperative surgical checklists. Intraoperative checklist in addition to the "surgical time out" has been integrated into the workflow of most hospitals doing surgeries and have become a standard of care. The surgical checklist is designed to help reduce surgical errors and prevent wrong site/patient surgeries. Several surgical checklists have been developed throughout the years. Despite these safety protocols wrong site/level and other surgical errors continue to occur. Many cases of wrong level spine surgery (WLSS) still occur even when intraoperative imaging is performed [34, 35]. One survey reported that about 50% of spine surgeons have performed at least one WLSS during their career [36, 37]. Another survey reported that 36% of spine surgeons had performed at least one WLSS that was not recognized intraoperatively [38]. On a similar account, about 30% of spine surgery fellows have experienced wrong-site surgery [39]. From raw incidence rates, WLSS may seem rare, but these surveys show that the experience of WLSS is rather common among spine surgeons. WLSS is not yet a "never event." This may be due to poor quality of the intraoperative images, hindering subsequent level identification [34, 35, 38, 40]. Errors in interpretation of the imaging may also occur, including inconsistency in numbering vertebrae, inconsistency in landmark usage for level counting, and problems with numbering vertebrae due to lumbosacral transitional vertebrae (LSTV) and other anatomical variants [34, 38, 41-43]. This chapter will describe a framework for the development and implementation of ERAS pathway for patients undergoing spine surgery. In addition, we will propose preoperative imaging guidelines and a comprehensive spine surgical checklist to incorporate into the perioperative phase to help reduce further surgical errors and WLSS.

Standardizing process in acute biliary disease.

INTRODUCTION: The perioperative management of biliary disease (BD) is variable across institutions with suboptimal outcomes for patients and health care systems. This results in inefficient utilization of limited resources. The aim of the current study was to identify modifiable factors impacting patients' time to theater, intraoperative time, and time to discharge as the constituents of length of stay to guide creation of a perioperative management protocol to address this variability. METHODS: Data were prospectively captured at Christchurch Hospital for all adult patients presenting for cholecystectomy between May 2015 and May 2022. Pre, post, and intraoperative factors were assessed for their impact on time to theater, operative time, and postoperative hours to discharge. RESULTS: Four thousand five hundred seventy-seven patients underwent cholecystectomy during the study period, of which 2807 (61%) were acute presentations and made up the cohort for analysis. Time to theater was significantly impacted by preoperative imaging type, while operative grade and the procedure type had the most clinically significant impact on operative time. Postoperatively time to discharge was significantly impacted by drain placement. CONCLUSIONS: Standardizing management of BD would likely result in significant savings for the health care system and improved outcomes for patients. The data seen here evidence the importance of appropriate imaging selection, intraoperative difficulty operative grade identification, and low suction drain selection. These data have been incorporated in a perioperative management protocol as standardization of care across the patient workflow in BD is a sensible approach for ensuring optimal use of scarce resources.

Perioperative pain optimization in the age of the opioid epidemic.

PURPOSE OF REVIEW: The opioid epidemic remains a constant and increasing threat to our society with overdoses and overdose deaths rising significantly during the COVID-19 pandemic. Growing evidence suggests a link between perioperative opioid use, postoperative opioid prescribing, and the development of opioid use disorder (OUD). As a result, strategies to better optimize pain management during the perioperative period are urgently needed. The purpose of this review is to summarize the most recent multimodal analgesia (MMA) recommendations, summarize evidence for efficacy surrounding the increased utilization of Enhanced Recovery After Surgery (ERAS) protocols, and discuss the implications for rising use of buprenorphine for OUD patients who present for surgery. In addition, this review will explore opportunities to expand our treatment of complex patients via transitional pain services. RECENT FINDINGS: There is ample evidence to support the benefits of MMA. However, optimal drug combinations remain understudied, presenting a target area for future research. ERAS protocols provide a more systematic and targeted approach for implementing MMA. ERAS protocols also allow for a more comprehensive approach to perioperative pain management by necessitating the involvement of surgical specialists. Increasingly, OUD patients taking buprenorphine are presenting for surgery. Recent guidance from a multisociety OUD working group recommends that buprenorphine not be routinely discontinued or tapered perioperatively. Lastly, there is emerging evidence to justify the use of transitional pain services for more comprehensive treatment of complex patients, like those with chronic pain, preoperative opioid tolerance, or substance use disorder. SUMMARY: Perioperative physicians must be aware of the impact of the opioid epidemic and explore methods like MMA techniques, ERAS protocols, and transitional pain services to improve the perioperative pain experience and decrease the risks of opioid-related harm.

The need for standardized perioperative care for patients undergoing bariatric and metabolic surgery in the United Kingdom.

Enhanced recovery after surgery (ERAS) protocols are shown to improve patient outcomes and reduce length of hospital stay. However, there is currently limited consensus on the perioperative management of patients undergoing bariatric and metabolic surgery (BMS) in the United Kingdom. This study aims to survey the level of consistency in patient care undergoing BMS. Bariatric nurse specialists from 30 bariatric units completed an anonymised, online survey from 21 December 2022 to 21 February 2023. Most units (77%) have implemented a premade postoperative care bundle protocol including predetermined timing of oral intake (77%) and postoperative day 1 bloods (60%). 63% of units have also established pre-set analgesia and anti-emetic bundles. Date of discharge is variable, ranging from 1 day after surgery (50%) to a 'two night stay' protocol (33%) to within 4 days after surgery (17%). Most follow-up clinics are either led by dietitians (33%) or both bariatric nurse specialists and dietitians collaboratively (57%). Patients are usually established on solid food 6 weeks after surgery in 53% (16/30) units. Chemical venous thromboembolism (VTE) prophylaxis was either given on day of surgery postoperatively (60%), day before (20%) or after (17%) surgery. Our study shows significant variability of care throughout the surgical pathway, in the study population. The results suggest a need for consensus guidelines outlining the best-practice approach to managing patients undergoing BMS; due to the heterogeneity of the patient group, these guidelines should contain overarching generalisable recommendations that can then be tailored to individual patients.

Advances in pediatric perioperative care using artificial intelligence.

PURPOSE OF THIS REVIEW: This article explores how artificial intelligence (AI) can be used to evaluate risks in pediatric perioperative care. It will also describe potential future applications of AI, such as models for airway device selection, controlling anesthetic depth and nociception during surgery, and contributing to the training of pediatric anesthesia providers. RECENT FINDINGS: The use of AI in healthcare has increased in recent years, largely due to the accessibility of large datasets, such as those gathered from electronic health records. Although there has been less focus on pediatric anesthesia compared to adult anesthesia, research is on- going, especially for applications focused on risk factor identification for adverse perioperative events. Despite these advances, the lack of formal external validation or feasibility testing results in uncertainty surrounding the clinical applicability of these tools. SUMMARY: The goal of using AI in pediatric anesthesia is to assist clinicians in providing safe and efficient care. Given that children are a vulnerable population, it is crucial to ensure that both clinicians and families have confidence in the clinical tools used to inform medical decision- making. While not yet a reality, the eventual incorporation of AI-based tools holds great potential to contribute to the safe and efficient care of our patients.

The intersection of pediatric anesthesiology and social determinants of health.

PURPOSE OF REVIEW: There is increasing evidence of racial and ethnic disparities in pediatric perioperative care, which indicates a need to identify factors driving disparities. Social determinants of health (SDOH) play a fundamental role in pediatric health and are recognized as key underlying mechanisms of healthcare inequities. This article summarizes recent research exploring the influence of SDOH on pediatric perioperative outcomes. RECENT FINDINGS: Despite the scarcity of research exploring SDOH and pediatric perioperative outcomes, recent work demonstrates an association between SDOH and multiple outcomes across the perioperative care continuum. Measures of social disadvantage were associated with preoperative symptom severity, longer hospital stays, and higher rates of postoperative complications and mortality. In some studies, these adverse effects of social disadvantage persisted even when controlling for medical comorbidities and clinical severity. SUMMARY: The existing literature offers compelling evidence of the impact of SDOH on perioperative outcomes in children and reveals a critical area in pediatric anesthesia that necessitates further exploration and action. To improve outcomes and address care inequities, future efforts should prioritize the integration of SDOH assessment into pediatric perioperative research and practice.

Implementing mobile health in your surgical practice: Results of a multidisciplinary convening.

The perioperative journey remains complex and difficult to navigate for patients and caregivers. Poor communication and lack of care coordination lead to diminished patient satisfaction, outcomes, and system performance. Mobile health platforms have the potential to overcome some of these issues by improving care delivery through timely individualized assessments, improved patient education, and care coordination. Yet mobile health implementation in surgical practice remains limited. Based on a convening of experts using human-centered design techniques, an implementation guide for the integration of mobile health in perioperative care was created to assist with (1) identification of the use of mobile health within a specific surgical practice, (2) identification of the pathway to mobile health implementation, and (3) measurement of successful implementation including patient and surgical system impact. This article reviews those recommendations and provides references to additional literature, including the full implementation guide, to aid those seeking to implement mobile health in a surgical practice or system.

Perioperative management of patients on glucagon-like peptide-1 receptor agonists.

PURPOSE OF REVIEW: To summarize the mechanism of action, clinical outcomes, and perioperative implications of glucagon-like peptide-1 receptor agonists (GLP-1-RAs). Specifically, this review focuses on the available literature surrounding complications (primarily, bronchoaspiration) and current recommendations, as well as knowledge gaps and future research directions on the perioperative management of GLP-1-RAs. RECENT FINDINGS: GLP-1-RAs are known to delay gastric emptying. Accordingly, recent case reports and retrospective observational studies, while anecdotal, suggest that the perioperative use of GLP-1-RAs may increase the risk of bronchoaspiration despite fasting intervals that comply with (and often exceed) current guidelines. As a result, guidelines and safety bulletins have been published by several Anesthesiology Societies. SUMMARY: While rapidly emerging evidence suggests that perioperative GLP-1-RAs use is associated with delayed gastric emptying and increased risk of bronchoaspiration (particularly in patients undergoing general anesthesia and/or deep sedation), high-quality studies are needed to provide definitive answers with respect to the safety and duration of preoperative drug cessation, and optimal fasting intervals according to the specific GLP-1-RA agent, the dose/duration of administration, and patient-specific factors. Meanwhile, clinicians must be aware of the potential risks associated with the perioperative use of GLP-1-RAs and follow the recommendations put forth by their respective Anesthesiology Societies.

Anesthesia for gender-affirming surgery: a practical review.

PURPOSE OF REVIEW: Gender-affirming surgery (GAS) is an effective, well studied, and often necessary component of gender-affirming care and mitigation of gender dysphoria for transgender and gender-diverse (TGD) individuals. GAS is categorized as chest surgeries, genitourinary surgeries, facial feminization/masculinization, and vocal phonosurgery. Despite increased incidence of GAS during recent years, there is a gap in knowledge and training on perioperative care for TGD patients. RECENT FINDINGS: Our review discusses the relevant anesthetic considerations for the most common GAS, which often involve highly specialized surgical techniques that have unique implications for the anesthesia professional. SUMMARY: Anesthesiology professionals must attend to the surgical and anesthetic nuances of various GAS procedures. However, as many considerations are based on common practice, research is warranted on anesthetic implications and outcomes of GAS.

Evidence-based Perioperative Practice Utilization among Various Racial Populations-A Retrospective Cohort Trending Analysis of Lower Extremity Total Joint Arthroplasty Patients.

BACKGROUND: Various studies have demonstrated racial disparities in perioperative care and outcomes. The authors hypothesize that among lower extremity total joint arthroplasty patients, evidence-based perioperative practice utilization increased over time among all racial groups, and that standardized evidence-based perioperative practice care protocols resulted in reduction of racial disparities and improved outcomes. METHODS: The study analyzed 3,356,805 lower extremity total joint arthroplasty patients from the Premier Healthcare database (Premier Healthcare Solutions, Inc., USA). The exposure of interest was race (White, Black, Asian, other). Outcomes were evidence-based perioperative practice adherence (eight individual care components; more than 80% of these implemented was defined as "high evidence-based perioperative practice"), any major complication (including acute renal failure, delirium, myocardial infarction, pulmonary embolism, respiratory failure, stroke, or in-hospital mortality), in-hospital mortality, and prolonged length of stay. RESULTS: Evidence-based perioperative practice adherence rate has increased over time and was associated with reduced complications across all racial groups. However, utilization among Black patients was below that for White patients between 2006 and 2021 (odds ratio, 0.94 [95% CI, 0.93 to 0.95]; 45.50% vs. 47.90% on average). Independent of whether evidence-based perioperative practice components were applied, Black patients exhibited higher odds of major complications (1.61 [95% CI, 1.55 to 1.67] with high evidence-based perioperative practice; 1.43 [95% CI, 1.39 to 1.48] without high evidence-based perioperative practice), mortality (1.70 [95% CI, 1.29 to 2.25] with high evidence-based perioperative practice; 1.29 [95% CI, 1.10 to 1.51] without high evidence-based perioperative practice), and prolonged length of stay (1.45 [95% CI, 1.42 to 1.48] with high evidence-based perioperative practice; 1.38 [95% CI, 1.37 to 1.40] without high evidence-based perioperative practice) compared to White patients. CONCLUSIONS: Evidence-based perioperative practice utilization in lower extremity joint arthroplasty has been increasing during the last decade. However, racial disparities still exist with Black patients consistently having lower odds of evidence-based perioperative practice adherence. Black patients (compared to the White patients) exhibited higher odds of composite major complications, mortality, and prolonged length of stay, independent of evidence-based perioperative practice use, suggesting that evidence-based perioperative practice did not impact racial disparities regarding particularly the Black patients in this surgical cohort.

Evidence-based guideline for the prevention and management of perioperative infection

We have updated the guideline for preventing and managing perioperative infection in China, given the global issues with antimicrobial resistance and the need to optimize antimicrobial usage and improve hospital infection control levels. We conducted a comprehensive evaluation of the evidence for prevention and management of perioperative infection, based on the concepts of the Grading of Recommendations Assessment, Development and Evaluation (GRADE) system. The strength of recommendations was graded and voted using the Delphi method and the nominal group technique. Revisions were made to the guidelines in response to feedback from the experts. There were 17 questions prepared, for which 37 recommendations were made. According to the GRADE system, we evaluated the body of evidence for each clinical question. Based on the meta-analysis results, recommendations were graded using the Delphi method to generate useful information. This guideline provides evidence to perioperative antimicrobial prophylaxis that increased the rational use of prophylactic antimicrobial use, with substantial improvement in the risk-benefit trade-off.

Percepção de enfermeiros acerca dos desafios à gestão do cuidado perioperatório: um estudo qualitativo / Nurses' perceived challenges in managing perioperative care: a qualitative study / Percepción de los enfermeros sobre los desafíos en la gestión del cuidado perioperatorio: un estudio cualitativo

Objetivo: Conhecer a percepção de enfermeiros sobre os desafios à gestão do cuidado perioperatório. Método: Estudo exploratório com abor-dagem qualitativa, a partir do referencial metodológico da Pesquisa Convergente-Assistencial. Amostra não probabilística, constituída de oito enfermei-ros responsáveis pela gestão do cuidado perioperatório. Resultados: Identificaram-se as palavras de maior frequência no corpus das entrevistas, elencadas três categorias temáticas a serem discutidas, a saber: insuficiência de recursos materiais; insuficiência de recursos humanos; e assistência de Enfermagem. Conclusão: A carência de recursos humanos e materiais foi considerada o principal obstáculo à gestão do cuidado perioperatório. A educação continuada se mostrou como forte aliada para otimização do cuidado de Enfermagem prestado

Objetivo: Conhecer a percepção de enfermeiros sobre os desafios à gestão do cuidado perioperatório. Método: Estudo exploratório com abor-dagem qualitativa, a partir do referencial metodológico da Pesquisa Convergente-Assistencial. Amostra não probabilística, constituída de oito enfermei-ros responsáveis pela gestão do cuidado perioperatório. Resultados: Identificaram-se as palavras de maior frequência no corpus das entrevistas, elencadas três categorias temáticas a serem discutidas, a saber: insuficiência de recursos materiais; insuficiência de recursos humanos; e assistência de Enfermagem. Conclusão: A carência de recursos humanos e materiais foi considerada o principal obstáculo à gestão do cuidado perioperatório. A educação continuada se mostrou como forte aliada para otimização do cuidado de Enfermagem prestad

Objetivo: Conocer la percepción de los enfermeros sobre los desafíos en la gestión del cuidado perioperatorio. Método: Estudio exploratorio con abordaje cualitativo, basado en el marco metodológico de la Investigación Convergente en Atención. Muestra no probabilística, constituida por ocho enfermeros responsables de la gestión del cuidado perioperatorio. Resultados: Se identificaron las palabras más frecuentes en el corpus de las entrevistas, enumerando tres categorías temáticas a ser discutidas, a saber: recursos materiales insuficientes; recursos humanos insuficientes; y cuidados de enferme-ría. Conclusión: La falta de recursos humanos y materiales fue considerada el principal obstáculo para la gestión del cuidado perioperatorio. La educa-ción continua demostró ser un fuerte aliado para optimizar los cuidados de enfermería prestados

Perioperativní péce / Perioperative care

Perioperacní péce zahrnuje velmi sirokou oblast elektivních a akutních výkonu napríc vekovým spektrem pacientu. Tato doporucení jsou zamerena na perioepracní péci v celé její síri. Cílem je optimalizovat a standardizovat tuto péci a zlepsit tak lécebné výsledky. Predkládaný KDP se venuje následujícím klinickým oblastem, které jsou zamereny na dospelé pacienty, kterí podstupují plánovaný nekardiochirurgický výkon: Poskytování informací a podpory pacientum; Vyuzívání postupu pro casné zotavení; Zhodnocení rizik operace; Intraoperacní péce (rízení tekutin, glukózy); Postoperacní péce; Rízení bolesti.

Perioperative care includes a very wide range of elective and acute procedures across the age spectrum of patients. These recommendations are focused on perioperative care in its entirety. The goal is to optimize and standardize this care and thus improve treatment results. The presented KDP deals with the following clinical areas, which are aimed at adult patients who undergo planned non-cardiac surgery: Providing information and support to patients; Use of procedures for early recovery; Risk assessment of the operation; Intraoperative care (fluid, glucose management); Postoperative care; Pain management.

Perioperative management of antithrombotic therapy: an American college of chest physicians clinical practice guideline

The American College of Chest Physicians Clinical Practice Guideline on the Perioperative Management of Antithrombotic Therapy addresses 43 Patients-Interventions-Comparators-Outcomes (PICO) questions related to the perioperative management of patients who are receiving long-term oral anticoagulant or antiplatelet therapy and require an elective surgery/procedure. This guideline is separated into four broad categories, encompassing the management of patients who are receiving: (1) a vitamin K antagonist (VKA), mainly warfarin; (2) if receiving a VKA, the use of perioperative heparin bridging, typically with a low-molecular-weight heparin; (3) a direct oral anticoagulant (DOAC); and (4) an antiplatelet drug. Strong or conditional practice recommendations are generated based on high, moderate, low, and very low certainty of evidence using the Grading of Recommendations, Assessment, Development, and Evaluation (GRADE) methodology for clinical practice guidelines. A multidisciplinary panel generated 44 guideline recommendations for the perioperative management of VKAs, heparin bridging, DOACs, and antiplatelet drugs, of which two are strong recommendations: (1) against the use of heparin bridging in patients with atrial fibrillation; and (2) continuation of VKA therapy in patients having a pacemaker or internal cardiac defibrillator implantation. There are separate recommendations on the perioperative management of patients who are undergoing minor procedures, comprising dental, dermatologic, ophthalmologic, pacemaker/internal cardiac defibrillator implantation, and GI (endoscopic) procedures. Substantial new evidence has emerged since the 2012 iteration of these guidelines, especially to inform best practices for the perioperative management of patients who are receiving a VKA and may require heparin bridging, for the perioperative management of patients who are receiving a DOAC, and for patients who are receiving one or more antiplatelet drugs. Despite this new knowledge, uncertainty remains as to best practices for the majority of perioperative management

Executive Summary Perioperative Management of Antithrombotic Therapy: An American College of Chest Physicians Clinical Practice Guideline

Background The American College of Chest Physicians Clinical Practice Guideline on the Perioperative Management of Antithrombotic Therapy addresses 43 Patients-Interventions-Comparators-Outcomes (PICO) questions related to the perioperative management of patients who are receiving long-term oral anticoagulant or antiplatelet therapy and require an elective surgery/procedure. This guideline is separated into four broad categories, encompassing the management of patients who are receiving: (1) a vitamin K antagonist (VKA), mainly warfarin; (2) if receiving a VKA, the use of perioperative heparin bridging, typically with a low-molecular-weight heparin; (3) a direct oral anticoagulant (DOAC); and (4) an antiplatelet drug.