Pediatrics: Pyloric Stenosis

Postoperative Management ◽

Main Topic ◽

Pediatric Airway ◽

Rapid Sequence ◽

Intraoperative Management ◽

In this chapter the essential aspects of anesthesia for pyloric stenosis in the pediatric patient are discussed. Subtopics include determining electrolyte abnormalities in these patients, airway management, fluid management, and coexisting diseases. The chapter is divided into preoperative, intraoperative and postoperative sections with important subtopics related to the main topic in each section. Preoperative topics discussed include malignant hyperthermia, pyloric stenosis and associated projectile vomiting, olive sign, hypokalemia, and assessment of fluid volume intake. Issues discussed related to intraoperative management include monitoring, rapid sequence induction, the pediatric airway, and bronchospasm. Under postoperative management, complications related to croup and to postoperative apnea and hypoglycemia are addressed.

Controversies in Pediatric Perioperative Airways

BioMed Research International ◽

10.1155/2015/368761 ◽

2015 ◽

Vol 2015 ◽

pp. 1-11 ◽

Cited By ~ 16

Author(s):

Jozef Klučka ◽

Petr Štourač ◽

Roman Štoudek ◽

Michaela Ťoukálková ◽

Hana Harazim ◽

...

Keyword(s):

Airway Management ◽

Difficult Airway ◽

Relevant Literature ◽

Pediatric Anesthesia ◽

Related Complication ◽

Pediatric Airway ◽

Anesthesia Practice ◽

Rapid Sequence ◽

Pediatric airway management is a challenge in routine anesthesia practice. Any airway-related complication due to improper procedure can have catastrophic consequences in pediatric patients. The authors reviewed the current relevant literature using the following data bases: Google Scholar, PubMed, Medline (OVID SP), and Dynamed, and the following keywords: Airway/s, Children, Pediatric, Difficult Airways, and Controversies. From a summary of the data, we identified several controversies: difficult airway prediction, difficult airway management, cuffed versus uncuffed endotracheal tubes for securing pediatric airways, rapid sequence induction (RSI), laryngeal mask versus endotracheal tube, and extubation timing. The data show that pediatric anesthesia practice in perioperative airway management is currently lacking the strong evidence-based medicine (EBM) data that is available for adult subpopulations. A number of procedural steps in airway management are derived only from adult populations. However, the objective is the same irrespective of patient age: proper securing of the airway and oxygenation of the patient.

Airway assessment and management

10.1093/med/9780198853053.003.0015 ◽

2021 ◽

pp. 361-404

Author(s):

Jules Cranshaw ◽

Emira Kursumovic ◽

Tim Cook

Keyword(s):

Tracheal Intubation ◽

Airway Management ◽

Difficult Intubation ◽

Respiratory Viruses ◽

Airway Assessment ◽

Rapid Sequence ◽

Sequence Induction ◽

Practical Information ◽

Apnoeic Oxygenation

This chapter provides detailed, practical and up-to-date information on management of the airway. It demystifies airway terminology, outlines airway assessment, and describes the management of the unanticipated difficult airway in adults. It includes a new section on intubating critically ill patients using the vortex approach, and outlines the equipment and techniques used to aid airway management. It gives practical information on the emergency front of neck airway and strategies to approach the obstructed airway. It explains rapid sequence induction, inhalational induction, awake tracheal intubation, and extubation after difficult intubation. It contains new sections on apnoeic oxygenation and how to manage patients with airborne respiratory viruses.

Emergency Airway Management in Patients with COVID-19: A Prospective International Multicenter Cohort Study

Anesthesiology ◽

10.1097/aln.0000000000003791 ◽

2021 ◽

Author(s):

Danny J. N. Wong ◽

Kariem El-Boghdadly ◽

Ruth Owen ◽

Craig Johnstone ◽

Mark D. Neuman ◽

...

Keyword(s):

Tracheal Intubation ◽

Airway Management ◽

Odds Ratio ◽

Adjusted Odds Ratio ◽

Middle Income ◽

Emergency Airway Management ◽

Emergency Airway ◽

Rapid Sequence ◽

Background Tracheal intubation for patients with COVID-19 is required for invasive mechanical ventilation. The authors sought to describe practice for emergency intubation, estimate success rates and complications, and determine variation in practice and outcomes between high-income and low- and middle-income countries. The authors hypothesized that successful emergency airway management in patients with COVID-19 is associated with geographical and procedural factors. Methods The authors performed a prospective observational cohort study between March 23, 2020, and October 24, 2020, which included 4,476 episodes of emergency tracheal intubation performed by 1,722 clinicians from 607 institutions across 32 countries in patients with suspected or confirmed COVID-19 requiring mechanical ventilation. The authors investigated associations between intubation and operator characteristics, and the primary outcome of first-attempt success. Results Successful first-attempt tracheal intubation was achieved in 4,017/4,476 (89.7%) episodes, while 23 of 4,476 (0.5%) episodes required four or more attempts. Ten emergency surgical airways were reported—an approximate incidence of 1 in 450 (10 of 4,476). Failed intubation (defined as emergency surgical airway, four or more attempts, or a supraglottic airway as the final device) occurred in approximately 1 of 120 episodes (36 of 4,476). Successful first attempt was more likely during rapid sequence induction versus non–rapid sequence induction (adjusted odds ratio, 1.89 [95% CI, 1.49 to 2.39]; P < 0.001), when operators used powered air-purifying respirators versus nonpowered respirators (adjusted odds ratio, 1.60 [95% CI, 1.16 to 2.20]; P = 0.006), and when performed by operators with more COVID-19 intubations recorded (adjusted odds ratio, 1.03 for each additional previous intubation [95% CI, 1.01 to 1.06]; P = 0.015). Intubations performed in low- or middle-income countries were less likely to be successful at first attempt than in high-income countries (adjusted odds ratio, 0.57 [95% CI, 0.41 to 0.79]; P = 0.001). Conclusions The authors report rates of failed tracheal intubation and emergency surgical airway in patients with COVID-19 requiring emergency airway management, and identified factors associated with increased success. Risks of tracheal intubation failure and success should be considered when managing COVID-19. Editor’s Perspective What We Already Know about This Topic What This Article Tells Us That Is New

Developing a simulation programme to train airway management during the COVID-19 pandemic in a tertiary-level hospital

BMJ Simulation and Technology Enhanced Learning ◽

10.1136/bmjstel-2020-000755 ◽

2021 ◽

pp. bmjstel-2020-000755

Author(s):

Heung Yan Wong ◽

Craig Johnstone ◽

Gunjeet Dua

Keyword(s):

Tracheal Intubation ◽

Airway Management ◽

Rapid Sequence ◽

Response Team ◽

Operating Theatres ◽

Invaluable Tool ◽

Airway Response ◽

Sequence Induction ◽

Set Up

Tracheal intubation of a patient with COVID-19 is a high-risk procedure for not only the patient, but all healthcare workers involved, leading to an understandable degree of staff anxiety. We used simulation to help train airway managers to intubate patients with COVID-19. Based on action cards developed by our department, we designed a series of scenarios to simulate airway management during the COVID-19 pandemic. Teams were asked to perform a rapid sequence induction with tracheal intubation. We designed in situ scenarios with low-fidelity manikins that could be set up in operating theatres across multiple sites. Over a period of 4 weeks, 101 consultant anaesthetists, 58 anaesthetic trainees and 30 operating department practitioners received intubation training. These members made up the airway response team of our hospital. 30 emergency department doctors also received training in anticipation of further COVID-19 surges leading to the possibility of overwhelmed services. Simulation-based training was an invaluable tool for our hospital to rapidly upskill medical professionals during the first wave of the COVID-19 pandemic. We have used feedback and additional guidelines to improve our scenarios to retrain staff during subsequent waves.

Scene airway management before and after the introduction of a rapid sequence induction protocol

Air Medical Journal ◽

10.1016/s1067-991x(96)90043-7 ◽

1996 ◽

Vol 15 (3) ◽

pp. 128

Author(s):

Holley Herron ◽

Robert Falcone ◽

Barb Dean ◽

Howard Werman

Keyword(s):

Airway Management ◽

Rapid Sequence ◽

Before And After ◽

Airway Management during Pregnancy and Labor

10.5772/intechopen.96476 ◽

2021 ◽

Author(s):

Kemal Tolga Saracoglu ◽

Gul Cakmak ◽

Ayten Saracoglu

Keyword(s):

Respiratory Failure ◽

Airway Management ◽

Pregnant Women ◽

Physiological Changes ◽

Emergency Cesarean ◽

Rapid Sequence ◽

Common Causes ◽

Sequence Induction ◽

Hypoxic Respiratory Failure

Pregnant women undergo non-obstetric surgeries as well as cesarean operations. Airway management can be complicated due to physiological changes which occur in the respiratory system of labors. The most common causes of pregnancy-specific hypoxic respiratory failure are eclampsia, preeclampsia, and pulmonary edema that develops secondary to tocolytics. Approximately 10–15% of pregnant women undergo emergency cesarean section. Regional anesthesia is a preferred technique worldwide most commonly, and general anesthesia is applied with rapid sequence induction for the rest of the patients. Difficult Airway Society Master Algorithm for Obstetric Patients is a useful method to manage the airway in labors.

„In cabin rapid sequence induction“

Der Anaesthesist ◽

10.1007/s00101-021-00933-8 ◽

2021 ◽

Author(s):

Jürgen Knapp ◽

Philipp Venetz ◽

Urs Pietsch

Keyword(s):

Airway Management ◽

Operating Procedure ◽

Standard Operating Procedure ◽

Rapid Sequence ◽

Standard Operating ◽

ZusammenfassungDas Überleben von Schwerverletzten ist von der schnellen und effizienten prähospitalen Versorgung abhängig. Die Zeit vom Unfallereignis bis zum Eintreffen des Patienten im Schockraum konnte leider trotz aller Bemühungen der vergangenen Jahrzehnte und trotz des immer dichteren Netzes an Rettungshubschraubern (RTH), bislang nicht relevant verkürzt werden. Ein gewisser Anteil der Schwerverletzten benötigt bereits prähospital eine Narkoseeinleitung (typischerweise als „rapid sequence induction“, RSI). Durch die medizinischen und technischen Fortschritte der Videolaryngoskopie sowie der im deutschsprachigen Raum eingesetzten Luftrettungsmittel erscheint die Möglichkeit, unter bestimmten Bedingungen die Narkoseeinleitung und das Airway-Management in der Kabine des RTH – also während des Transports – durchzuführen, als mögliche Option, um die Prähospitalzeit zu verkürzen. Für die sichere Durchführung sind die im vorliegenden Beitrag behandelten Aspekte elementar. Beispielhaft wird ein Prozedere vorgestellt, das sich seit geraumer Zeit bewährt hat. Die „in cabin RSI“ sollte allerdings nur von zuvor trainierten Teams bei Vorliegen einer klaren „standard operating procedure“ durchgeführt werden.

Introduction of a Rapid Sequence Induction Checklist and its effect on Compliance to Guidelines and Complications

Acta Anaesthesiologica Scandinavica ◽

10.1111/aas.13947 ◽

2021 ◽

Author(s):

Jakob Zeuchner ◽

Jonas Graf ◽

Louise Elander ◽

Jessica Frisk ◽

Mats Fredrikson ◽

...

Keyword(s):

Rapid Sequence ◽

Rapid sequence induction: where did the consensus go?

Scandinavian Journal of Trauma Resuscitation and Emergency Medicine ◽

10.1186/s13049-021-00883-5 ◽

2021 ◽

Vol 29 (1) ◽

Author(s):

Pascale Avery ◽

Sarah Morton ◽

James Raitt ◽

Hans Morten Lossius ◽

David Lockey

Keyword(s):

Cricoid Pressure ◽

Hospital Environment ◽

Training Technique ◽

Rapid Sequence ◽

Gastric Aspiration ◽

Sequence Induction ◽

The Uk ◽

Key Aspects ◽

Risk Of Aspiration

Abstract Background Rapid Sequence Induction (RSI) was introduced to minimise the risk of aspiration of gastric contents during emergency tracheal intubation. It consisted of induction with the use of thiopentone and suxamethonium with the application of cricoid pressure. This narrative review describes how traditional RSI has been modified in the UK and elsewhere, aiming to deliver safe and effective emergency anaesthesia outside the operating room environment. Most of the key aspects of traditional RSI – training, technique, drugs and equipment have been challenged and often significantly changed since the procedure was first described. Alterations have been made to improve the safety and quality of the intervention while retaining the principles of rapidly securing a definitive airway and avoiding gastric aspiration. RSI is no longer achieved by an anaesthetist alone and can be delivered safely in a variety of settings, including in the pre-hospital environment. Conclusion The conduct of RSI in current emergency practice is far removed from the original descriptions of the procedure. Despite this, the principles – rapid delivery of a definitive airway and avoiding aspiration, are still highly relevant and the indications for RSI remain relatively unchanged.

COVID-19: Intensivmedizinische Aspekte und Langzeitfolgen

Aktuelle Kardiologie ◽

10.1055/a-1314-9342 ◽

2020 ◽

Author(s):

Raphael Romano Bruno ◽

Georg Wolff ◽

Malte Kelm ◽

Christian Jung

Keyword(s):

High Flow ◽

Ältere Personen ◽

Rapid Sequence ◽

Sind Eine ◽

Sequence Induction ◽

Thrombembolische Komplikationen ◽

Invasive Beatmung

ZusammenfassungEtwa 14% der COVID-19-Patienten weisen einen schwereren und ca. 5% einen kritischen Krankheitsverlauf auf. Besonders gefährdet sind ältere Personen, männliches Geschlecht, Raucher und stark adipöse Menschen. Wird der Patient invasiv oder nichtinvasiv beatmet, so steigt die Mortalität auf 53% respektive 50% an. In der Regel beträgt die Dauer vom Beginn der Symptome bis zur Aufnahme auf die Intensivstation 10 Tage. Die mittlere Verweildauer auf der Intensivstation beträgt 9 Tage. Für die Priorisierung sind die klinische Erfolgsaussicht einer intensivmedizinischen Behandlung sowie der Wunsch des Patienten maßgebend. Zentrale Kriterien für die Aufnahme auf die Intensivstation sind eine Hypoxämie (SpO2 < 90% unter 2 – 4 Liter Sauerstoff/min bei nicht vorbestehender Therapie), Dyspnoe, eine erhöhte Atemfrequenz (> 25 – 30/min) und ein systolischer Blutdruck ≤ 100 mmHg. Der Schutz des Personals genießt bei allen Maßnahmen Vorrang. Alle aerosolgenerierenden Prozeduren sollten nur mit großer Vorsicht erfolgen. Wird unter High Flow keine adäquate Oxygenierung erreicht (SpO2 ≥ 90% oder ein paO2 > 55 mmHg), sollte über eine Eskalation nachgedacht werden (NIV, invasive Beatmung). Die Patienten sollten lungenprotektiv beatmet werden. Die Intubation sollte als Rapid Sequence Induction erfolgen. Eine ECMO kann erwogen werden. Thrombembolische Komplikationen sind sehr häufig. Antibiotika sollten nicht routinemäßig gegeben werden. Die aktuell beste Datenlage liegt für Dexamethason vor. Remdesivir kann die Rekonvaleszenz beschleunigen. Langzeitfolgen nach COVID-19 sind sehr häufig. Kardiale, pulmonale und neurologische Probleme stehen dabei im Vordergrund.