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Objectives: To evaluate the antibiotic resistance pattern, clinical profile and predictors for adverse outcomes in children hospitalized due to staphylococcal infection; and the frequency of nasal and axillary carrier states in these children. Methods: This descriptive study enrolled 100 symptomatic children (aged 1 month - 12 years) in whom S. aureus was isolated from cultures of blood, pus or cerebrospinal fluid. All samples were processed as per the Clinical and Laboratory Standards Institute (CLSI) standards. Antimicrobial susceptibility was tested using disc diffusion method; minimum inhibitory concentration (MIC) for vancomycin was measured using E strips. Predictors for poor recovery were determined by univariate and multivariable logistic regression analysis. Results: Skin and soft tissue infections were the most common (47%) followed by respiratory infections (37%). Methicillin-resistant Staphylococcus aureus (MRSA) was detected in 62%, out of which 63% (39/62) were multi-drug resistant. Carrier state was present in 49% (93% MRSA); 80% were axillary carriers. High MIC (>1 µg/mL) for vancomycin was seen in 65% of patients, and was the only factor associated with poor recovery [aOR (95%CI) 5.3 (1.6,18.5); P=0.008] on multivariable logistic regression analysis. Conclusion: MRSA is the predominant strain in severe staphylococcal infections requiring hospitalization, and majority of them are multidrug resistant. High MIC to vancomycin among S. aureus is an emerging concern.
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Background: Lack of pediatric triage and emergency care system in peripheral healthcare centers leads to unnecessary referral of low- and medium?risk patients. This study was conducted to study the risk factors predicting mortality within 48 h of admission in neonates and under?five children referred to the pediatric emergency of a tertiary care hospital in India. Methods: This prospective study was conducted on children (0–5 years) referred to the pediatric emergency who were enrolled and followed up. The outcome was defined as “survival” or “death” at 48 hours. Logistic regression analysis was conducted to assess the predictors of early in?hospital mortality. Results: A total of 246 consecutive pediatric (62 neonates, 52 young infants, and 132 children aged 1–5 years) referral cases were enrolled; mortality within 48 hours was 20%. Lack of pediatric intensive care (odds ratio [OR] 4.07, 95% confidence interval [CI] 2.0, 8.32, P = 0.02), lack of neonatal intensive care (OR 2.10, 95% CI 1.01,4.28, P ? 0.001), distance from referral center >20 km (OR 4.61, 95% CI 2.01, 10.58, P = 0.0003), >1 h taken during transport (OR 7.75, 95% CI 2.93, 20.46, P < 0.001), lack of ambulance facility (OR 0.04, 95% CI 0.009, 0.143, P < 0.0001), very sick condition on arrival (OR 210.1, 95% CI 12.1, 3643.41, P = 0.0002), and unstable temperature?oxygenation?perfusion?sugar on arrival were the independent risk factors predicting in early in-hospital mortality. Conclusion: Developing a pediatric triage and monitoring system, tele-pediatric intensive care unit, regionalizing referral-back-referral services with robust interhospital communication, and strengthening pediatric emergency services are the need of the hour to reduce early in-hospital mortality
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Justification: In view of easy availability and increasing trend of consumption of fast foods and sugar sweetened beverages (fruit juicesand drinks, carbonated drinks, energy drinks) in Indian children, and their association with increasing obesity and related non-communicable diseases, there is a need to develop guidelines related to consumption of foods and drinks that have the potential toincrease this problem in children and adolescents. Objectives: To review the evidence and formulate consensus statements related toterminology, magnitude of problem and possible ill effects of junk foods, fast foods, sugar-sweetened beverages and carbonated drinks;and to formulate recommendations for limiting consumption of these foods and beverages in Indian children and adolescents. Process:A National Consultative group constituted by the Nutrition Chapter of the Indian Academy of Pediatrics (IAP), consisting of variousstakeholders in private and public sector, reviewed the literature and existing guidelines and policy regulations. Detailed review ofliterature was circulated to the members, and the Group met on 11th March 2019 at New Delhi for a day-long deliberation on framing theguidelines. The consensus statements and recommendations formulated by the Group were circulated to the participants and aconsensus document was finalized. Conclusions: The Group suggests a new acronym ‘JUNCS’ foods, to cover a wide variety ofconcepts related to unhealthy foods (Junk foods, Ultra-processed foods, Nutritionally inappropriate foods, Caffeinated/colored/carbonated foods/beverages, and Sugar-sweetened beverages). The Group concludes that consumption of these foods and beveragesis associated with higher free sugar and energy intake; and is associated with higher body mass index (and possibly with adversecardiometabolic consequences) in children and adolescents. Intake of caffeinated drinks may be associated with cardiac and sleepdisturbances. The Group recommends avoiding consumption of the JUNCS by all children and adolescents as far as possible and limittheir consumption to not more than one serving per week. The Group recommends intake of regional and seasonal whole fruits over fruitjuices in children and adolescents, and advises no fruit juices/drinks to infants and young children (age <2 y), whereas for children aged 2-5 y and >5-18 y, their intake should be limited to 125 mL/day and 250 mL/day, respectively. The Group recommends that caffeinatedenergy drinks should not be consumed by children and adolescents. The Group supports recommendations of ban on sale of JUNCSfoods in school canteens and in near vicinity, and suggests efforts to ensure availability and affordability of healthy snacks and foods. TheGroup supports traffic light coding of food available in school canteens and recommends legal ban of screen/print/digital advertisementsof all the JUNCS foods for channels/magazines/websites/social media catering to children and adolescents. The Group further suggestscommunication, marketing and policy/taxation strategies to promote consumption of healthy foods, and limit availability and consumptionof the JUNCS foods
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After seeing one’s manuscript in the print form in a journal, the author feels a sense of elation which is indescribable. However, if one reallywant peers and other researchers to take note of the work, some more effort is needed. With the massive increase in the number ofbiomedical journals in print – supplemented by another large chunk online – quite a few published papers remain unread by majority of thereaders. The availability of social sites, persistent identifiers, and manuscript-sharing sites has simplified the job of increasing the impactof an article. We herein share some of these tricks-of-the-trade
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Plasma homocysteine (9.05 ± 4.78 vs 5.93 ± 1.46μmol/L, P<0.01), plasma fibrinogen (313.76 ± 80.02 vs 275.47 ± 53.77 mg/dL, P<0.01), serum total cholesterol (171.64 ± 35.48 vs 152.62 ± 25.40 mg/dL, P<0.01), serum LDL cholesterol (109.51 ± 36.93 vs 87.6 ± 21.6 mg/dL, P<0.01) and fasting blood sugar (99.89 ± 17.46 vs 90.29 ± 9.85 mg/ dL, P<0.01) were significantly higher in children (n=45) of young adults (≤45 y) with coronary artery disease as compared to control group (n=45). No significant correlation was found for plasma homocysteine level of children with that of their parents in either group, whereas significant correlation was found for plasma fibrinogen of children with their parents in both the groups.