Paul Lee-Archer scite author profile

China, after the presentation of a cluster of patients with atypical pneumonia. These initial cases had links to a "wet market" where a range of live or freshly slaughtered animals were sold. 1 The virus has since been named SARS-CoV-2 by the World Health Organisation (WHO) and the disease which it can cause is called Coronavirus Disease 2019 (COVID-19). The WHO declared a global pandemic on March 11, 2020. The virus particles have a diameter of 60-140nm and are round-or oval-shaped and studded with spike proteins. 2The virus is highly contagious and gains entry to the host cell via the ACE-2 receptor on respiratory epithelia cells. A global response to the pandemic has included early publication of the pathogen genome, rapid development of diagnostic tests and co-ordinated research efforts to discover treatments and develop a vaccine. | TR AN S MISS I ON AND EPIDEMI OLOGYCases of COVID-19 have spread rapidly around the world, demonstrating the highly contagious nature of the virus. Its main routes of transmission are respiratory droplets and contact with respiratory secretions. However, it is likely that there is also fomite spread via contaminated surfaces based on our knowledge of other coronaviruses. 3 In children, there is also some evidence that the virus continues to shed in the stool for up to a month postinfection. 4 This raises the possibility of fecal-oral transmission during the convalescence stage.Another important route of transmission, particularly for healthcare workers, is aerosol particles. Anesthetists, intensive care physicians, emergency physicians, and some surgical specialities (eg ENT) are involved in airway procedures that generate aerosols, such as bag-mask ventilation, intubation, and extubation. This puts them at AbstractPediatric anesthetists have an important role to play in the management of patients suspected or confirmed to have COVID-19. In many institutions, the COVID-19 intubation teams are staffed with anesthetists as the proceduralists working throughout the hospitals also in the ICU and Emergency Departments. As practitioners who perform aerosol generating procedures involving the airway, we are at high risk of exposure to the virus SARS-CoV-2 and need to ensure we are well prepared and trained to manage such cases. This article reviews the relevant pediatric literature surrounding COVID-19 and summarizes the key recommendations for anesthetists involved in the care of children during this pandemic.

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The effect of dexmedetomidine on postoperative behaviour change in children: a randomised controlled trial

Lee-Archer

Ungern‐Sternberg

Reade

et al. 2020

Anaesthesia

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Children may develop changes in their behaviour following general anaesthesia. Some examples of negative behaviour include temper tantrums and nightmares, as well as sleep and eating disorders. The aim of this study was to determine whether dexmedetomidine reduces the incidence of negative behaviour change after anaesthesia for day case surgery in children aged two to seven years. Children were randomly allocated to one of three groups: a premedication group received 2 mg.kg-1 intranasal dexmedetomidine; an intra-operative group received 1 mg.kg-1 intravenous dexmedetomidine; and a control group. The primary outcome was the incidence of negative behaviour on postoperative day 3 using the Post-Hospitalisation Behaviour Questionnaire for Ambulatory Surgery (PHBQ-AS) and the Strength and Difficulties Questionnaire (SDQ). Secondary outcomes included: the incidence of negative behaviour on postoperative days 14 and 28; anxiety at induction; emergence delirium; pain; length of recovery and hospital stay; and any adverse events. The data for 247 patients were analysed. Negative behaviour change on postoperative day 3 was similar between all three groups when measured with the PHBQ-AS (47%, 44% and 51% respectively; adjusted p=0.99) and the SDQ (median scores 7.5, 6.0 and 8.0 respectively; adjusted p=0.99). The incidence of negative behaviour in the group who received dexmedetomidine intra-operatively was less at postoperative day 28 (15% compared with 36% in the dexmedetomidine premedication group and 41% in the control group, p<0.001). We conclude that dexmedetomidine does not reduce the incidence of negative behaviour on postoperative day 3 in two to sevenyear olds having day case procedures.

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An observational study of hypoactive delirium in the post‐anesthesia recovery unit of a pediatric hospital

Lee-Archer

Ungern‐Sternberg

Reade

et al. 2021

Pediatric Anesthesia

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Postoperative behavior change in children: All sorted or a tangled mess of spaghetti?

Lee-Archer

Ungern‐Sternberg

2018

Pediatric Anesthesia

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Peripherally Inserted Central catheter iNnovation to reduce Infections and Clots (the PICNIC trial): a randomised controlled trial protocol

et al. 2021

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IntroductionPeripherally inserted central catheters (PICCs) are vital for the delivery of medical therapies, but up to 30% of PICCs are associated with complications such as deep vein thrombosis or infection. The integration of antimicrobial and hydrophobic catheter materials, and pressure-activated valves, into polyurethane PICCs are innovations designed to prevent infective and/or thrombotic complications.Methods and analysisA multicentre, parallel group, superiority randomised controlled trial with two experimental arms ((1) hydrophobic PICC (with pressure-activated valve); (2) chlorhexidine gluconate-impregnated PICC (with external clamp)) and one control group ((3) conventional polyurethane PICC (with external clamp)). Recruitment of 1098 adult and paediatric patients will take place over 2 years at three tertiary-referral hospitals in Queensland, Australia. Patients are eligible for inclusion if their PICC is to be inserted for medical treatment, with a vascular size sufficient to support a 4-Fr PICC or larger, and with informed consent. The primary outcome is PICC failure, a composite of thrombotic (venous thrombosis, breakage and occlusion) and infective complications (PICC-associated bloodstream infection and local infection). Secondary outcomes include: all-cause PICC complication; thrombotic complications; infective complications; adverse events (local or systemic reaction); PICC dwell time; patient/parent satisfaction; and healthcare costs. Differences between both intervention groups and the control group will be compared using Cox proportional hazards regression. Effect estimates will be presented as HRs with corresponding 95% CI.Ethics and disseminationEthical approval from Queensland Health (HREC/QCHQ/48682) and Griffith University (Ref. No. 2019/094). Results will be published.Trial registration numberACTRN12619000022167.

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Pediatric liver transplantation in Australia and New Zealand: The case for a collaborative anesthetic database

Paterson

Lee-Archer

Shirley

et al. 2020

Pediatric Anesthesia

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Background Liver transplantation is conducted with strict oversight of organizational structure and clinical practice. However, specific regulations pertaining to the delivery of anesthetic services are lacking and consideration of departmental structure and mechanisms for quality control must occur at a local level. Busy centers collect and process sufficient data to guide this process but those with low case loads may not generate enough data for useful analysis. In Australia and New Zealand, pediatric liver transplants are performed at only four locations. As these operations are not equally distributed geographically or temporally there are periods of low activity at some centers. As anesthesia affects patient outcome, quality assurance activities are important in this setting. Aims Provide a global overview of the structure and function of liver transplantation networks. Identify issues related to provision of pediatric anesthetic services with specific reference to Australasia. Examine anesthetic data from a single pediatric center to illustrate benefits and limitations of such activity. Methods Pediatric liver transplant centers from Australia and New Zealand were surveyed to determine the organizational and logistical issues related to a liver transplant service. An audit of 15 years of liver transplants from a single center was conducted for benchmarking purposes and to identify changes in anesthetic practice over time. Results Pediatric liver transplants performed in Queensland from January 2005 to December 2019 were reviewed. Changes in transfusion practice reflected international trends. Morbidity and mortality were comparable to international data. Important complications such as hepatic artery and portal vein thrombosis were uncommon and did not generate enough data for further analysis. Conclusions Combining the anesthetic liver transplant data from all sites in a single registry would expand data collection and generate broadly applicable findings. We propose the establishment of an Australasian pediatric anesthetic liver transplant database.

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Paul Lee-Archer

Transnasal humidified rapid-insufflation ventilatory exchange (THRIVE) in children: a randomized controlled trial

Increased incidence of complicated appendicitis during the COVID‐19 pandemic

Pediatric anesthetic implications of COVID‐19—A review of current literature

The effect of dexmedetomidine on postoperative behaviour change in children: a randomised controlled trial

An observational study of hypoactive delirium in the post‐anesthesia recovery unit of a pediatric hospital

Postoperative behavior change in children: All sorted or a tangled mess of spaghetti?

Peripherally Inserted Central catheter iNnovation to reduce Infections and Clots (the PICNIC trial): a randomised controlled trial protocol

Pediatric liver transplantation in Australia and New Zealand: The case for a collaborative anesthetic database

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