Enteroviral aseptic meningitis in Japan, 1981-1991. A report of the National Epidemiological Surveillance of Infectious Agents in Japan.

In Japan, aseptic meningitis cases due to enterovirus infections increase every summer in various degrees with an incidence peak usually in July. During the past 11 years from 1981 through 1991, a total of 8,595 enterovirus isolations from aseptic meningitis cases were reported from 54 participating laboratories. Eight enterovirus types caused large epidemics; more than 100 isolations of each type from aseptic meningitis cases were reported for every epidemic year of the respective type. They were coxsackievirus (C) types B3 and B5, echovirus (E) types 4, 6, 7, 9, 18 and 30. Among these, the highest meningitis-associating frequency was reported for E30, representing 82.6% of the total isolations reported for the type during this period, followed by E4, 71.1%. The frequencies of E9, E7, E6 and CB5 were in a range from 54.5% to 44.4%, while that of E18 was 37.7% and that of CB3 21.0%. During the epidemics, enterovirus-associated meningitis was most frequently reported among children of 4-7 years of age. High frequencies were also shown in infants less than 1-year of age in some types. A total of 4,240 enteroviruses were isolated from cerebrospinal fluid of aseptic meningitis cases, representing 49.3% of the cases with enterovirus isolation.     

一起传染病暴发中肠道病毒血清型鉴定和ECHO30基因特征分析

2003年5～9月,山东省泰安市发生了由肠道病毒(Enterovirus,EV)感染所致的传染病暴发,临床症状以手足口病(HFMD)为主,同时有心肌炎和无菌性脑膜炎等中枢神经系统症状患者也占较大比例。131份病人(粪便、咽拭子、脑脊液)标本中共分离到EV62株,其中ECHO1939株,EV716株,ECHO304株,其它肠道病毒13株。4株ECHO30病毒中的2株分离自2个患者的粪便标本,但用WHO肠道组合血清中和试验未能定出型别。另外2株分离自同一患者的粪便和脑脊液标本。病原学分析表明,ECHO30是引起该患者无菌性脑膜炎的病原。抗E—CHO30标准株的血清中和这4株病毒的滴度低于标准株5～20倍。VP1区全基因序列测定和同源性比较分析表明,4株ECHO30分离株病毒核苷酸同源性在98．0％～98．5％,氨基酸同源性在98．9％～99．3％,提示这4株病毒来源于同一传播链,2003年5～9月ECHO30在该地区可能有局部流行。系统进化树分析表明,ECHO30病毒可以划分为6个基因型,其中基因型1～5为GenBank中已发表的ECHO30分离株,山东分离株与其它5个基因型成员核苷酸差异分别在9．4％～24．4％,在进化树上形成了较独立的分支,是一个新基因型,将其划分为第6基因型。     

Isolation of varicella-zoster virus from pharyngeal and nasal swabs in varicella patients

Thirteen children aged 5 months to 4 years were observed during a varicella epidemic in an Infants' Hospital; except for two normal individuals, the children had various forms of congenital defects. Eleven of the children developed varicella. During the first 3 days of exanthem, a total of 17 VZ virus strains were isolated: 12 from vesicular fluid, 3 from 23 nasal and 2 from 22 pharyngeal swabs. No strain was isolated during the incubation period despite 57 and 56 swabs having been collected from the throat and nose, respectively; nor was VZ virus isolated from 6 pharyngeal and 7 nasal swabs taken on the first day of exanthem. Isolation attempts performed from vesicular fluid to control quality of the isolation conditions gave a positivity rate of 100%. Under these optimal isolation conditions VZ virus was found in the nose or throat alongside skin vesicles in four of the 11 ill children. Besides VZ virus, the pharyngeal and nasal swabs yielded, respectively, four and four cytomegalovirus strains. The cytomegalovirus infections were inapparent.     

Enteroviral and Mumps Meningitis in Toronto, 1963

Virological investigations of 115 children with the aseptic meningitis syndrome during 1963 resulted in the isolation of enteroviruses from cerebrospinal fluid (CSF) and/or feces of 21 of 48 children who had no association with mumps. For the third successive year, Echo 9 was the dominant enterovirus in cases of aseptic meningitis in Toronto children, but no rashes were associated with Echo 9 meningitis during 1963, in contradistinction to previous years. Mumps virus was isolated from CSF of 25 patients by inoculation of rhesus monkey kidney cultures, and rising or elevated mumps antihemagglutinin titres in paired sera from a further 33 cases provided laboratory evidence of infection with mumps virus in 58 of 67 patients with mumps meningoencephalitis. No enlargement of salivary glands was noted in 20 laboratory-proved cases of mumps meningoencephalitis. Enteroviral meningitis occurred principally during summer, but the peak of mumps meningoencephalitis occurred during late winter.     

Aseptic meningitis,Montreal, 1969: A Clinical and Laboratory Study

During the summer and fall of 1969 an outbreak of aseptic meningitis occurred in Montreal and its environs. Forty-four patients were admitted to the infectious disease ward of The Montreal Children''s Hospital in August, September and October. Half of the patients were in the age group 6 to 10 years. The ratio of males to females was two to one. Patients showed the typical signs and symptoms of aseptic meningitis, namely fever, vomiting, headache, neck stiffness and pleocytosis of the cerebrospinal fluid.Viruses were recovered from 19 (43%) of the 44 cases. The predominant virus in the outbreak was a non-hemagglutinating strain of echovirus 6. Other virus types isolated in the outbreak were echovirus 7, coxsackievirus A9 and coxsackievirus B4. Serological investigations confirmed the validity of the echovirus isolations and identified additional cases.     

Epidemiologic and etiologic characteristic of enterovirus infections in Khabarovsk region

Results of epidemiologic, virologic, and serologic studies of enterovirus infections in Khabarovsk region from 1975 to 2006 were analyzed. Patterns of epidemic process of these infections were established: periodic change of dominating type of pathogen in the population; onset of the large epidemic peaks of incidence during emergence of circulation of new for the given area serotypes of enteroviruses; possibility of realization of several routes of virus transmission. Role of water factor in the progress of the epidemic process was revealed. Etiology of the large epidemic rise of aseptic meningitis incidence in Khabarovsk region in 2006 was established--the leading pathogens were ECHO viruses serotypes E6 and E30.     

Outbreak of aseptic meningitis by echo 4: prevalence of clinical cases among adults

Twenty five cases of meningitis occurred in urban areas surrounding a city (Modena) in Northern Italy, in the period May-July 1999. When the patients were admitted to the Infectious Diseases Division of the University of Modena and Reggio Emilia Hospital and studied by virological and serological methods, the meningitis proved to have an enteroviral origin and enterovirus ECHO 4 type was responsible for all cases of illness. An epidemiological characteristic of the enteroviral meninigitis outbreak was the adult age in 23 out of the 25 patients (mean age 24.50 +/- 7.84 years). The monthly distribution of the aseptic meningitis cases was the following: five cases occurred in May, 13 in June and seven in July. The origin of the spread of the virus infection and the reason for its sudden end remained unknown. The unusual drop in temperature which occurred in the geographic area involved in the aseptic meningitis outbreak at the beginning of August could have interfered with the slowdown in virus circulation.     

Aseptic Meningitis due to Frater Type Virus in Ontario

During the summer and fall of 1959 and 1960 a virus was isolated on 14 occasions from the stool or cerebrospinal fluid or both of 12 patients with a clinical picture of non-paralytic poliomyelitis or aseptic meningitis. The patients were from eight different localities in Ontario. The isolated virus was not neutralized by antisera to any of the known enteroviruses, reoviruses or adenoviruses, nor did antiserum to the isolate neutralize any of these viruses. Antiserum to Frater virus, however, did neutralize this isolate and in turn was itself neutralized by antiserum to this virus. Frater virus was isolated in Scotland from cases of aseptic meningitis during the same period in 1959 and 1960. In Ontario this virus was not encountered before 1959. Isolation of the virus from cerebrospinal fluid and demonstration of immunological response in the patients establish its etiological significance. Biological characteristics indicate that it belongs to the Echo group.     

我国四株埃可病毒6型全基因组序列及重组特征分析

埃可病毒6型(Echovirus 6,ECHO6)作为肠道病毒B组(Enterovirus B,EV-B)的一员,在临床上常导致无菌性脑膜炎(Aseptic meningitis,AM)、急性弛缓性麻痹(Acute flaccid paralysis,AFP)、手足口病(Hand,foot,and mouth disease,HFMD)等多种疾病。本文挑选四株中国大陆地区不同年份、地区及疾病严重程度的代表毒株进行全基因组测定分析,与GenBank上ECHO6全长代表株及EV-B组原型株比对分析,了解其进化特征,并筛选BLAST结果的EV-B组流行株,探究我国流行的ECHO6与其他血清型的基因重组特征。结果提示,本研究四株ECHO6毒株在非结构蛋白区与EV-B其他血清型均发生重组,其中死亡病例标本重组模式更为复杂,可能与疾病严重程度有关。通过本研究分析,可进一步揭示ECHO6的遗传特征,为肠道病毒血清型研究提供基础数据,对了解其进化变异及临床致病力影响具有重要意义。     

Interferon in the Cerebrospinal Fluid of Children with Central Nervous System Disorders

Interferon was detected in the cerebrospinal fluid (CSF) of 26 of 51 children with aseptic meningitis, two of 44 with bacterial meningitis, and four of 118 with miscellaneous conditions including encephalitis, convulsive disorders and leukemia with neurological involvement. The geometric mean titre of interferon in mumps meningitis was seven to eight times higher than that in enteroviral meningitis; however, levels of interferon were not related to the concentration of leukocytes in CSF from these patients. Interferon titres were relatively greater at the height of the febrile response in children with mumps meningitis or enteroviral meningitis. There was no association between the presence of interferon in the CSF and the isolation of mumps virus or an enterovirus from the same specimen. Patients frequently developed homologous antibody one to three days after signs of aseptic meningitis, obscuring the relationship of interferon production to clinical improvement.     

Sporadic Occurrence of Echo Virus Types 27 and 31 Associated with Aseptic Meningitis in Ontario

The sporadic occurrence of Echo virus types 27 and 31 in association with aseptic meningitis during the enterovirus seasons in Ontario in 1959 to 1962 is reported.The etiological significance of both of these isolates was verified by demonstration of type-specific serological response in meningitis patients. Echo 27, which up to now has not been encountered in association with human illness, could be added to the list of viral agents capable of causing aseptic meningitis. Isolation of Echo 31 from cerebrospinal fluid provides definite proof of the etiological significance of this virus in cases of aseptic meningitis.     

Viral Infections of Toronto Children During 1965: I. Enteroviral Disease

Enteroviruses were isolated from feces and/or cerebrospinal fluid of 29 of 43 Toronto children who contracted aseptic meningitis, pleurodynia, abdominal pain or febrile upsets between June and October, 1965. Coxsackie A9 virus was the dominant agent in aseptic meningitis and Coxsackie B1 virus in pleurodynia and other syndromes. Sero-logical evidence of recent Coxsackie B1 and Echo 6 infection was obtained in two additional patients with aseptic meningitis who did not yield virus, and elevated Coxsackie B1 antibody titres were found in one patient with pericarditis. A newborn infant died with myocarditis due to Coxsackie B1 virus following infection of the mother during the immediate antenatal period. Paired sera collected only two to four days apart from patients with enteroviral syndromes or mumps meningoencephalitis frequently showed four-fold or greater increases of antibody levels.     

Etude d'infections à virus ECHO 9

At Ste. Justine Hospital, Montreal, during the period 1957-61, ECHO 9 virus was isolated in 27 cases, in 20 of these during the summer of 1961. All had evidence of meningeal irritation, accompanied by fever and headache. Four of the 20 patients diagnosed during the summer of 1961 had convulsions; 12 presented with a rash; and two simulated meningococcemia. Of the 27 patients, two were paralyzed and one case was diagnosed as transverse myelitis. ECHO 9 virus was isolated from stools and from throat specimens in equal proportion; it was isolated from cerebrospinal fluid in only two instances. Pathogenicity for suckling mice was observed in two of 22 inoculated directly with the specimen material and in 10 of 11 inoculated with the cultured material.     

Molecular Epidemiology of Echovirus 18 Circulating in Mainland China from 2015 to 2016

Echovirus 18(E18), a serotype of Enterovirus B(EV-B) species, is an important pathogen in aseptic meningitis. E18 had rarely been detected in mainland China, but became the predominant pathogen associated with viral encephalitis(VE) and meningitis in Hebei province for the first time in 2015. To investigate the molecular epidemiology and genetic characteristics of E18 in mainland China, sixteen E18 strains from patient throat swabs with hand, foot, and mouth disease(HFMD) in six provinces in China collected between 2015 and 2016, and four E18 strains isolated from 18 patient cerebrospinal fluid specimens with VE in Hebei Province in 2015 were obtained and sequenced. Combined with the sequences from the GenBank database, we performed an extensive genetic analysis. Phylogenetic analysis of VP1 gene sequences revealed that all E18 strains from mainland China after 2015 belonged to subgenotype C2. There were no obvious specific differences in phylogenetic and variation analyses of E18 genome sequences between HFMD and VE/meningitis strains. Potential multiple recombination may have occurred in the 50-untranslated region and in the P2 and P3 nonstructural protein-encoding regions of E18 strains from China. The current E18 strains were potential multiplerecombinant viruses. Overall, these findings supported that E18 caused HFMD, VE, and meningitis, although there were no significant associations between clinical features and viral genomic characteristics.     

云南省4株埃可病毒11型VP1基因特征分析

埃可病毒11型(Echovirus 11,ECHO11)属于肠道病毒B组,是最常见的人类肠道病毒(Human enterovirus,HEV)之一,常引起儿童无菌性脑膜炎、脑炎和急性迟缓性麻痹等疾病。为了对云南省手足口病(Hand,foot,and mouth disease,HFMD)监测中分离到的4株ECHO11毒株的VP1基因进行序列分析,并为云南地区ECHO11的进化及流行趋势等研究提供基础数据,本研究对收集到的HFMD病例标本进行病毒分离培养和鉴定,对鉴定为ECHO11的毒株VP1基因测定其完整序列,与GenBank上其他参考株的VP1区序列构建遗传进化树进行基因分析。结果显示,4株ECHO11型毒株分属A1和D5两个基因亚型,分别与各自基因亚型参考株的同源性为最高。D5基因亚型ECHO11分离株在进化树上聚集为3簇,提示存在多个传播链,其D5-1簇的VP1区氨基酸在多个位点上与同基因亚型的其他簇参考株存在特异突变。本研究揭示,云南地区存在两种不同基因亚型的ECHO11流行情况,特别是D5亚型的出现,提示我国周边流行的ECHO11基因型已进入中国大陆,应密切关注其流行变异情况,为今后制定由ECHO11引起的HFMD的公共卫生策略提供依据。     

Specific and nonspecific T-cell recruitment in viral meningitis: Possible implications for autoimmunity

Specific and nonspecific T-cell invasion into cerebrospinal fluid has been investigated in the nonfatal viral meningoencephalitis induced by intracerebral inoculation of mice with vaccinia virus. At the peak of the inflammatory process on Day 7 approximately 5 to 10% of the Lyt 2⁺ T cells present are apparently specific for vaccinia virus. Concurrently, in mice primed previously with influenza virus, 0.5 to 1.0% of the appropriate T-cell set located in cerebrospinal fluid is reactive to influenza-infected target cells. This vaccinia virus-induced inflammatory exudate may thus contain as many as 500 influenza-immune memory T cells. These findings are discussed from the aspect that such nonspecific T-cell invasion into the central nervous system during aseptic viral meningitis could result in exposure of potentially brain-reactive T cells to central nervous system components.     

Elucidation of Echovirus 30's Origin and Transmission during the 2012 Aseptic Meningitis Outbreak in Guangdong,China, through Continuing Environmental Surveillance

An aseptic meningitis outbreak occurred in Luoding City of Guangdong, China, in 2012, and echovirus type 30 (ECHO30) was identified as the major causative pathogen. Environmental surveillance indicated that ECHO30 was detected in the sewage of a neighboring city, Guangzhou, from 2010 to 2012 and also in Luoding City sewage samples (6/43, 14%) collected after the outbreak. In order to track the potential origin of the outbreak viral strains, we sequenced the VP1 genes of 29 viral strains from clinical patients and environmental samples. Sequence alignments and phylogenetic analyses based on VP1 gene sequences revealed that virus strains isolated from the sewage of Guangzhou and Luoding cities matched well the clinical strains from the outbreak, with high nucleotide sequence similarity (98.5% to 100%) and similar cluster distribution. Five ECHO30 clinical strains were clustered with the Guangdong environmental strains but diverged from strains from other regions, suggesting that this subcluster of viruses most likely originated from the circulating virus in Guangdong rather than having been more recently imported from other regions. These findings underscore the importance of long-term, continuous environmental surveillance and genetic analysis to monitor circulating enteroviruses.     

Mumps and Enteroviral Meningitis in Toronto, 1966

Of 52 children admitted to hospital for apparently typical mumps meningitis in 1966, 50 had their cerebrospinal fluid (CSF) examined. In only 17 was the mumps virus isolated from the CSF. Mumps antihemagglutinin conversions or increments were detected in 32 subjects including 10 whose CSF yielded virus. Antibody conversions were found in 16 patients and fourfold increments in another nine whose serum pairs were collected only one to four days apart. Initial sera from 20 patients were obtained three days or less after the onset of meningitis. Antibody increments were frequently noted about one day after defervescence and clinical improvement. Interferon was detected in CSF from two of eight patients, both of whom yielded virus. Enteroviruses were isolated from CSF and/or feces in seven of 15 cases of aseptic meningitis which occurred between July and October. Six patients including three virus excretors showed enteroviral neutralizing antibody increments during convalescence. The dominant enteroviral serotype was coxsackievirus A9.