Paediatric anaesthesia
-
The future of pediatric anesthesia can be thought of in terms of what will happen to the practice of anesthesia, or what will happen to the profession of pediatric anesthesia. The profession will change both under external forces, and by how pediatric anesthetists themselves decide to shape of the profession. The largest external force is likely to be cost. ⋯ New technologies will have an impact in monitoring and in the gathering and dissemination of information. Practice will also change with changes in surgery. Perhaps the biggest changes will come in areas with the greatest unknowns; neonatal anesthesia is an area with many unknowns and thus great potential for change and improvement.
-
The pharmacokinetic (PK) parameters that are important for dosing (e.g., clearance and volume) are well known. They are used in universal mathematical formulae that describe the time course of drug concentration. Additional formulae can be used to describe major covariate effects in children, such as size and maturation. ⋯ While size and maturation are two important considerations in children and assist with dosing estimation, there are also a number of additional PK covariates (e.g., organ function, disease, drug interactions, pharmacogenetics), and identifying these sources of variability allows us to individualize drug dose. Pharmacology is not simply an application of PK, and determinants of drug dose also require an understanding of the variability associated with pharmacodynamic response and a balancing of beneficial effects against unwanted effects. Each child is unique in this respect.
-
Management of a child's airway is one of the main sources of stress for anesthetists who do not routinely anesthetize children. Unfortunately, trainees are gaining less experience in pediatric airway management than in the past, which is particularly difficult at a time when some beliefs about airway management are being challenged and airway management is less standardized. Fortunately, most children have an easily managed, normal airway. ⋯ Different choices of airway management in children, and their advantages and disadvantages are discussed. Furthermore, the three broad causes of a challenging airway in children and infants are highlighted - the difficulty obtaining a mask seal, difficulty visualizing the vocal cords, and the third cause in which the larynx can be visualized but the difficulty lies at or beyond that level. Guidelines are given how to deal with these patients as well as with the feared but rare scenario of 'cannot ventilate, cannot intubate' in children.
-
Paediatric anaesthesia · Jun 2012
ReviewDuctal ligation in the very low-birth weight infant: simple anesthesia or extreme art?
Management of the very low-birth weight infant in the neonatal intensive care unit (NICU) is geared to provide optimal outcome not only in term of survival but increasingly with a goal of limitation of long-term neurological and pulmonary morbidities. Careful follow-up studies have demonstrated that relatively small variations in oxygenation and gas exchange, ventilator management, and other management modalities can have long-term consequences. ⋯ Does the anesthetic management matter? Given the attention to detail within the NICU, it would seem prudent to try to choose techniques that limit changes in hemodynamics, gas exchange, and ventilation within the context of the surgery. Anesthesia for ductal ligation in the very low-birth weight infant may need to be judged by more than simple survival and brings into question the current techniques and monitoring used.
-
Paediatric anaesthesia · May 2012
Review Meta AnalysisCT-guided percutaneous lung biopsy under general anesthesia: a pediatric case series and literature review.
We describe 14 consecutive children who received computed tomography-guided percutaneous lung biopsy (CT-PLB) under general anesthesia over an 18-month period at our institution. Pulmonary hemorrhage (occurring in 36%) and pneumothorax (29%) were the two most common complications; the overall complication rate was 64%. When complications did occur, immediate airway management was facilitated by the presence of an endotracheal tube (ETT). We conclude as follows: (i) CT-PLB in our series is associated with a high risk of both overall and severe complications; (ii) risk of complications is increased by both patient and procedure-related factors; (iii) airway management with ETT may be preferable should a complication arise; (iv) severe complications may necessitate ICU admission, which should be available before proceeding.