Introduction
Human Parechovirus (HPeV) is a common cause of infections occurring especially during the first years of life. It may present with a broad spectrum of manifestations, ranging from a pauci-symptomatic infection to a sepsis-like or central nervous system (CNS) disease, with possible neurological involvement, particularly among the youngest, that may even require intensive care unit assistance. The cytopathic effect, the rapid viral replication in neuronal cells, in combination with the likely lack of maternal protective antibodies and the immaturity of the immune system in toddlers may explain the potential danger related to HPeV infections in the youngest and the risk of sequelae [1].
Aim of the study is to review the current literature on HPeV meningitis in order to highlight the actual knowledge on epidemiology, clinical presentation, laboratory findings and imaging as well as therapeutic indication and need to follow up.
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Materials and methods
This systematic review followed the Preferred Reporting Items for Systematic Review and Meta Analysis (PRISMA) guidelines [2]. The literature research was performed through four different electronic databases: PubMed, Embase, Scopus and Web of Science, on 13th February 2023. For the aim of the study, the keywords used were “Parechovirus Meningitis”, and filters were added to limit the research to a paediatric population (< 18 years old), to reports written in English, and to limit the time spam to the last 5 years (2018–2023). Each research performed on each database was downloaded and then uploaded to the web tool “Rayyan web application” [3], a website used to analyse and appoint articles, specific for writing reviews.
Eligibility criteria
To be included in the review, reports should satisfy the following inclusion criteria:
th February 2023.
The exclusion criteria are:
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− Issues not pertinent to the field of investigation;
− Reports including adults, without age distinction;
− Reports without data.
Selection process
The selection process was conducted following the PRISMA guidelines, and it was assisted using the web application “Rayyan” [3].
First, the duplicates, produced by the research on four databases, were identified by the web application, Rayyan. Then, two authors checked the accuracy of the duplicates detected and excluded the unnecessary copies.
To limit errors and bias, two authors independently screened titles and abstracts produced by the research and defined those articles clearly irrelevant to the review. Afterward, full texts were retrieved and assessed for eligibility by the two screening authors. If full text articles couldn’t be found, an attempt of contacting authors was performed, to obtain the full text.
Finally, following PRISMA guidelines, references not included in the original search but relevant to the review were examined. Disagreements regarding inclusion/exclusion were settled through discussion between the researchers and a third author.
Data Collection process and data items
Relevant articles were selected on the web application Rayyan and grouped together based on the different issues they dealt with.
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Afterwards, data was compiled in a Microsoft Excel spreadsheet to evaluate the main topics reported in the last years about HPeV meningitis. The information extracted from the full-text reports included epidemiological, clinical, laboratories, radiological, therapeutic data, and outcome results.
Data synthesis
Using the information gathered from the included studies, an updated review was achieved. The characteristics of the included studies were reported using descriptive statistics. No meta-analysis could be made with statistical work because of the variability of the studies. These results were then elaborated on in the discussion.
Results
The search of the selected electronic databases produced 304 studies. Diagram 1 presents the flow chart of the selection process, adapted from the PRISMA guidelines [4] (Fig. 1).
Out of them, 127 were the duplicates and 4 were not written in English. Then, according to PRISMA guidelines, all abstracts were analysed, and 63 records were discharged because they dealt with different topics, or with other types of HPeV infection, or with an adult population. Also, another duplicate article was found, not previously identified by the Rayyan web application.
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Afterwards, 109 records were eligible to be analysed by reading their full-length text; however, 8 articles could not be retrieved. Therefore, 101 full-length reports were assessed for eligibility, and 21 were excluded because they did not display any data (n. 15), or no age subgroups could be found in a study population including adults and children (n. 5). In two cases the study reported had already been described in other articles. Finally, two relevant reports cited in other studies were added to this research.
In conclusion, 81 records were included in the revision.
Fig. 1
Flow chart of the selection process
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Table 1 below shows the main issues found in this scoping review. Epidemiology was discussed in 39 reports, clinical manifestations in 47 reports, laboratory findings in 36 reports, imaging in 23 reports, therapy in 11 reports and outcome in 24 reports.
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Table 2 displays all the reports included and their major findings.
Table 1
Main issues found in this scoping review
Issue | n | % |
|---|---|---|
Epidemiology | 39 | 48 |
Clinical Manifestation | 47 | 58 |
Laboratory findings | 36 | 44 |
Imaging | 23 | 28 |
Therapy | 11 | 14 |
Outcome | 24 | 30 |
Discussion
Epidemiology
Incidence
The reported percentage of HPeV positivity on Cerebrospinal Fluid (CSF) in children with meningeal involvement varied in American patients from 0.4 to 8.9%, with epidemic waves being occasionally reported [5‐10]. HPeV type 3 was the most frequently detected single viral type [9].
As for Europe, many European Countries have been involved in epidemiological studies and highlighted the HPeV meningitis outbreak as well [11, 12]. The reported incidence in European patients varied as well from 0,04 to 10% [13‐26].
Incidence of HPeV meningitis in the Asian continent has been studied mainly in Japan and Korea [27‐34]. A multicentre study, conducted in Japan identified 240 infants with HPeV type 3 infection, of which 14.2% diagnosed with acute CNS infection [28]. Among 216 patients aged less than 4 months and hospitalised for fever, 110 were found to have a viral infection on serum or CSF, caused by HPeV in 60 cases [30]. In Korea the reported incidence varied from 8,6 to 37% [31‐34].
As well as for other Continents, in Oceania incidence was varying from 5,4% to 25,8%, depending on the case series and period time considered [38‐40].
Incidence of HPeV meningitis in the African continent seemed to be low. In Sudan, between December and August 2010 no patient was found positive for HPeV on CSF, out of 503 children aged 0 to 15 years presenting with fever, seizures, and a suspicion of neuroinfection [42]. Nine years later in the Comoros archipelago, HPeV RT-PCR were performed on 122 CSFs, of which 77 were collected from children, and only a 30-days-aged infant presented with a CSF HPeV infection (0,8%) [43]. The Countries involved in the studies are represented on the Map in Fig. 2.
Fig. 2
Countries involved in the studies are shown in blue on the World map. They were Argentina, Australia, Canada, Comoros, France, Germany, Greece, Ireland, Israel, Italy, Japan, Netherlands, New Zealand, Poland, Portugal, Qatar, Singapore, South Korea, Spain, Sudan, Taiwan, Turkey, United Kingdom., USA.
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Seasonality
HPeV genotypes
Clinical manifestations
Of 81 reports analysed, 47 dealt with the clinical presentation of HPeV meningeal infection [1, 8‐12, 14, 17, 21, 23, 25‐28, 32, 33, 41, 44‐73].
Almost all reports showed that the youngest (under 3 months of age and in particular neonates) were the most affected patients. [9‐12, 14, 21, 23, 26‐28, 32, 33, 59‐62, 64‐68, 70]. Of note, an exceptional adolescent onset was reported in an immunosuppressed 17-year-old girl [58].
Most studies reported a higher incidence in males (56.4–91%) than in females [9‐11, 17, 21, 27, 59, 60, 62, 65, 66]. Only two Korean studies reported a female prevalence (57.1-80%) [32, 33].
Clinical presentation was nonspecific, mainly in neonates, so that the diagnosis may be challenging. At onset, patients appeared with sepsis-like symptoms and poor general conditions. Fever was the most frequent presenting sign [1, 41, 44‐47, 49, 50, 52‐58]. In fact, fever occurrence ranged between 80% and 100% [8, 10‐12, 14, 17, 21, 23, 25‐28, 32, 33, 60‐64, 69, 70]. However, in an American retrospective study, 2% of patients reported hypothermia (TC < 35 °C) instead of hyperthermia [68].
Other frequent symptoms included irritability, from 40 to 100%, poor feeding, from 42 to 81.8%, and tachycardia ranging from 63.6 to 77% [12, 14, 26, 41, 44‐46, 51‐54, 58, 60, 62‐64, 67‐70]. In a few cases lethargy was the presenting symptom, with a prevalence between 14% and 51% [1, 12, 14, 26, 60, 69].
Many clinical cases of HPeV CNS infection included a cutaneous sign, as macular or maculo-papular rash, involving mainly truncus and extremities [14, 23, 41, 45, 47, 54‐58, 62]. The occurrence of a rash as a presenting sign ranged from 20 to 60% [1, 8, 11, 12, 17, 21, 52, 53, 60, 64, 68, 69].
Moreover, 15 reports evidenced the presence of seizures [1, 10, 11, 21, 26, 28, 45, 50, 58, 62, 65‐68, 70]. Their occurrence may vary from 3.1 to 65.2% [10, 11, 21, 26, 28, 62, 65‐68, 70].
Gastrointestinal symptoms were described as concomitant to meningitis, usually as diarrhoea, with a variable occurrence, ranging from 15 to 30% [12, 23, 52].
Other symptoms involving the respiratory system have been described, including coryza, cough, breathing difficulties, apnea and tachypnea. Their reported occurrence varied from 37.5 to 18.2% [11, 64, 68, 70].
Congenital HPeV Infection
Three cases of congenital/in utero transmission had been described in recent literature, leading to neonatal meningitis at birth, requiring intensive care unit support. The onset presentation symptoms were hypotonia, respiratory distress with desaturation, bradycardia, fever and abnormal movements [71‐73].
Laboratory findings
Out of the 81 articles included in this review, 36 focused on the laboratory findings [1, 8, 12, 14, 17, 18, 21, 23, 26, 27, 31, 33, 36, 38, 41, 44, 45, 48, 51‐53, 55‐57, 61‐63, 67, 69, 70, 72‐76].
Blood analysis
In children with HPeV meningitis, peripheral leukocyte count, haemoglobin and platelets were within normal value range [51, 52]. Leukopenia was found especially in neonates and infants aged < 3 months [1, 55, 63, 67]. Low values of haemoglobin were occasionally described [12, 56].
General chemistry was unremarkable [41], although some authors described an increase of the transaminase, lactate dehydrogenase (LDH) values and hyponatremia [27, 51, 67, 70].
CSF analysis
CSF samples of children with HPeV meningitis were clear and pleocytosis characteristically mild or absent [1, 8, 12, 14, 21, 26, 27, 36, 38, 41, 45, 51, 53, 55, 57, 62, 67, 69, 70, 72, 74].
Despite that, some case-reports described pleocytosis in children, predominantly neonates, with HPeV meningitis [44, 48, 57, 61, 73]. Compared with EV meningitis, HPeV meningitis determined a lower rate of CSF pleocytosis [14, 17, 27, 32, 33, 61]. In case of pleocytosis, white cell count was lower in the HPeV meningitis than in the EV group, and other viral meningitis, such as Human Herpes 6 and Herpes Simplex Virus-2 meningitis [23, 32].
As for the remaining CSF biochemistry, in HPeV meningitis proteins were normal or slightly elevated [1, 8, 14, 18, 21, 27, 45, 55, 56, 61, 62, 70, 72]. Moreover, glucose values were generally normal [1, 8, 21, 27, 41, 51, 55, 61, 62, 70, 72]. Of note, low glucose concentration has been described just in few cases, mainly in neonates [57, 63].
Cytokine Profile on serum and CSF
Measurement of cytokines levels revealed high levels of interleukins (IL): IL-6, IL-17 and TNF alpha on serum and of IL-2, IL-4, IL-7 and IL-13 in CSF [31, 75].
Compared to EV, a higher serum level of proinflammatory cytokine/chemokine was present in HPeV, likely related to the more severe clinical manifestations in the former [76].
Imaging
HPeV meningitis was diagnosed by clinical manifestations and laboratory findings. Instrumental diagnostic exams were used as complementary and to investigate HPeV’s clinical complications and outcomes. Twenty-three publications analysed instrumental exams in patients affected by HPeV meningitis [1, 10, 12, 25, 26, 28, 45, 48‐50, 56‐58, 62, 65‐68, 71‐73, 77, 78].
Head ultrasound and cerebral magnetic resonance imaging (MRI) were the most used diagnostic exams; few cases reported head Computerised Tomography (CT) scan finding.
Head ultrasound
Magnetic resonance imaging
When performed in patients with HPeV neuro-infections, MRI resulted in white matter anomalies. Common findings included restricted diffusion in deep white matter and periventricular white matter involving mainly the frontal zones [48,50,65, 6872]. Involvement of parietal and temporal lobes, corpus callosum and thalamus have been described as well [58, 71, 73, 77, 78]. Hyperintensity in the T2/FLAIR was also a possible presentation of HPeV neuro-infection [28]. These findings were typically bilateral, either asymmetrical or symmetrical [50, 58, 65]. Other findings, such as unilateral lesions, low signal intensity on T2 and hyperintensity on T1 or just a leptomeningeal enhancement were also described [28, 50].
Some authors reported that MRI abnormalities were usually detected in a minority of children with HPeV CSF infections [1, 10, 12, 26, 57, 65]. Conversely, other authors demonstrated that the majority of patients in the study populations had positive MRIs findings [28, 66].
There’s evidence that most of the patients with white matter alterations on MRI developed more severe diseases, with seizures or necessity of ventilations and vasoactive infusion [67].
When performed weeks or months after the acute infection, MRI scan might be normal, with no evidence of white matter lesions [49, 58]. Persistence of the lesions had been proved in a minority of patients [28, 65].
White matter MRI anomaly had been also used as a prognostic sign of neurodevelopmental concerns. By the way, some authors found neurodevelopmental impairment at clinical follow-up in children with initial MRI alterations [28, 65, 66].
Bucci S. et al. showed that children with MRI abnormalities in the HPeV acute infection scored lower, but still in the range of normality, on cognitive Bayley III (Bayley Scales of Infant and Toddler Development, Third Edition) subscale at Neurodevelopmental assessment at 1 year of age compared with children with normal MRI [25]. Whereas Abe Y. et al. reported that the totality of the patients (6/6) with MRI negative findings had a neurological good prognosis [28].
Other investigations
Electroencephalography (EEG) demonstrated seizure activity or encephalopathy signs [67, 68, 72,73,7868].
Therapy
Out of the included reports, eleven focused on the therapeutic approach [10, 21, 45, 50, 56, 57, 62, 68, 69, 73, 79]. Authors agree on supportive therapy, including paracetamol and fluids. Antibiotics as well as antivirals were prescribed at onset and then discontinued as soon as the diagnosis of HPeV infection was confirmed [21, 56, 57, 62, 69, 73].
In case of critical conditions or unresponsiveness to therapy, intravenous immunoglobulin and/or methylprednisolone have been prescribed [10, 21, 50, 69]. Finally, posaconazole was used against HPeV type 3, acting as an early-stage inhibitor of viral replication: it binds the capsid interfering with virus-cell attachment and entry [79].
Outcome
We identify 24 publications dealing with clinical outcome of HPeV meningitis, in term of hospital stay and long-term outcome [1, 12, 21, 25, 26, 28, 44, 48, 49, 56, 57, 59, 60, 62, 65, 66, 70, 73, 74, 80‐84].
Hospital Stay
Hospitalisation ranged from 2 days to 5 weeks. The high variability was depending on various factors, including the clinical course and the need of intensive care in case of respiratory distress, apnoea, seizures, and hemodynamic instability [1, 12, 21, 48, 49, 56, 57, 62, 70].
All but one otherwise healthy 11-days old neonate affected by HPeV type 3 meningoencephalitis survived. The neonate’s autopsy showed bilateral multicystic cavitation of the fronto-parietal white matter as well of temporal and occipital asymmetric cavitation [78].
Long-term outcome
The long-term outcome was analysed in 21 reports.
Even if HPeV is one of the main identified etiological agents of viral meningitis in infants, poor attention has been reserved to it from the Scientific Community in the past, mainly due to the high survival range. Examining scientific reports from all over the world are increasing awareness of the risk connected to a severe parechovirus infection. In fact, out of the revised literature, cerebral palsy, vision and neuropsychomotor development impairment were reported in a high percentage of case series [65, 80, 83]. The appropriate duration of post hospitalisation follow-up is still being debated. Evidence supported clinical follow-up until at least the second year of life, with a recommended longer-term follow-up in case of further potential risk factors, such as prematurity, early onset of infection (neonatal period), MRI abnormalities, severe clinical course (seizures, apnoea) with necessity of paediatric Intensive Care Unit [1, 25, 28, 48, 6566]. Evidence suggested an ameliorating of clinical sequelae with a normal development in most cases by the age of three [65]. Anyway, as neurodevelopmental impairment is often difficult to detach at an early stage, prior to school-age, families should be aware of potential neurological, behavioural, and learning impairments in childhood in order to eventually seek assessment.
Conclusion
HPeV infection is very common in paediatric age and may have a severe course mainly among neonates and toddlers less than 3 months of age when it manifests as meningitis. Symptoms may be non-specific, including fever, irritability, poor feeding, skin rash, or seizures. Although several authors described favourable outcome with high probability of survival, reported neurodevelopmental outcomes at discharge suggest a specific follow up and the family awareness on the risk of sequelae.
Evidence supported clinical follow-up until at least the second year of life, with a recommended longer-term follow-up in case of further potential risk factors, such as prematurity, early onset of infection (neonatal period), MRI abnormalities, severe clinical course (seizures, apnoea) with necessity of paediatric Intensive Care Unit. Of note, we emphasise the need for surveillance to define the disease burden, evaluate strategies and interventions to prevent and manage cases, and to respond to the potential first early signals of sequelae developing. Finally, defying and following the global epidemiology of HPeV infection may be useful for considering the opportunity of vaccine development mainly for those with risk factors for a severe course.
Table 2
Reports included and the major finding
Domains | Reference | Type of Publication | Country (Continent) | Highlighted |
|---|---|---|---|---|
Clinical Presentation Laboratory Imaging Outcome | Ancora G, 2020 [1] | Case Report | Italy (Europe) | Six neonates presented with fever and poor feeding, rash in 3 cases, seizures in one. Blood analyses revealed lymphopenia, normal or mildly elevated CRP, no pleocytosis. Head ultrasound and brain MRI were abnormal only in one case. The median hospitalisation was 11 days (range 7–26). At 2 years follow up just one developed epileptic encephalopathy, vision and psychomotor development impairment |
Epidemiology | Naccache SN, 2018 [5] | Retrospective study | USA (America) | In the period study, out of 251 patients, 0.4% of CSF was positive for HPeV |
Epidemiology | Abedi GR, 2019 [6] | Retrospective multicentre study | USA (America) | In the period study, 3.4% of children under the age of 1 year had CSF positive for HPeV |
Epidemiology | Lee BR, 2020 [7] | Retrospective cohort study | USA (America) | In the period study, out of 1926 specimens of CSF in children less than 6 months of age, 8.9% were positive for HPeV |
Epidemiology Clinical Presentation Laboratory | Tomatis Souverbielle C, 2021 [8] | Retrospective study | USA (America) | In the period study, out of 1475 infants younger than 60 days, 130 were HPeV positive. Infections mainly occurred in summer. Out of them, 96% had fever, 75% fussiness, and 29% a rash. In CSF, protein and glucose levels were within the normal ranges; 77% had no CSF pleocytosis. HPeV type 3 was the only one detected in CSF |
Epidemiology Clinical Presentation | Sasidharan A, 2021 [9] | Single-site study | USA (America) | In the period study, 7% (271/4,016) CSF were positive for HPeV. 95% was HPeV type 3. Most infections occurred during summer. Most patients were males (169/271; 62%) with a median age of 27.2 days, only six (2%) were 4-6-month-old |
Epidemiology Clinical Presentation Imaging Therapy | Hardeep Singh S, 2023 [10] | Retrospective study | USA (America) | In the period study, out of 14 patients with HPeV on CSF, 43% were infected in summer-fall and 57% in spring. Median age was 21 days, 57% were male. Symptoms were fever and fussiness (100%), poor oral intake (50%), seizures (7%). One out of 4 patients had abnormal MRI findings. Anti-epileptics medicines, corticosteroids and intravenous immunoglobulin were used in 2 patients with seizures. All the others received supportive care. |
Epidemiology | Black S, 2019 [11] | Original research | UK (Europe) | In the period study, 32 CSF specimens were HPeV positive, all genotype 3, with an outbreak in summer 2016. Patients had 25.5–61 days, 59.4% were male, 100% had fever, 68.8% poor feeding, 25% rash, 3.1% seizures, 37.5% respiratory symptoms (coryza, cough, wheeze) |
Epidemiology Clinical Presentation Laoratory Imaging Outcome | Antolin LF, 2018 [12] | Original research | UK (Europe) | HPeV infection’s highest peak was in summer. 43% were neonates; 42% were less than 90 days. Symptoms were: fever (92%) irritability (63%), reduced feeding (49%), rash (25%), lethargy (23%), diarrhoea (15%). 7% of infants had anaemia, 14% lymphopenia, 4% neutropenia and 4% thrombocytopenia, 75% low CRP level. On CSF, WCc was higher than 20 cell/mcL in 8% of neonates and higher than 5 cell/mcL in 7% of infants. Head ultrasound was normal in 10 infants; MRI scans were normal in 5/7, compatible with encephalitis in 1/7 and with brain oedema in 1/7. Median hospitalisation was 3 days (range 2–11) After discharge, 5 infants had ongoing seizures and 1 neurological impairment |
Epidemiology | Cosgun Y, 2020 [13] | Retrospective study | Turkey (Europe) | In the period study, out of 5255 CSF samples, two were HPeV positive |
Epidemiology Clinical Presentation Laboratory | Chakrabarti P, 2018 [14] | Retrospective study | UK (Europe) | In the period study, out of 140 CSF samples, 10% tested positive for HPeV. Out of them, 85% were less than 2 months of age, 100% had fever, 42% irritability, 14% lethargy, 42% a maculo-papular rash. No CSF sample showed pleocytosis and just 21.4% had increased CSF protein levels. HPeV meningitis had lower CSF WCc than EV meningitis |
Epidemiology | Sirin MC, 2018 [15] | Retrospective cross-sectional study | Turkey (Europe) | In the period study, out of 59 CSF specimens, 1.7% resulted HPeV positive |
Epidemiology | Bal A, 2022 [16] | Multicentre cross-sectional retrospective study | Turkey (Europe) | In the period study, out of 179 CSF samples, two were HPeV positive |
Epidemiology Clinical Presentation Laboratory | De Jong EP, 2018 [17] | Prospective observational cohort study study | The Netherlands (Europe) | In the period study, out of 353 samples of infants aged less than 90 days, 39 were HPeV positive; type 3 was the only genotype found. Out of them, 46% were neonates, 62% were male. 100% had fever and 20% a rash. Compared to EV, HPeV meningitis have lower infection indices and lower rate of CSF pleocytosis |
Epidemiology Laboratory | Eichinger A, 2019 [18] | Retrospective study | Germany (Europe) | In the period study, out of 187 CSF samples, two were HPeV positive, occurring in May and September. CSF WCc had a mean value of 10 +/- 4 cell/mcL. CSF Protein level was normal |
Epidemiology | Elling R, 2019 [19] | Original research | Germany (Europe) | In the period study, out of 11 CSF of 25 HPeV infected patients, 8 tested positive for HPeV type 3. Most of the infections occurred in summer |
Epidemiology | Posnakoglou L, 2020 [20] | Prospective cohort study | Greece (Europe) | In the period study, out of 142 CSF samples, four were HPeV positive (2.8%) |
Epidemiology Clinical Presentation Laboratory Therapy Outcome | Posnakoglou L, 2021 [21] | Prospective cohort study | Greece (Europe) | In the period study, out of 330 CSF specimens, 6 were HPeV positive (1.8%); type 3 was the only genotype. Patients were all under 3 months of age, 83% males. 100% presented with fever, 50% rash, and 16% seizures. No pleocytosis and normal levels of protein and glucose were found in CSF. All received antibiotics and one neonate also had intravenous immunoglobulin. Hospitalisation was 7.5 days long (IQR: 5.3–10.3) |
Epidemiology | Vincent JJ, 2020 [22] | Original research | France (Europe) | In the period study, out of 309 CSF samples, 12 were HPeV positive |
Epidemiology Clinical Presentation Laboratory | Marchand S, 2021 [23] | Retrospective study | France (Europe) | In the period study, out of 1373 CSF specimens, 34 tested positive for HPeV. No seasonality was observed. 97% were under 3 months of age, 100% presented with fever, 13% had an erythematous and maculopapular rash, 23% had diarrhoea. Pleocytosis was observed in 11% of cases, lower than in case of EV meningitis |
Epidemiology | Schnuriger A, 2022 [24] | Original research | France (Europe) | In the period study, out of 1,744 CSF samples, 11 cases of HPeV infection were identified, and they all occurred in neonates |
Epidemiology Clinical Presentation Imaging Outcome | Bucci S, 2022 [25] | Original research | Italy (Europe) | In the period study, 3 out of 15 CSF samples of newborns with viral meningitis were HPeV positive. All presented with fever. Head ultrasound was normal in all patients, MRI in 1. At 1 year follow up, 29 out of 30 patients had no sequela. Just one child had a mild delay in fine and gross motor skills and in receptive language |
Epidemiology Clinical Presentation Laboratory Imaging Outcome | Stephens C, 2021 [26] | Retrospective study | Ireland (Europe) | In the period study, there were 23 cases of CSF HPeV positive, all younger 2 months of age; 90% were serotype 3. No seasonality was found. Out of them, 90% was febrile, 40% irritable, 20% lethargic, 10% had seizures. None had CSF pleocytosis. Just 25% showed frontoparietal white matter changes at MRI. At 3 years follow up, 60% of patients had a normal development |
Epidemiology Clinical Presentation Laboratory | Sano K, 2018 [27] | Prospective study | Japan (Asia) | In the period study, over 56 febrile infants, 2 tested positive for HPeV on CSF. HPeV infections had a summer peak. Fever was the symptom of presentation. WBC count, platelets values and CSF pleocytosis rate was lower than in EV |
Epidemiology Clinical Presentation Imaging Outcome | Abe Y, 2021 [28] | Retrospective study | Japan (Asia) | In the period study, 34 out of 240 infants with HPeV infection had acute CNS involvement. 87% were younger than 2 months of age, 87% presented with fever and 65.2% with seizures. 57.1% presented with lesions on 15 months follow-up MRI. Half patients with abnormalities at MRI follow-up had neurological sequelae. Patients with normal MRI follow-up had no neurological sequelae |
Epidemiology | Izumita R, 2019 [29] | Prospective study | Japan (Asia) | In the period study, over 54 febrile neonates and young infants, HPeV was detected in serum and/or CSF of 14 patients |
Epidemiology | Suziki Y, 2021 [30] | Prospective study | Japan (Asia) | In the period study, 60/216 infants were found to have an HPeV infection on serum or CSF. HPeV type 3 was detected in 93% of cases, HPeV type 4 in 5% and 2% of untyped virus |
Epidemiology Laboratory | Park SE, 2019 [31] | Prospective cohort study | Korea (Asia) | In the period study, out of 90 children less than 1 year) of age with fever and sepsis-like signs, 10 had HPeV meningitis. In the CSF there was a significantly higher level of IL-2, IL-4, IL-7 and IL-13, than in controls |
Epidemiology Clinical Presentation Laboratory | Park SE, 2021 [32] | Retrospective cohort study | Korea (Asia) | In the period study, HPeV was identified in 10 CSF samples out of 110. 70% aged younger than 2 months, 20% were male. All presented with fever, 20% with seizures. Compared to other viral meningitis, CSF samples had the lowest value of white cell count |
Epidemiology Clinical Presentation Laboratory | Rhie S, 2020 [33] | Retrospective study | Korea (Asia) | In the study period, 14 out of 161 CSF samples were HPeV-positive. All patients were younger than 3 months of age, 42.9% were male. All had fever. Compared to EV meningitis, patients had lower WCB count and lower rate of CSF pleocytosis |
Epidemiology | Nam EJ, 2021 [34] | Retrospective study | Korea (Asia) | In the study period, over 2230 CSF samples, 10 were positive for HPeV. They all aged less than 3 months. HPeV was found only in summer |
Epidemiology | Chang JT, 2018 [35] | Retrospective study | Taiwan (Asia) | In the study period, 1 out of 112 children aged less than 10 years and positive for HPeV was affected by HPeV meningitis |
Epidemiology Laboratory | Nassrallah B, 2021 [36] | Retrospective study | Israel (Asia) | In the study period, 5 out of 80 febrile infants aged less than 3 months had CSF positive for HPeV. Pleocytosis was absent in all |
Epidemiology | Mathew S, 2021 [37] | Retrospective study | Qatar (Asia) | In the study period, HPeV was isolated in 26 out 30 children aged less than 9 years |
Epidemiology Laboratory | O’Brien MP, 2018 [38] | Retrospective and prospective cohort study | Australia (Oceania) | In the study period, 8 out 65 children aged 0–16 years with meningitis were HPeV positive. Five cases were aged less than 3 months. No pleocytosis was found |
Epidemiology | Berkhout A, 2023 [39] | Retrospective study | Australia (Oceania) | In 2o19, 5/93 infants’ CSF samples tested HPeV positive; in 2021 no HPeV was detected in CSF samples |
Epidemiology | Chamings A, 2019, [40] | Original Reserach | Australia (Oceania) | In the period study, 26 out of 33 infants affected by HPeV had meningitis; the only genotype was HPeV3 |
Epidemiology Clinical Presentation Laboratory | Chamings A, 2019 [41] | Retrospective study | Australia (Oceania) | 6 cases of HPeV meningitis were reported in children aged 14–68 days, all caused by HPeV type 5. Symptoms were irritability, fever, tachycardia, erythematous rash, poor feeding, irritability, dyspnoea. Blood analysis on 2 cases showed respectively WBCc of 5700 and 6500/mmc, CRP not elevated in the first case and mildly elevated in the second. CSF protein values were respectively normal and mildly elevated |
Epidemiology | Abdelrahim NA, 2022 [42] | Cross-sectional study | Sudan (Africa) | Between December and August 2010, 0/503, febrile children tested positive for HPeV in CSF |
Epidemiology | Fourgeaud J, 2022 [43] | Retrospective study | Comoros (Africa) | Between March and June 2019 only 1/122 CSF tested positive for HPeV, collected from a 30-days-aged infant in early June |
Clinical Presentation Laboratory Outcome | Garrido R, 2022 [44] | Case Report | Portugal (Europe) | An 11-day-old infant with fever, irritability, and poor feeding, CSF pleocytosis and increased protein level recovered well. At 18 months follow up, she was in health |
Clinical Presentation Laboratory Imaging Therapy | Fox B, 2022 [45] | Case Report | Argentina (America) | In the reported three cases, symptoms were fever, decreased oral intake, irritability, rash, seizures, bradycardia, desaturation, abdominal tenderness. CSF was clear and colourless, pleocytosis absent. Mild proteinorraquia was reported in one case. In just one case head ultrasound showed subcortical white matter hypoechogenicity of both cerebral hemispheres, corpus callosum, and both temporal lobes. Intravenous antibiotics and antiepileptic medicines were administered. |
Clinical Presentation | Alhazmi A, 2020 [46] | Case Report | France (Europe) | One-month-old baby girl with high fever, irritability, vomiting, and diarrhoea for 36 h |
Clinical Presentation | Chowdhury SR, 2020 [47] | Case Report | Singapore (Asia) | 3-month-old infant with fever, tachycardia, acral swelling and maculo-papular rash |
Clinical Presentation Laboratory Imaging Outcome | Berk MC, 2018 [48] | Case Report | The Netherlands (Europe) | A male premature neonate born at 32 weeks and 6 days gestational age presented with sepsis-like symptoms, elevated serum CRP, mild pleocytosis, low level of proteins and normal values of glucose in CSF. Head ultrasounds was normal, MRI showed bifrontal periventricular abnormalities of the white matter. He was discharged at 37 weeks and 6 days of life. At 5 years follow up the patient presented with cerebral palsy, vision, and psychomotor development impairment |
Clinical Presentation Imaging Outcome | Piralla A, 2019 [49] | Case Report | Italy (Europe) | A 15-day-old boy with high fever, poor feeding, inconsolability, tachycardia, and mild axial hypotonia had a negative head ultrasound and a normal brain MRI at a 2 months follow up. Hospitalisation lasted 7 days |
Clinical Presentation Imaging Therapy | Yehia R, 2023 [50] | Case Report | USA (America) | Two neonates presented with fever, fussiness, seizures, apnoea, and cyanosis. They had normal head ultrasound and head CT. Patient 1 had normal brain MRI findings. Patient 2 showed restricted diffusion throughout the bilateral white matter and leptomeningeal enhancement on MRI. Both patients received intravenous immunoglobulin and corticosteroids. |
Clinical Presentation Laboratory | Kirkley MJ, 2019 [51] | Case Report | USA (America) | A 15-day-old infant with fever, fussiness, irritability, poor feeding, grunting respirations and distended abdomen had normal WBC count, in CSF normal WBC count, glucose and normal proteins |
Clinical Presentation Laboratory | Kanagaratnam M, 2019 [52] | Case Report | UK (Europe) | 7 neonates presented with fever and severe irritability, 60% with rash, and 30% with diarrhoea. Blood WBC count was normal, and CRP was low in 90% of cases. CSF tests showed normal WBC count, protein, and glucose levels |
Clinical Presentation Laboratory | Urooj F, 2019 [53] | Case Report | UK (Europe) | 4 patients aged 1–10 weeks, 50% female, had high fever, sepsis-like-symptoms, and irritability, 50% a maculo-papular rash. CRP serum values were normal or slightly elevated. CSF samples had a normal WBC count |
Clinical Presentation | Lee D, 2018 [54] | Case Report | Singapore (Asia) | 2-month-old girl with fever, irritability, and maculopapular exanthema. On day three, she developed nontender palmoplantar erythema |
Clinical Presentation Laboratory | Masanori T, 2022 [55] | Case Report | Japan (Asia) | A 2-month-old girl with fever, poor general condition, severe abdominal distention, rash and acral foot reddening showed low values of WBC count and negative CRP. CSF examination showed normal results |
Clinical Presentation Laboratory Imaging Therapy Outcome | Tokmak DN, 2021 [56] | Case Report | Turkey (Europe) | A 38-day-old infant with sepsis-like condition, fever and rash had normal WBC count on CSF and blood, low haemoglobin value, normal biochemical parameters, and CRP mildly elevated. Head ultrasound was normal. He received intravenous antibiotics and acyclovir. hospitalisation was 6 days long |
Clinical Presentation Laboratory Imaging Therapy Outcome | Tokak S, 2021 [57] | Case Report | Turkey (Europe) | A 43-day-old girl with HPeV meningitis presenting with fever, sucking weakness and petechial rashes. She had slightly elevated serum CRP. CSF analysis showed a clear fluid, lack of pleocytosis and low levels of glucose. Antibiotic therapy was administered. Brain MRI was normal. Hospitalisation lasted 8 days |
Clinical Presentation Imaging | Tierradentro-García LO, 2022 [58] | Case Report | USA (America) | 15-day-old boy with confluent erythematous rash on trunk, poor feeding, irritability, fever, seizures of the right arm and rightward eye deviation; 11-day-old boy with fever, irritability, apnoea episodes, and right-sided clonic seizure; 17 years-old girl, in immunosuppressive therapy, with fever and left-side weakness, unsteady gait, headache. Head ultrasonography showed increased echogenicity of the periventricular WM. Brain MRI showed restriction of diffusion in WM matter, with a frontoparietal predominance |
Clinical Presentation Outcome | van Hinsbergh T, 2022 [59] | Prospective multicentre study | The Netherlands (Europe) | The median age of onset is 29 days; 91% are males. In the 5-year-follow-up, patients had gross motor impairment |
Clinical Presentation Outcome | van Hinsbergh TMT, 2019 [60] | Prospective multicentre study | The Netherlands (Europe) | 9 patients with a median age of 31 days, 89% male had fever (100%), irritability (77.8%), poor feeding (55.6%), lethargy (22.2%), rash (33.3%) At 6 months follow up, 6 had a gross-motor function delay |
Clinical Presentation Laboratory | Tan JHY, 2022 [61] | Retrospective study | Singapore (Asia) | 71 children younger than one year, presented with fever, and 42% with poor feeding. Out of them, 2.8% presented with CSF pleocytosis, median CSF level of proteins of 0.43 g/L and median value of glucose 3.2 mmol/L |
Clinical Presentation Laboratory Imaging Therapy Outcome | Linhares MI, 2021 [62] | Original research | Portugal (Europe) | 7 neonates, of which six males, presented with fever and irritability, two with acral involvement rash, two with gastrointestinal symptoms, and one with seizures. In CSF no pleocytosis, protein and glucose normal values were found. Head ultrasound was normal. Empirical intravenous antibiotics were started in six infants, until negative culture results were obtained. Hospitalisation had a mean of 5.6 days (3–11 days). Outcome was favourable. |
Clinical Presentation Laboratory | Kielar M, 2019 [63] | Retrospective study | Poland (Europe) | Neonatal HPeV CNS infections all presented with fever and irritability. Analysis revealed leukopenia, low inflammatory index. On CSF, low glucose values were found in 3 patients and increased cell count was found in 7 patients |
Clinical Presentation | Samarasekara H, 2020 [64] | Original research | Australia (Oceania) | 5 cases, two-six weeks of age. All with fever and sepsis-like symptoms; four were irritable and one presented desaturation and tachypnoea |
Clinical Presentation Imaging Outcome | Silcock RA, 2022 [65] | Prospective cohort study | Australia (Oceania) | Median age was 27 days, 62.5% were male, 7.8% had seizures, 32.5% abnormal findings on brain MRI (bilateral white matter signal changes and periventricular restricted diffusion patterns). In the second year of life, 63% (29/46) children showed developmental delay, which ameliorated by the third year of life (30%). Communication was the most common domain of concern |
Clinical Presentation Imaging Outcome | Joseph L, 2019 [66] | Retrospective study | Australia (Oceania) | Out of 77 patients, 87.5% were under 3 months, (37.2% neonates) and 56.4% male. 9.7% of patients had seizures. 15 out of 20 children had abnormal MRI findings (restricted diffusion in deep white matter); at follow-up 11 (14%) had neurodevelopmental delay |
Clinical Presentation Laboratory Imaging | McKenna R, 2019 [67] | Retrospective multicentre study | Australia (Oceania) | Patients admitted to ICU were all younger than 3 months, 93% had irritability, 57% apnoea, and 40% seizures. Lymphopenia was found in most of the cases. CRP values were low or mildly elevated. 27% of patients had hyponatremia and 70% had increased transaminase values. Pleocytosis was absent, CSF protein level was normal and glucose values ranged from 2.3 to 6.7 mmol/L. 78% of patients with white matter alterations on MRI developed severe diseases |
Clinical Presentation Imaging Therapy | Midgley CM, 2018 [68] | Retrospective study | USA (America) | 35 neonates presented with 91% fever, 2% hypothermia, 77% tachycardia, 77% poor feeding, 74% irritability, 26% rash, 20% seizures and 9% breathing difficulties. Brain MRI was performed in 3 infants who presented seizures, showing white matter abnormalities, EEG severe encephalopathy and multifocal epileptiform discharges in 2 cases. Acyclovir and anticonvulsant medication were administered in patients with seizures. |
Clinical Presentation Laboratory Therapy | Kadambari S, 2019 [69] | Prospective study | UK (Europe) | Out of 35 patients, 80% had fever, 66% poor feeding, 66% irritability, 51% lethargy, 29% rash. CSF WBC count was less than 20/mm3, serum CRP was low in 67% of cases.Empiric intravenous antibiotics were administered. 46% of patients received acyclovir. One patient received intravenous immunoglobulin. |
Clinical Presentation Laboratory Outcome | Roh DE, 2020 [70] | Retrospective study | Korea (Asia) | 11 patients, median age of 41 days, presented with fever (100%), poor feeding (81.8%), irritability (63.6%), tachycardia (63.6%), tachypnoea (36.4%), apnoea (18.2%), seizures (9.1%). Blood tests showed a mean WBCc value of 5622/mmc. CRP e procalcitonin were low. Hyponatremia and mild transaminasemia were reported. Pleocytosis was absent. Protein and glucose values in CSF were normal. Hospitalisation was of 7.1 ± 3.6 days |
Clinical Presentation Imaging | Hilbig, A, 2022 [71] | Case Report | Australia (Oceania) | Neonate with congenital HPeV meningitis was born in poor condition and with petechiae. MRI on day 2 of life demonstrated diffuse subcortical white matter abnormality |
Clinical Presentation Laboratory Imaging | Lim SMJ, 2022 [72] | Case Report | Japan (Asia) | At birth the neonate with congenital HPeV3 meningoencephalitis was irritable and at 9 h of age, febrile with repeated episodes of desaturation, bradycardia, and abnormal limb movements. CSF showed no pleocytosis, normal levels of glucose and slightly elevated levels of proteins. Brain MRI performed on day 2 of life demonstrated white matter inflammatory changes; EEG was compatible with seizure activity |
Clinical Presentation Laboratory Imaging Therapy Outcome | Salavati S, 2020 [73] | Case Report | The Netherlands (Europe) | A preterm neonate with congenital HPeV meningoencephalitis, after birth became bradycardic, pale, hypotonic. He was intubated and ventilated for 5 days. Pleocytosis was found in CSF. MRI demonstrated bilateral ischemic injury, restricted diffusion in white matter, corpus callosum, corticospinal tract, pulvinar and optic radiation. EEG showed subclinical seizures. Antibiotic and antiepileptic therapy was administered. At 2 years follow up the patient presented cerebral visual impairment, cognitive, language and internalising behaviour problems |
Laboratory Outcome | Izumita R, 2019 [74] | Original Research | Japan (Asia) | Pleocytosis was absent in all 16 CSF samples. 1 out of 16 patients had a severe neuro-psychomotor retardation at a 3 year follow up |
Laboratory | Sugiura K, 2020 [75] | Case Report | Japan (Asia) | Higher levels of IL-6, IL-17 and TNF alpha were found in the serum of patients affected by HPeV meningitis compared with controls |
Laboratory | Habuka R, 2020 [76] | Original Research | Japan (Asia) | Higher serum level of proinflammatory cytokine/chemokine was present in HPeV infected patients than in Enterovirus infected patient |
Imaging | Sarma A, 2019 [77] | Retrospective case series | USA (America) | Head ultrasound had normal findings in 2/6 patients. All cases had brain MRI exhibiting diffuse and multifocal subcortical white matter involvement |
Imaging | Lane LM, 2021 [78] | Case Report | Ireland (Europe) | An infant boy with HPeV meningoencephalitis had normal head ultrasound. Brain MRI showed extensive diffusion abnormalities in the deep white matter, corpus callosum, deep grey nuclei and midbrain. EEG showed multiregional seizure onset |
Therapy | Rhoden E, 2020 [79] | Original research | USA (America) | Posaconazole inhibits HPeV-A3 infection by directly targeting the capsid and interfering with virus-cell interactions. |
Outcome | De Ceano-Vivas M, 2021 [80] | Original research | Spain (Europe) | At a 18 months follow up, 3 out of 15 (20%) patients presented developmental concern |
Outcome | De Crom SC, 2021 [81] | Multicenter prospective cohort study | the Netherlands (Europe) | At 24 months follow-up, 3 children with previous HPeV infection, including a case of meningitis, had impaired motor development |
Outcome | Martin del Valle F, 2019 [82] | Original Research | Spain (Europe) | At 2 years follow up 1 out of 15 patients presented with a gross motor dysfunction |
Outcome | Britton PN, 2018 [83] | Cohort study | Australia (Oceania) | At 12 months following hospitalised HPeV infection, 5% of infants showed severe neurological sequelae, 23% moderate, 11% mild and 61% had a normal neurodevelopment. Neurological impairment mainly interested the gross motor domain |
Outcome | Britton PN, 2020 [84] | Cohort study | Australia (Oceania) | At 3 years following hospitalised HPeV infection, all children showed age-appropriate development on BSID-III. The lowest scores were in the gross motor domain, but still in the normality range |
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EB is Associate Editor of Italian Journal of Pediatrics-Section Infectious Diseases and Vaccinology.
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