The Aftermath of Zika: Need for Long-Term Monitoring of Exposed Children.

Pregnancy infections with Zika virus are associated with a spectrum of fetal brain injuries beyond microcephaly. Nonmicrocephalic children exposed to Zika virus in utero or early life should undergo neurodevelopmental testing to identify deficits and allow for early intervention. Additionally, long-term monitoring for higher order neurocognitive deficits should be implemented.

Testing for Zika virus infection in pregnancy: key concepts to deal with an emerging epidemic.

Zika virus is an emerging mosquito-borne (Aedes genus) arbovirus of the Flaviviridae family. Following epidemics in Micronesia and French Polynesia during the past decade, more recent Zika virus infection outbreaks were first reported in South America as early as May 2013 and spread to now 50 countries throughout the Americas. Although no other flavivirus has previously been known to cause major fetal malformations following perinatal infection, reports of a causal link between Zika virus and microcephaly, brain and ocular malformations, and fetal loss emerged from hard-hit regions of Brazil by October 2015. Among the minority of infected women with symptoms, clinical manifestations of Zika virus infection may include fever, headache, arthralgia, myalgia, and maculopapular rash; however, only 1 of every 4-5 people who are infected have any symptoms. Thus, clinical symptom reporting is an ineffective screening tool for the relative risk assessment of Zika virus infection in the majority of patients. As previously occurred with other largely asymptomatic viral infections posing perinatal transmission risk (such as HIV or cytomegalovirus), we must develop and implement rapid, sensitive, and specific screening and diagnostic testing for both viral detection and estimation of timing of exposure. Unfortunately, despite an unprecedented surge in attempts to rapidly advance perinatal clinical testing for a previously obscure arbovirus, there are several ongoing hindrances to molecular- and sonographic-based screening and diagnosis of congenital Zika virus infection. These include the following: (1) difficulty in estimating the timing of exposure for women living in endemic areas and thus limited interpretability of immunoglobulin M serologies; (2) cross-reaction of immunoglobulin serologies with other endemic flaviruses, such as dengue; (3) persistent viremia and viruria in pregnancy weeks to months after primary exposure; and (4) fetal brain malformations and anomalies preceding the sonographic detection of microcephaly. In this commentary, we discuss screening and diagnostic considerations that are grounded not only in the realities of current obstetrical practice in a largely global population but also in basic immunology and virology. We review recent epidemiological data pertaining to the risk of congenital Zika virus malformations based on trimester of exposure and consider side by side with emerging data demonstrating replication of Zika virus in placental and fetal tissue throughout gestation. We discuss limitations to ultrasound based strategies that rely largely or solely on the detection of microcephaly and provide alternative neurosonographic approaches for the detection of malformations that may precede or occur independent of a small head circumference. This expert review provides information that is of value for the following: (1) obstetrician, maternal-fetal medicine specialist, midwife, patient, and family in cases of suspected Zika virus infection; (2) review of the methodology for laboratory testing to explore the presence of the virus and the immune response; (3) ultrasound-based assessment of the fetus suspected to be exposed to Zika virus with particular emphasis on the central nervous system; and (4) identification of areas ready for development.

Plasmodium falciparum infection among neonates in the North Central region of Nigeria.

INTRODUCTION: This cross-sectional study investigated the rate of congenital and neonatal malaria infections in patients attending our hospital. METHODOLOGY: Thick and thin blood films of 288 neonates admitted in the Special Care Baby Unit of Jos University Teaching Hospital, Nigeria, were examined microscopically for malaria parasites. Babies' and mothers' demographic and clinical data were analyzed. RESULTS: Of 288 blood samples examined, 160 (55.6%) were from males, 115 (39.9%) were from babies 0 to 7 days old, and 173 (60.1%) were from babies 8 to 28 days old. In total, 91 (31.6%) babies had malaria parasitaemia, of whom 49 (53.8%) were males. Malaria was significantly higher in babies 8 to 28 days old (p < 0.001) and was independent of gender (p=0.692). Prevalence rates for congenital and neonatal malaria were 6.9% and 24.7% respectively. Clinical presentations on admission included fever, cough, pallor, jaundice, and inability to suck. A total of 145 (50.3%) babies had symptoms of malaria, of whom 56 (61.5%) had malaria parasitaemia. Symptoms of malaria were present in 35 (12.2%) babies of 59 (20.5%) mothers who had symptoms of malaria during pregnancy. Ten (11.0%) of these neonates had malaria parasitaemia, of whom 4 (0.4%) were 0 to -7 days old. Plasmodium falciparum was the only specie identified. No mortality was recorded against malaria-infected babies. CONCLUSION: High prevalence of malaria in these neonates calls for high index of suspicion. Inclusion of malaria parasite test in the routine battery of tests for babies presenting with clinical signs and symptoms of neonatal infections is recommended.

Prevention of nosocomial infections and surveillance of emerging resistances in NICU.

Neonates hospitalized in NICU are at risk for healthcare associated infections because of their poor immune defenses, related to gestational age, colonization of mucous membranes and skin with nosocomial microorganisms, exposure to antibiotics, invasive procedures and frequent contacts with healthcare workers (HCWs). Healthcare associated infections are the major source of morbidity and mortality in NICU in the developed world. Most infections are caused by Gram-positive organisms, fulminant sepsis are often associated to Gram-negative organisms, fungal sepsis occurs frequently in ELBW infants. Hand hygiene is the most important preventive procedure, nevertheless hand hygiene compliance among HCWs remains low. Continuous educational strategies can improve hand hygiene and contribute to reducing the incidence of neonatal infections. Other important prevention strategies include early enteral feeding with human milk, minimization and safety in the use of invasive devices, limiting unnecessary empiric broadspectrum antibiotics, eventual use of lactoferrin bifidobacteria and lactobacilli, prophylactic administration of fluconazole in VLBW. Emergence of multi drug resistant organisms (MDRO) is a worrying perspective. Methicillin-resistant Staphylococcus aureus (MRSA) is an important healthcare-associated pathogen. Active surveillance culturing for MRSA carriers, in combination with contact precautions and decolonization in some hyperendemic settings, has been proved to reduce MRSA transmission and infection rates. Multidrug-resistant Gram-negatives are frequently reported. Overuse of antimicrobial drugs and crosstransmission via caregiver hands, contaminated equipment or inanimate objects are the major drivers of selection and dissemination. Strategies to control outbreaks of MDRO colonization/infection in the NICU may include performing hand hygiene, cohorting and isolating patients, screening healthcare workers and performing admission and periodic surveillance cultures.

Congenital transmission of Chagas disease in Latin American immigrants in Switzerland.

International migration has changed the epidemiologic patterns of Chagas disease. Recently, 2 cases of Chagas disease transmitted from Latin American women to their newborns were diagnosed in Geneva, Switzerland. A retrospective study to detect Chagas disease showed a prevalence of 9.7% among 72 Latin American women tested during pregnancy in Switzerland.