British journal of anaesthesia
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Correct diagnostic management of perioperative hypersensitivity aims to identify the underlying mechanism(s), responsible culprit(s), and safe alternative drugs or techniques. Although drug provocation tests are considered the gold standard, diagnosis of perioperative hypersensitivity mainly relies on skin testing. Use of in vitro tests, such as quantification of specific immunoglobulin E antibodies, serum tryptase, and plasma histamine, as well as basophil activation tests is becoming widespread. ⋯ In this narrative review, we summarise the principles of these in vitro tests, and the possibilities and limitations when these tests are used for testing sensitivity to substances with a high risk of causing perioperative hypersensitivity. Hence, we focus on neuromuscular blocking agents, antibiotics, natural rubber latex, and opiates/opioids. The combination of multiple tests would allow diagnosis of perioperative hypersensitivity with the right balance of safety and accuracy.
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Perioperative diabetic ketoacidosis (DKA) with near-normal blood glucose concentrations, termed euglycaemic ketoacidosis (EDKA), is an adverse effect associated with sodium-glucose co-transporter-2 inhibitors (SGLT2i). Guidelines are still evolving concerning the perioperative management of patients on SGLT2i. We performed a systematic review of published reports of DKA from SGLT2i in the surgical setting to understand better the clinical presentation and characteristics of SGLT2i-associated DKA. ⋯ EDKA is likely to be under-recognised because of its atypical presentation and may delay the diagnosis. Understanding this clinical entity, vigilance towards monitoring plasma/capillary ketones helps in early identification and assists in the management.
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Perioperative hypersensitivity reactions (POH) constitute a clinical and diagnostic challenge, a consequence of heterogeneous clinical presentations, and multiple underlying pathomechanisms. POH do not necessarily involve an allergen-specific immune response with cross-linking of specific immunoglobulin E (sIgE) antibodies on mast cells and basophils. POH can also result from alternative specific and non-specific effector cell activation/degranulation such as complement-derived anaphylatoxins and off-target occupancy of mast cell, basophil, or both surface receptors. ⋯ Pulmonary oedema can result from a combination of pulmonary capillary hypertension, incompetence of the alveolocapillary membrane, or both. Angioedema can be distinguished mechanistically into histaminergic and non-histaminergic (e.g. bradykinin-mediated). An understanding of the molecular mechanisms and pathophysiology of POH are essential for the immediate management and subsequent investigation of these cases.
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Grading schemes for severity of suspected allergic reactions have been applied to the perioperative setting, but there is no scoring system that estimates the likelihood that the reaction is an immediate hypersensitivity reaction. Such a score would be useful in evaluating current and proposed tests for the diagnosis of suspected perioperative immediate hypersensitivity reactions and culprit agents. ⋯ We used a robust consensus development process to devise a clinical scoring system for suspected perioperative immediate hypersensitivity reactions. This will enable objectivity and uniformity in the assessment of the sensitivity of diagnostic tests.
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Simulation-based education is often highlighted as a method to prepare health personnel to handle clinical emergencies through repeated training and the design of supports. As one of the most common clinical emergencies in anaesthesia, anaphylaxis is often included in simulation scenarios at both graduate and postgraduate levels. Case reviews of anaphylaxis management continue to identify deficiencies in clinical responses. ⋯ We found evidence that in situ simulation and use of cognitive aids lead to improved teamwork and task performace. Quantitative and qualitative evidence for simulation-based perioperative training is limited. Future studies should investigate whether simulation training in perioperative anaphylaxis, particularly in situ simulation, translates into improved patient management and outcomes.