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Pediatric Medicine (pediatric + medicine)
Selected AbstractsIntegrating pediatric hospitalists in the academic health science center: Practice and perceptions in a canadian center,,JOURNAL OF HOSPITAL MEDICINE, Issue 4 2010FRCPC, Sanjay Mahant MD Abstract BACKGROUND: The integration of hospitalists in academic settings has been identified as a challenge to the hospitalist movement. The Division of Pediatric Medicine, Hospital for Sick Children, Toronto, was established in 1981, providing a rich resource to examine this field in the academic context and inform academic program development. OBJECTIVES: To explore the characteristics, practice, perceptions, and contributions of pediatric hospital medicine in an academic health science center (AHSC). METHODS: A cross-sectional survey of physicians attending on the pediatric medicine inpatient unit (PMIU) (n = 20). RESULTS: Clinical activity included attending on the PMIU, consultation and comanagement outside the PMIU, and outpatient care of "hospital intense" patients. There was a high level of engagement in research, education, and quality improvement activities. Perceived advantages to a career as a hospitalist included: working in a team; generalist approach to care; stability relative to community practice; intellectually stimulating and rewarding work; and growing area for scholarship. Perceived disadvantages to a career as a hospitalist included: burnout; recognition and respect; and lack of long-term relationships with patients. Themes regarding barriers to establishing a career as a hospitalist in an AHSC were as follows: burnout; time and skills to develop an academic niche; balance between clinical and academic priorities; and system for career advancement. CONCLUSIONS: The contributions of pediatric hospitalists to the academic mission were diverse. Fellowship training, faculty development, and balance between time allocated to direct patient care and academic pursuits should be defined. This will help ensure career development, viability, and realization of excellence in the academic context. Journal of Hospital Medicine 2010;5:228,233. © 2010 Society of Hospital Medicine. [source] Congenital Cardiovascular Disease in Turner SyndromeCONGENITAL HEART DISEASE, Issue 1 2008Carolyn A. Bondy MD ABSTRACT Turner syndrome (TS), or monosomy X, occurs in ,1/2000 live born females. Intelligence is normal and short stature is the most obvious and consistent feature of the syndrome. Congenital cardiovascular disease affects ,50% of individuals and is the major cause of premature mortality in adults. Unfortunately, this most important aspect of the syndrome has received little attention outside of pediatric medicine, and adult cardiological follow-up is seriously lacking. This review describes the spectrum of cardiovascular defects with particular attention to identifying risk factors for aortic dissection/rupture. X-chromosome genetic pathways implicated in Turner cardiovascular disease, including premature coronary artery disease, are discussed. Recent guidelines for diagnosis and treatment of girls and women with TS are reviewed. [source] The Italian registry of pediatric therapeutic apheresis: A report on activity during 2005JOURNAL OF CLINICAL APHERESIS, Issue 1 2009Giustina De Silvestro Abstract The results of the 2005 Survey of the Italian Society for Apheresis and Cell Manipulation (SIdEM) reporting on the pediatric procedures carried out in 18 Italian Apheresis Units are presented here. Utilizing a standardized questionnaire, the survey collected data on techniques, types of blood separators, clinical indications, and adverse events. A total of 1,693 apheresis procedures were carried out in 355 pediatric patients: 219 plasma-exchange, 291 peripheral blood stem cell collections, 791 extracorporeal photochemotherapy (ECP), 265 LDL-apheresis, 71 erythro-exchange, 9 cytoreductive apheresis, 47 immunoadsorption sessions. Adverse events were registered in 94 procedures (5.6%), most of which of mild entity, e.g., insufficient flow rate (50.0%) and symptomatic hypocalcemia (24.4%). Our data indicate that all types of apheresis procedures can be safely carried out in children. ECP, utilized primarily for the treatment of graft versus host disease (GvHD) and rejection of solid organ transplantation, are burgeoning procedures in pediatric patients, whereas plasma exchange, which is a common treatment in adults, is infrequently utilized in pediatric medicine. J. Clin. Apheresis, 2009. © 2008 Wiley-Liss, Inc. [source] Pressure-rate product and phase angle as measures of acute inspiratory upper airway obstruction in rhesus monkeysPEDIATRIC PULMONOLOGY, Issue 7 2010FAAP, Patrick A. Ross MD Abstract Rationale There are limited validated, objective, and minimally invasive techniques for the bedside evaluation of upper airway obstruction (UAO) in sick infants, despite its frequency in pediatric medicine. Prior techniques include pressure-rate product (PRP), a product of esophageal pressure and respiratory rate and phase angles (PAs), a measure of asynchrony between ribcage and abdominal respiratory movements in infants with UAO. The purpose of this study is to validate the PRP and compare it to a previously validated PA in rhesus monkeys. Methods Calibrated resistors were applied to the inspiratory limb of 10 anesthetized, intubated, and spontaneously breathing rhesus monkeys (weight 8.7,±,2.5,kg). Airway pressure, respiratory rate, PAs, heart rate, and oxygen saturation were recorded. Obstruction was applied in random order as 0, 5, 20, 200, 500, and 1,000,cmH2O/L/sec for 2-min periods, the last 15,sec (10,20 breaths) were analyzed for each timeframe. Results PA increased significantly at the 200,cmH2O/L/sec level but it reached a plateau above 500,cmH2O/L/sec. PRP rose progressively and was significantly different at all levels of obstruction. Esophageal pressure change was progressively and statistically significantly different from baseline and each other at 200, 500, and 1,000,cmH2O/L/sec (P,<,0.001). Conclusions In this model of UAO, PRP tracks increasing inspiratory load better than PA. PRP continued to be linear up through the highest inspiratory resistance where the change in PA reached a plateau before the highest load. The assessment of esophageal pressure changes may offer the simplest objective measure of UAO. Pediatr Pulmonol. 2010; 45:639,644. © 2010 Wiley-Liss, Inc. [source] Probiotics in pediatric medicine.ACTA PAEDIATRICA, Issue 8 2009Series: nutrition, health No abstract is available for this article. [source] | ||||||||||