{“questions”:{“ixxn8”:{“id”:”ixxn8″,”mediaType”:”image”,”answerType”:”text”,”imageCredit”:””,”image”:””,”imageId”:””,”video”:””,”imagePlaceholder”:””,”imagePlaceholderId”:””,”title”:”Which of the following patient histories MOST likely indicates a need for perioperative infective endocarditis prophylaxis in a 4-year-old patient undergoing tonsillectomy and adenoidectomy?”,”desc”:””,”hint”:””,”answers”:{“9s0b0”:{“id”:”9s0b0″,”image”:””,”imageId”:””,”title”:”A.\tVSD patch repair at 1 year of age”},”rhq9x”:{“id”:”rhq9x”,”image”:””,”imageId”:””,”title”:”B.\tRheumatic heart disease at 2 years of age”},”c7e4k”:{“id”:”c7e4k”,”image”:””,”imageId”:””,”title”:”C.\tHeart transplant with normal valve function at 2 years of age”},”vwyw6″:{“id”:”vwyw6″,”image”:””,”imageId”:””,”title”:”D.\tProsthetic mitral valve replacement at 1 year of age”,”isCorrect”:”1″}}}},”results”:{“afyog”:{“id”:”afyog”,”title”:””,”image”:””,”imageId”:””,”min”:”0″,”max”:”1″,”desc”:””,”redirect_url”:”https:\/\/pedsanesthesia.org\/wp-content\/uploads\/2023\/03\/Week-134-Endocarditis-Prophylaxis.pdf”}}}
Question of the Week #133
{“questions”:{“vxhta”:{“id”:”vxhta”,”mediaType”:”image”,”answerType”:”text”,”imageCredit”:””,”image”:””,”imageId”:””,”video”:””,”imagePlaceholder”:””,”imagePlaceholderId”:””,”title”:”A 3-year-old patient with Morquio syndrome (mucopolysaccharidosis type IV) and severe obstructive sleep apnea (OSA) presents for tonsillectomy and adenoidectomy. Which of the following is true regarding airway management? “,”desc”:””,”hint”:””,”answers”:{“m443o”:{“id”:”m443o”,”image”:””,”imageId”:””,”title”:”A.\tManual in-line stabilization of the neck is necessary during intubation”,”isCorrect”:”1″},”3wtmm”:{“id”:”3wtmm”,”image”:””,”imageId”:””,”title”:”B.\tTracheal distortion precludes the use of supraglottic airways in this population”},”5qy7a”:{“id”:”5qy7a”,”image”:””,”imageId”:””,”title”:”C.\tAdministering rocuronium prior to direct laryngoscopy facilitates intubation”},”opkll”:{“id”:”opkll”,”image”:””,”imageId”:””,”title”:”D.\tAirway management becomes less difficult as the child ages “}}}},”results”:{“ff8zj”:{“id”:”ff8zj”,”title”:””,”image”:””,”imageId”:””,”min”:”0″,”max”:”1″,”desc”:””,”redirect_url”:”https:\/\/pedsanesthesia.org\/wp-content\/uploads\/2023\/03\/Week-133-Mucopolysaccharidosis.pdf”}}}
Question of the Week #132
{“questions”:{“7psy4”:{“id”:”7psy4″,”mediaType”:”image”,”answerType”:”text”,”imageCredit”:””,”image”:””,”imageId”:””,”video”:””,”imagePlaceholder”:””,”imagePlaceholderId”:””,”title”:”Immediately following intubation, a patient develops increased peak airway pressures and wheezing on auscultation. What is the expected appearance of the capnogram during this event?”,”desc”:””,”hint”:””,”answers”:{“5ncen”:{“id”:”5ncen”,”image”:””,”imageId”:””,”title”:”A.\tA prolonged expiratory upstroke, loss of expiratory plateau, and prolonged inspiratory downstroke”},”cgyza”:{“id”:”cgyza”,”image”:””,”imageId”:””,”title”:”B.\tA normally shaped capnogram with an elevated inspiratory baseline”},”66lj7″:{“id”:”66lj7″,”image”:””,”imageId”:””,”title”:”C.\tA prolonged expiratory upstroke, loss of the expiratory plateau, and normal inspiratory downstroke”,”isCorrect”:”1″},”8k4zt”:{“id”:”8k4zt”,”image”:””,”imageId”:””,”title”:”D.\tA normally shaped capnogram with a cleft in the expiratory plateau “}}}},”results”:{“co5y2”:{“id”:”co5y2″,”title”:””,”image”:””,”imageId”:””,”min”:”0″,”max”:”1″,”desc”:””,”redirect_url”:”https:\/\/pedsanesthesia.org\/wp-content\/uploads\/2023\/03\/SPA-QOW-Posted-3-9-2023-132.pdf”}}}
Question of the Week #131
{“questions”:{“0p9wv”:{“id”:”0p9wv”,”mediaType”:”image”,”answerType”:”text”,”imageCredit”:””,”image”:””,”imageId”:””,”video”:””,”imagePlaceholder”:””,”imagePlaceholderId”:””,”title”:”To achieve the same level of sensory blockade, which of the following BEST describes the key differences in spinal anesthesia dosing in infants compared to adults? “,”desc”:””,”hint”:””,”answers”:{“2iqj9”:{“id”:”2iqj9″,”image”:””,”imageId”:””,”title”:”A.\tInfants require a lower weight-based dose of local anesthetic and have a longer expected duration of action. “},”z7oks”:{“id”:”z7oks”,”image”:””,”imageId”:””,”title”:”B.\tInfants require a lower weight-based dose of local anesthetic and have a shorter expected duration of action. “},”uzcxc”:{“id”:”uzcxc”,”image”:””,”imageId”:””,”title”:”C.\tInfants require a higher weight-based dose of local anesthetic and have a longer expected duration of action. “},”ki5lb”:{“id”:”ki5lb”,”image”:””,”imageId”:””,”title”:”D.\tInfants require a higher weight-based dose of local anesthetic and have a shorter expected duration of action.”,”isCorrect”:”1″}}}},”results”:{“elhfr”:{“id”:”elhfr”,”title”:””,”image”:””,”imageId”:””,”min”:”0″,”max”:”1″,”desc”:””,”redirect_url”:”https:\/\/pedsanesthesia.org\/wp-content\/uploads\/2023\/03\/Week-131-Central-Neuraxial-Blockade.pdf”}}}
Question of the Week #130
{“questions”:{“hglyh”:{“id”:”hglyh”,”mediaType”:”image”,”answerType”:”text”,”imageCredit”:””,”image”:””,”imageId”:””,”video”:””,”imagePlaceholder”:””,”imagePlaceholderId”:””,”title”:”Which of the following local anesthetics has properties that would MOST likely result in a slower onset of action but yield a long-lasting analgesic effect at lower concentrations?
\r\n\r\n“,”desc”:””,”hint”:””,”answers”:{“0jihk”:{“id”:”0jihk”,”image”:””,”imageId”:””,”title”:”A. “},”cse7t”:{“id”:”cse7t”,”image”:””,”imageId”:””,”title”:”B. “},”yyfz9”:{“id”:”yyfz9″,”image”:””,”imageId”:””,”title”:”C. “,”isCorrect”:”1″},”nql5v”:{“id”:”nql5v”,”image”:””,”imageId”:””,”title”:”D. “}}}},”results”:{“f95vm”:{“id”:”f95vm”,”title”:””,”image”:””,”imageId”:””,”min”:”0″,”max”:”1″,”desc”:””,”redirect_url”:”https:\/\/pedsanesthesia.org\/wp-content\/uploads\/2023\/02\/Week-130-Local-Anesthetic-Pharmacology.pdf”}}}
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