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01.12.2014 | Case report | Ausgabe 1/2014 Open Access

Journal of Medical Case Reports 1/2014

First report of a Chinese strain of coxsackie B3 virus infection in a newborn in Germany in 2011: a case report

Journal of Medical Case Reports > Ausgabe 1/2014
Sebastian Ronellenfitsch, Julia Tabatabai, Sindy Böttcher, Sabine Diedrich, David Frommhold, Susanne Schubert-Bast, Johannes Poeschl, Paul Schnitzler
Wichtige Hinweise

Electronic supplementary material

The online version of this article (doi:10.​1186/​1752-1947-8-164) contains supplementary material, which is available to authorized users.

Competing interests

The authors declare that they have no competing interests.

Authors’ contributions

SR, DF, SSB and JP analyzed and interpreted the patient data regarding enterovirus infection. SB and SD performed sequence analysis and sequence comparison. SR, JT and PS wrote the manuscript. All authors read and approved the final manuscript.
Cerebrospinal fluid
Coxsackievirus B3
Magnetic resonance imaging
Polymerase chain reaction
Ribonucleic acid.


Enteroviruses commonly infect children, with syndromes ranging from asymptomatic infection and benign illness, aseptic meningitis, to severe life-threatening disease[1]. Some newborns develop severe disease in the first 2 weeks of life and long-term sequelae may occur among survivors. Risk factors and clinical features associated with severe disease involve early onset of illness within the first few days of life[2]. Enteroviruses include more than 260 different types of pathogens including polioviruses, echoviruses, coxsackieviruses and rhinoviruses. Illness encompasses a wide spectrum of symptoms from mild fever to upper respiratory tract infections, rash, aseptic meningitis, severe myocarditis, encephalitis, and paralytic disorders. Enteroviruses are transmitted primarily via a fecal-oral route and respiratory aerosols[3]. Coxsackie A viruses have been associated with mild clinical symptoms such as flu-like illness and meningitis and hand-foot-and-mouth disease. By contrast, coxsackie B viruses may cause pancreatitis, hepatitis, aseptic meningitis, myocarditis/pericarditis, and type 1 diabetes as well as neonatal sepsis[46]. In 2006, six neonates with enteroviral meningoencephalitis were described[7]. Five babies presented with prolonged seizures, and one presented with systemic enteroviral disease. Cranial ultrasonography showed increased echogenicity in the periventricular white matter, and magnetic resonance imaging (MRI) confirmed mild to severe white matter damage in all babies. Recent case reports describe a full-term neonate with coxsackie B2 infection presenting with meningoencephalitis with seizures, and lesions in the white matter, and a fatal case of newborn coxsackie B1 virus infection with apnoeic episodes and desaturations[8, 9]. In these cases, an electroencephalogram (EEG) revealed multifocal epileptiform discharges, and a cranial MRI showed multiple lesions, respectively.

Case presentation

We report here a full-term Caucasian newborn boy, who was delivered by Caesarean section at 38 weeks of gestation in 2011. Within the last weeks of a previously unremarkable pregnancy, his mother showed signs of infection. His 2-year-old sister presented with a common cold within the week of his birth. On the first day postpartum he showed a macular exanthema on his trunk and face. On day 5 postpartum, he showed a decline in his general condition and phases of severe apnea. Hence, he was admitted to a neonatal intensive care unit. Positive airway pressure ventilation was performed for a period of 24 hours followed by spontaneous breathing of the neonate. Broad spectrum antibiotic therapy including gentamicin and ampicillin was started.
In the course of treatment, he showed signs of partial seizures and an EEG performed on day 7 postpartum indicated a severe pathologic pattern with theta-delta-rhythm and spike-wave complexes on both hemispheres. An intermitted burst-suppression pattern was detected in slow sleep and levetiracetam therapy was initiated. Follow-up EEGs continued to show multifocal spike-wave complexes and burst-suppression. A neurological examination showed a severe muscle hypotonia but no signs of focal neurological deficits. A cardiorespirogram revealed central apnea with desaturations and bradycardias. Due to the clinical picture of encephalitis, a lumbar puncture was performed, showing an elevation of his cell count (29 leucocytes/μL) and protein level (1140g/L). Cerebrospinal fluid (CSF) bacterial cultures were sterile and antibiotic treatment was stopped accordingly. Epstein–Barr virus and herpes simplex virus were not detected in his CSF, but enterovirus ribonucleic acid (RNA) was positive by polymerase chain reaction (PCR). The genetic relationship of the virus was revealed by sequencing the VP1 gene. This analysis showed that this virus isolate is closely related to coxsackievirus B3 (CV-B3) detected in China in 2008 and belonged to D2 genogroup (Figure 1). The accession number of our isolate 11-859-10 is KJ400861. Retrospectively, all available blood and urine samples were analyzed for enterovirus RNA. In two urine samples and in several serum samples up to week 6 postpartum, enterovirus RNA was still detectable indicating a generalized enterovirus infection with prolonged viremia.
The patient’s seizures ceased rapidly after initiation of levetiracetam medication. A cranial MRI on day 5 revealed a deficiency of white matter with subsequent ventriculomegaly which decreased but was still observed in a follow-up MRI at the age of 3 months. During the further course of treatment anti-convulsive therapy could be stopped since the following EEGs revealed a gradual improvement with cessation of epilepsy typical potentials. Nevertheless, he still showed muscle hypotonia at the age of 1 year.


Perinatal acquired enterovirus infections may lead to severe disease such as meningitis or encephalitis. Recently, two cases of neonatal enterovirus meningitis were reported and etiologically the parents probably transmitted the infection during rooming-in[10]. Severe disease has been described with infection in the first 2 weeks of life and preceding maternal illness peripartum[11]. In the case presented here, maternal infection as well as previous mild respiratory illness in the neonate’s sister preceding the baby’s disease indicates either prenatal or horizontal postnatal transmission.
Central nervous system disease in babies can cause significant long-term morbidity including cerebral palsy and seizures[2, 12]. Hypoxia or circulatory compromise as cause for the baby’s neurological state could be excluded as no prolonged hypoxic episodes occurred and myocarditis was not present. Immunoglobulin has been used as a therapeutic agent for neonates; however, clinical efficacy has not been proven. Specific antiviral therapy is not available. Therefore, treatment is supportive and tailored to organ dysfunction including ventilation and medical treatment of seizures[13].
Whereas the diagnosis of enterovirus infection is traditionally performed by viral isolation in cell culture, PCR has been demonstrated to be highly sensitive, specific and rapid[1416]. We observed an unusual prolonged viremia for a period of 6 weeks, whereas viremia usually lasts only for a few days[17]. Duration and level of detectable viral RNA in blood specimens are positively correlated with disease severity[11]. Most variable regions of the enterovirus genome are within the gene coding for the capsid protein VP1. In 2008, an outbreak of aseptic meningitis due to coxsackie B3 virus genogroup D2 was described for Shandong Province in China[18]. Phylogenetic analysis revealed that the CV-B3 identified in the presented case is closely related to the Chinese outbreak strain and has so far not been reported in Europe.


Enterovirus infections are of clinical relevance during the neonatal period. In particular, in the typical season, enteroviral infections may be an important differential diagnosis in neonatal encephalitis. We report a newborn presenting with encephalitis and systemic coxsackie B3 virus infection. In addition to the CSF, viral RNA was also detectable in urine and serum samples. The isolated virus is closely related genetically to an enterovirus type previously unique to Eastern China and is now spreading from Asia to Europe.


Written informed consent was obtained from the patient’s parents. A copy of the written consent is available for review by the Editor-in-Chief of this journal.


We would like to thank B. Lenz for excellent technical assistance and C. Gesell for valuable support.

Competing interests

The authors declare that they have no competing interests.

Authors’ contributions

SR, DF, SSB and JP analyzed and interpreted the patient data regarding enterovirus infection. SB and SD performed sequence analysis and sequence comparison. SR, JT and PS wrote the manuscript. All authors read and approved the final manuscript.

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Authors’ original file for figure 1
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