2016 Update of the Italian Pediatric Society Guidelines for Management of Fever in Children.

OBJECTIVE: To review new scientific evidence to update the Italian guidelines for managing fever in children as drafted by the panel of the Italian Pediatric Society. STUDY DESIGN: Relevant publications in English and Italian were identified through search of MEDLINE and the Cochrane Database of Systematic Reviews from May 2012 to November 2015. RESULTS: Previous recommendations are substantially reaffirmed. Antipyretics should be administered with the purpose to control the child's discomfort. Antipyretics should be administered orally; rectal administration is discouraged except in the setting of vomiting. Combined use of paracetamol and ibuprofen is discouraged, considering risk and benefit. Antipyretics are not recommended preemptively to reduce the incidence of fever and local reactions in children undergoing vaccination, or in attempt to prevent febrile convulsions in children. Ibuprofen and paracetamol are not contraindicated in children who are febrile with asthma, with the exception of known cases of paracetamol- or nonsteroidal anti-inflammatory drug-induced asthma. CONCLUSIONS: Recent medical literature leads to reaffirmation of previous recommendations for use of antipyretics in children who are febrile.

Epilepsy and vaccinations: Italian guidelines.

Reports of childhood epilepsies in temporal association with vaccination have had a great impact on the acceptance of vaccination programs by health care providers, but little is known about this possible temporal association and about the types of seizures following vaccinations. For these reasons the Italian League Against Epilepsy (LICE), in collaboration with other Italian scientific societies, has decided to generate Guidelines on Vaccinations and Epilepsy. The aim of Guidelines on Vaccinations and Epilepsy is to present recent unequivocal evidence from published reports on the possible relationship between vaccines and epilepsy in order to provide information about contraindications and risks of vaccinations in patients with epilepsy. The following main issues have been addressed: (1) whether contraindications to vaccinations exist in patients with febrile convulsions, epilepsy, and/or epileptic encephalopathies; and (2) whether any vaccinations can cause febrile seizures, epilepsy, and/or epileptic encephalopathies. Diphtheria-tetanus-pertussis (DTP) vaccination and measles, mumps, and rubella vaccination (MMR) increase significantly the risk of febrile seizures. Recent observations and data about the relationships between vaccination and epileptic encephalopathy show that some cases of apparent vaccine-induced encephalopathy could in fact be caused by an inherent genetic defect with no causal relationship with vaccination.

Performance of non-contact infrared thermometer for detecting febrile children in hospital and ambulatory settings.

AIMS: To assess the performance of the non-contact infrared thermometer compared with mercury-in-glass thermometer in children; to assess the diagnostic accuracy of non-contact infrared thermometer for detecting children with fever; to compare the discomfort caused by the two procedures in children aged > one month. BACKGROUND: Non-contact infrared thermometer is a quick and non-invasive method to measure body temperature, not requiring sterilisation or disposables. It is a candidate for temperature recording in children. DESIGN: Prospective multicenter study. METHODS: Body temperature readings were taken from every child consecutively admitted to the Pediatric Emergency Departments or Pediatric Clinics participating in the study. Two bilateral axillary temperature measurements using the mercury-in-glass thermometers and three mid-forehead temperature measurements using the non-contact infrared thermometer were performed. RESULTS: Two hundred and fifty-one children were enrolled in the study. Mean body temperature obtained by mercury-in-glass thermometer and non-contact infrared thermometer was 37.18 (SD 0.96) °C and 37.30 (SD 0.92) °C, respectively (p = 0.153). Non-contact infrared thermometer clinical repeatability was 0.108 (SD 0.095) °C, similar to that of the mercury-in-glass thermometer (0.11 SD 01 °C; p = 0.517). Bias was 0.0150 (SD 0.09) °C. The proportion of outliers >1 °C was 4/251 children (1.59%). A significant correlation between temperature values obtained with the two procedures was observed (r(2) = 0.84; p < 0.0001). The limits of agreement, by the Bland and Altman method, were -0.62 (95% CI: -0.47 to -0.67) and 0.76 (95% CI: 0.61-0.91). No significant correlation was evidenced between the difference of the body temperature values recorded by the two methods and age (p = 0.226), or room temperature (p = 0.756). Calculating the receiver operating characteristic curve to determine the best threshold for axillary temperature >38.0 °C, for a non-contact infrared thermometer temperature = 37.98 °C the sensitivity was 88.7% and the specificity 89.9%. Mean distress score (on a 5-point scale) was significantly lower using the non-contact infrared thermometer than using the mercury-in-glass thermometer (1.92 SD 0.56 and 2.40 SD0.93, respectively; p < 0.0001). CONCLUSION: Non-contact infrared thermometer showed a good performance in our study population, has the advantage of measuring body temperature in two seconds and is comfortable for children. RELEVANCE TO CLINICAL PRACTICE: Non-contact infrared thermometer may be taken into consideration when assessing body temperature in children aged > one month in hospital or ambulatory.

Pediatric emergency room activities in Italy: a national survey.

BACKGROUND: In Italy, the number of accesses to the Emergency Units has been growing for the past 30 years. This, together with a low coordination between hospital and peripheral pediatric services, has brought to an unnecessarily high number of hospital admissions. For this reason, it is essential to plan and implement strategies able to improve the appropriateness of hospital admissions. In the '90s, the Short Stay Observation was extended to pediatric patients. As highlighted by the report "Guidelines for Pediatric Observation Units" (2005), patients receive considerable benefits from a short hospital permanence. The purpose of the study is to report data about the Pediatric Emergency Room activities in Italy. METHODS: In 2011, the Italian Society of Pediatrics promoted an online data collection to investigate organization and activity of Italian Pediatric and Neonatal Units. A form, containing 140 questions, was sent to 624 Pediatric and Neonatology Units. This study will be focused only on data regarding pediatric Emergency Rooms (E.R.) and Observation Units. RESULTS: 237 units replied, 183 if we focus on units with pediatric inpatient service. Based on the results, E.R Units were provided with a dedicated pediatrician in 56 % of the cases: of these, 85 % for 24 h. The majority of the patients were seen by a pediatrician. In only 8 % of the units, patients visited by a pediatrician were less than 40 %. The age limit was 14 years in 60 % of the cases. In 72 % of participating units a E.R. triage was carried out. Only 18 % of units registered more than 10000 E.R. visits/year. The percentage of children hospitalized after accessing the E.R. was significantly higher in southern regions (more than 20 % of the units hospitalized more than 40 % of children entering the E.R.). 66 % of the units were provided with an Observation Unit. In 61 % of the cases, the duration did not exceed 24 h. In more than half of the structures, less than 10 % of the E.R. visits went into observation. The type of remuneration was not homogeneous. CONCLUSIONS: The study highlights the heterogeneity of the Italian reality, with great possibilities for improvement, especially in southern regions.

In-hospital management of children with bacterial meningitis in Italy.

BACKGROUND: Over the years 2009-2013, we conducted a prospective study within a network established by the Italian Society of Pediatrics to describe the in-hospital management of children hospitalized for acute bacterial meningitis in 19 Italian hospitals with pediatric wards. METHODS: Hospital adherence to the study was voluntary; data were derived from clinical records. Information included demographic data, dates of onset of first symptoms, hospitalization and discharge; diagnostic evaluation; etiology; antimicrobial treatment; treatment with dexamethasone; in-hospital complications; neurological sequelae and status at hospital discharge. Characteristics of in-hospital management of patients were described by causative agent. RESULTS: Eighty-five patients were identified; 49.4% had received an antimicrobial treatment prior to admission. Forty percent of patients were transferred from other Centers; the indication to seek for hospital care was given by the primary care pediatrician in 80% of other children. Etiological agent was confirmed in 65.9% of cases; the most common infectious organism was Neisseria meningitidis (34.1%), followed by Streptococcus pneumoniae (20%). Patients with pneumococcal meningitis had a significant longer interval between onset of first symptoms and hospital admission. Median interval between the physician suspicion of meningitis and in-hospital first antimicrobial dose was 1 hour (interquartile range [IQR]: 1-2 hours). Corticosteroids were given to 63.5% of cases independently of etiology; 63.0% of treated patients received dexamethasone within 1 hour of antibiotic treatment, and 41.2% were treated for ≤4 days. Twenty-nine patients reported at least one in-hospital complication (34.1%). Six patients had neurological sequelae at discharge (7.1%). No deaths were observed. CONCLUSIONS: We observed a rate of meningitis sequelae at discharge similar to that reported by other western countries. Timely assistance and early treatment could have contributed to the favorable outcome that was observed in the majority of cases. Adherence to recommendation for corticosteroid adjunctive therapy seems suboptimal, and should be investigated in further studies. Most meningitis cases were due to N. meningitidis and S. pneumoniae. Reaching and maintaining adequate vaccination coverage against pneumococcal and meningococcal invasive infections remains a priority to prevent bacterial meningitis cases.

Update of the 2009 Italian Pediatric Society Guidelines about management of fever in children.

BACKGROUND: In 2009, the Italian Pediatric Society developed national guidelines for management of fever in children for health care providers and parents/caregivers; an update of these guidelines was scheduled after 2 years. OBJECTIVE: This article summarizes the update of Italian guidelines on managing fever in children, focusing specifically on measuring body temperature and using antipyretic agents. METHODS: Relevant publications in English and Italian were identified through searches of MEDLINE and the Cochrane Database of Systematic Reviews from January 1, 2008, to May 1, 2012. On the basis of consensus of a multidisciplinary expert panel, evidence levels and strength of recommendations were reviewed. RESULTS: Axillary temperature measurement using a digital thermometer is recommended in children younger than 4 weeks. In the hospital or ambulatory care setting, axillary temperature measurement using a digital or infrared thermometer (tympanic or skin contact or nocontact) is recommended in children older than 4 weeks. Paracetamol and ibuprofen are the only antipyretic drugs recommended for use in children; however, combined or alternating use of these agents is not recommended. CONCLUSIONS: Recent scientific evidence mainly supports previous recommendations. The aim of the present article was to support pediatric knowledge and stimulate application of guidelines in daily clinical practice.

Acute otitis media: From diagnosis to prevention. Summary of the Italian guideline.

Acute otitis media (AOM) is the most common disease occurring in infants and children and has major medical, social and economic effects. If we consider the Italian pediatric population and the incidence rates in different age ranges it can be calculated that almost one million cases of AOM are diagnosed in Italy every year. Various attempts have been made internationally to clarify the most appropriate ways in which AOM should be managed. In Italy, this has been done at local or regional level but there have so far been no national initiatives. The objective of this guideline is to provide recommendations to pediatricians, general practitioners and otolaryngologists involved in the clinical management of acute otitis media in healthy children aged 2 months to 12 years. After a systematic review and grading of evidences from the literature, the document was drafted by a multidisciplinary panel with identified key clinical questions related to diagnosis, treatment of the acute episode, management of complications and prevention.

Management of fever in children: summary of the Italian Pediatric Society guidelines.

OBJECTIVE: This article summarizes the Italian Pediatric Society guideline on the management of the signs and symptoms of fever in children, prepared as part of the National Guideline Program (NGLP). METHODS: Relevant publications in English and Italian were identified through searches of MEDLINE and the Cochrane Database of Systematic Reviews from their inception through December 31, 2007. Based on the consensus of a multidisciplinary expert panel, the strength of the recommendations was categorized into 5 grades (A-E) according to NGLP methodology. SUMMARY: In the health care setting, axillary measurement of body temperature using a digital thermometer is recommended in children aged <4 weeks; for children aged > or =4 weeks, axillary measurement using a digital thermometer or tympanic measurement using an infrared thermometer is recommended. When body temperature is measured at home by parents or care-givers, axillary measurement using a digital thermometer is recommended for all children. Children who are afebrile when seen by the clinician but are reported to have had fever by their caregivers should be considered febrile. In special circumstances, high fever may be a predictive factor for severe bacterial infection. Use of physical methods of reducing fever is discouraged, except in the case of hyperthermia. Use of antipyretics-paracetamol (acetaminophen) or ibuprofen-is recommended only when fever is associated with discomfort. Combined or alternating use of antipyretics is discouraged. The dose of antipyretic should be based on the child's weight rather than age. Whenever possible, oral administration of paracetamol is preferable to rectal administration. Use of ibuprofen is not recommended in febrile children with chickenpox or dehydration. Use of ibuprofen or paracetamol is not contraindicated in febrile children with asthma. There is insufficient evidence to form any recommendations concerning fever in children with other chronic conditions, but caution is advised in cases of severe hepatic/renal failure or severe malnutrition. Newborns with fever should always be hospitalized because of the elevated risk of severe disease; paracetamol may be used, with the dose adjusted to gestational age. Use of paracetamol or ibuprofen is not effective in preventing febrile convulsion or the adverse effects of vaccines.