Vaccination campaign following an increase in incidence of serogroup C meningococcal diseases in the department of Puy-de-Dôme (France)

In the department of Puy-de-D?me, France, 17 cases of invasive meningococcal disease C were notified between March 2001 and the first week of 2002. Among the 15 confirmed cases, 11 (73%) were serogroup C, 2 (13%) serogroup B, and 2 could not be identified. The rapid increase in the number of cases in a period of low endemicity for the rest of the country and the severity of the disease (case fatality ratio 27%, purpura fulminans 64%) led the health authorities to initiate a vaccination campaign targeting children and young adults from 2 months up to 20 years living in a limited area of the department. Around 80,000 people were immunised between 16/01/02 and 09/02/02. More than half of the 1390 immediate side effects were headache and dizziness. As of mid-March, no further case of meningococcal disease has been notified since 6 January.     

The changing epidemiology of meningococcal disease in the United States, 1992-1996

New meningococcal vaccines are undergoing clinical trials, and changes in the epidemiologic features of meningococcal disease will affect their use. Active laboratory-based, population-based US surveillance for meningococcal disease during 1992-1996 was used to project that 2400 cases of meningococcal disease occurred annually. Incidence was highest in infants; however, 32% of cases occurred in persons >/=30 years of age. Serogroup C caused 35% of cases; serogroup B, 32%; and serogroup Y, 26%. Increasing age (relative risk [RR], 1.01 per year), having an isolate obtained from blood (RR, 4.5), and serogroup C (RR, 1.6) were associated with increased case fatality. Among serogroup B isolates, the most commonly expressed serosubtype was P1.15; 68% of isolates expressed 1 of the 6 most common serosubtypes. Compared with cases occurring in previous years, recent cases are more likely to be caused by serogroup Y and to occur among older age groups. Ongoing surveillance is necessary to determine the stability of serogroup and serosubtype distribution.     

Meningococcal disease in Italy

In 1985, nationwide surveillance of meningococcal disease aimed at establishing appropriate guidelines for prophylaxis started in Italy. The incidence of disease was 1.1/100,000 in 1985 and 0.6/100,000 in 1987. This decreasing trend was particularly evident among military recruits (from 17.3/100,000 in 1985 to 5/100,000 in 1987), reflecting the use of bivalent serogroup (A + C) meningococcal polysaccharide vaccine in all new recruits since January 1987. The age distribution of cases was statistically different from that observed during the 1970s (P less than 0.001), with a shift towards older age groups. Men have been in the majority (516 vs. 358, P less than 0.0000001). Group C has been the most common serogroup encountered (72.2%), while only 18% of the isolates belonged to serogroup B. Among military recruits, serogroup C accounted for 92% (81/88) of the cases. The proportion of strains resistant to sulphonamides was 67%, while only 3% strains were resistant to rifampicin and to minocycline. Reduced susceptibility to ampicillin and to penicillin was observed in 3 and 4% strains respectively. Nine secondary cases were all due to failure in the administration of chemoprophylaxis (sulphonamide given in seven cases, prophylaxis not attempted in two cases). Immunisation of all new military recruits and effective chemoprophylaxis of close contacts of cases are the major guidelines provided by the National Meningitis Surveillance Programme.     

Incidence, serogroups and case-fatality rate of invasive meningococcal infections in a Swedish region 1975-1989.

In a retrospective study of invasive meningococcal infections in Greater Gothenburg, Sweden, 213 cases of culture-verified meningitis or septicaemia were identified during the 15-year period 1975-1989. The annual incidence was 2.0/100,000. Cases were seen in all age-groups with the highest rates in the 0-4 and 15-19 year-old groups, 9.5 and 6.2/100,000 respectively. 20% of the patients were less than 2 years. 91% of the patients had no known risk factors. In only 10 cases (5%) was contact with another case of meningococcal infection known. The main clinical manifestations were meningitis (57%), septicaemia with no sign of focal infection (25%) and septic shock (17%). The case-fatality rate for all the patients was 6.6% and did not change during the 15-year period. One-third of the patients who presented with septic shock died. The serogroup was known for strains from 192 patients. 51% of the strains belonged to serogroup B, 10% to group A and 23% to group C. In conclusion, the incidence of meningococcal infection was low but the relatively high case-fatality rate warrants a search for effective prophylaxis. About 30% of the cases were potentially preventable by the currently available tetravalent (A, C, Y and W135) polysaccharide vaccine, which is immunogenic in children greater than 2 years. Widespread use of antibiotic prophylaxis to close contacts of known cases would not lower the incidence markedly.     

Epidemiology of meningococcal disease in southern Brazil from 1995 to 2003, and molecular characterization of Neisseria meningitidis using multilocus sequence typing

Objective  To describe the epidemiology of meningococcal disease (MD) in southern Brazil.
Methods  Retrospective cohort study among 2215 MD cases reported from 1995 to 2003 in Rio Grande do Sul (RS) State.
Results  The overall incidence fell by 50%; the case-fatality rate during this period was 22%. Even so, the incidence of MD remained high after the epidemic period ended in 1999. Together, the age groups of 1–4 years and infants accounted for 54.1% of reported cases with incidences of 11.3/100 000 and 31.3/100 000, respectively; 69.8% of cases were caused by Neisseria meningitidis serogroup B, which increased significantly. There was a significant decrease in serogroup C cases in the whole period. The phenotypes B:4,7:P1.19,15, B:15:P1.7,16 and B:NT:P1.3 caused almost 50% of all serotyped cases. Fifty-six isolates obtained from RS patients during the first non-epidemic year 2000 plus 20 isolates from other southern Brazilian states (Santa Catarina and Paraná), Denmark and France were typed by multilocus sequence typing. Twenty sequence types (STs) were identified, eight of them found only in RS. ST-33 (27%) and ST-259 (18%) were the most frequent; both belong to the ST-32/ET-5 complex. ST-259 cases showed a trend towards higher risk of fatal outcome. ST-259 isolates were not detected among geographic controls or in other studies in Brazil.
Conclusion  Our data suggest that ST-33 and ST-259 clones and the emergence of the ST-103 isolates contributed to the continued high incidence of MD in RS.     

Emergence of endemic serogroup W135 meningococcal disease associated with a high mortality rate in South Africa.

BACKGROUND: In the African meningitis belt, Neisseria meningitidis serogroup W135 has emerged as a cause of epidemic disease. The establishment of W135 as the predominant cause of endemic disease has not been described. METHODS: We conducted national laboratory-based surveillance for invasive meningococcal disease during 2000-2005. The system was enhanced in 2003 to include clinical data collection of cases from sentinel sites. Isolates were characterized by pulsed-field gel electrophoresis and multilocus sequence typing. RESULTS: A total of 2135 cases of invasive meningococcal disease were reported, of which 1113 (52%) occurred in Gauteng Province, South Africa. In this province, rates of disease increased from 0.8 cases per 100,000 persons in 2000 to 4.0 cases per 100,000 persons in 2005; the percentage due to serogroup W135 increased from 7% (4 of 54 cases) to 75% (221 of 295 cases). The median age of patients infected with serogroup W135 was 5 years (interquartile range, 2-23 years), compared with 21 years (range, 8-26 years) for those infected with serogroup A (P<.001). The incidence of W135 disease increased in all age groups. Rates were highest among infants (age, <1 year), increasing from 5.1 cases per 100,000 persons in 2003 to 21.5 cases per 100,000 persons in 2005. Overall case-fatality rates doubled, from 11% in 2003 to 22% in 2005. Serogroup W135 was more likely to cause meningococcemia than was serogroup A (82 [28%] of 297 cases vs. 11 [8%] of 141 cases; odds ratio, 8.9, 95% confidence interval, 2.2-36.3). A total of 285 (95%) of 301 serogroup W135 isolates were identified as 1 clone by pulsed-field gel electrophoresis; 7 representative strains belonged to the ST-11/ET-37 complex. CONCLUSIONS: Serogroup W135 has become endemic in Gauteng, South Africa, causing disease of greater severity than did the previous predominant serogroup A strain.     

Meningococcal disease in urban south western Sydney, 1990–1994

Background: There has been a sustained increase in incidence of meningococcal disease throughout Australia since 1987. In south western Sydney the incidence is higher than the national rate and a cluster of cases occurred in 1991 resulting in a widespread vaccination programme. Aims: To investigate the clinical demographics of patients with meningococcal disease treated in south western Sydney, and to differentiate meningococcal strains to understand better the epidemiology in this urban setting. In addition, to investigate whether delays in diagnosis of meningococcal disease and institution of appropriate treatment were occurring. Methods: Retrospective classification of notified cases as meningitis, septicaemia, meningitis/septicaemia, and other syndromes. Clinical information recorded to establish patterns of disease, delays in diagnosis and appropriate treatment, and outcome. Microbiological classification of organisms isolated by serogroup, serotype and subtype. Results: Meningococcal disease primarily affects young children in winter months in south western Sydney, with a secondary peak of incidence in the 15–20 year old age group. 20.7% presented with meningitis only, 22.4% with septicaemia only, and 53.4% with meningitis/septicaemia. There was a delay in diagnosis and institution of appropriate treatment of more than two hours in 21/58 (36.2%) patients including three of the six who died. No patient had received a parenteral antibiotic prior to coming to hospital - 18.9% had received an oral antibiotic. The use of antibiotics before diagnostic lumbar puncture decreased the number of positive CSF cultures. However, in all but one patient with negative cultures there was other microbiological evidence of meningococcal disease. The mortality rate was highest (30.8%) in patients with septicaemia only, 6.5% in patients with meningitis/septicaemia and 0% in patients with meningitis only. Serogroup C was the predominant organism in all age groups. The predominant serotype was 2b (80% of serogroup C isolates). Subtypes were more variable but P1.2 occurred in 66.7% of serogroup C strains. Conclusions: There is a need for more education in our Health Area to improve the time taken to diagnose and institute appropriate treatment. The predominance of serogroup C is unusual in urban Australia where national data show serogroup B organisms predominate. Meningococci of phenotype C:2b:Pl.2 have continued to cause disease in our Health Area for the past five years. This phenotype is uncommon in other areas of Australia.     

Meningococcal disease

Due to a high complication and case fatality rate, meningococcal diseases are important health problems both in tropical countries experiencing severe epidemics as well as in countries of moderate climate zones. Worldwide N. meningitidis of sero-groups A, B, and C are predominant and to a lesser extent serogroups W (135) and Y play a role, whereas in Europe more than 90 % of meningococcal diseases are caused by serogroups B and C of N. meningitidis. In Germany and other developed countries the majority of cases occur in very young children and adolescents. Since many years, meningococcal polysaccharide vaccines against diseases due to N.meningitidis serogroup A, C, Y and W (135) are commercially available. Unfortunately, a vaccine against diseases caused by N. meningitidis serogroup B is still under development. The recently developed and licensed conjugated meningococcal vaccines against N. meningitidis serogroup C are also protective against disease in very young children. Eight countries in Western Europe as well as Australia have already established country-wide immunization programs for children and adolescents. Within only 2 to 3 years, well managed programs have achieved far-reaching control of meningococcal C disease in UK and the Netherlands. In Germany, the Advisory Committee on Immunization (STIKO recommends immunization for selected risk groups. The current increase of the percentage of meningococcal C diseases to 28 - 30 % gives reason for further discussion regarding immunization strategies. How-ever, the STIKO expressively declares, that in addition to the recommendation for risk groups, the physician can use all vaccines licensed in Germany without any restriction. It is his/her responsibility to advice the patients regarding immunization possibilities against the life-threatening meningococcal disease, particularly if cases are occurring.     

Impact of the meningococcal C conjugate vaccine in Spain: an epidemiological and microbiological decision

The new meningococcal C conjugate vaccine became available in Spain and was included in the infant vaccination schedule in 2000. A catch-up campaign was carried out in children under six years of age. As a consequence, the incidence of meningococcal disease caused by serogroup C has fallen sharply during the last three epidemiological years in Spain. The risk of contracting serogroup C disease in 2002/2003 fell by 58% when compared with the season before the conjugate vaccine was introduced. There was also an important decrease in mortality. Three deaths due to serogroup C occurred in the age groups targeted for vaccination in 2002/2003, compared with 30 deaths in the same age groups in the season before the launch of the vaccine campaign. In the catch-up campaign the vaccine coverage reached values above 92%. For the 2001, 2002 and 2003 routine childhood immunisation programme coverage values ranged from 90% to 95%. During the past three years a total of 111 cases of serogroup C disease have been reported in patients in the vaccine target group. Most of the vaccination failures occurred during the epidemiological year 2002/2003. Eight (53%) vaccine failures occurred in children who had been routinely immunised in infancy, and could be related to a lost of protection with time since vaccination. The isolation of several B:2a:P1.5 strains (ST-11 lineage) is noteworthy. These may have their origin in C:2a:P1.5 strains which, after undergoing genetic recombination at the capsular operon level, express serogroup B. These strains could have relevant epidemic potential.     

Epidemiological patterns of meningococcal meningitis in Niger in 2003 and 2004: under the threat of N. meningitidis serogroup W135

Since the Neisseria meningitidis serogroup W135 epidemic in Burkina Faso in 2002, the neighbouring countries dread undergoing outbreaks. Niger has strongly enhanced the microbiological surveillance, especially by adding the polymerase chain reaction (PCR) assay to the national framework of the surveillance system. During the 2003 epidemic season, 8113 clinically suspected cases of meningitis were notified and nine districts of the 42 crossed the epidemic threshold, while during the 2004 season, the number of cases was 3521 and four districts notified epidemics. In 2003 and 2004, serogroup A was identified in most N. meningitidis from cerebrospinal fluid (CSF) specimens (89.7% of 759 and 87.2% of 406, respectively). Although serogroup W135 represented only 8.3% of the meningococcal meningitis in 2003 and 7.9% in 2004, and was not involved in outbreaks, it was widespread in various areas of the country. In the regions that notified epidemics, the proportion of serogroup W135 was tiny while it exceeded 40% in several non-epidemic regions. Despite the wide distribution of W135 serogroup in Niger and the fears expressed in 2001, the threat of a large epidemic caused by N. meningitidis W135 seems to have been averted in Niger so far. There is no clear indication whether this serogroup will play a lasting role in the epidemiology of meningococcal meningitis or not. As early as in the 1990s, a significant but transient increase in the incidence of N. meningitidis serogroup X was observed. Close microbiological surveillance is crucial for monitoring the threat and for identifying at the earliest the serogroups involved in epidemics.     

Outbreaks of serogroup X meningococcal meningitis in Niger 1995-2000

In the African meningitis belt, the recurrent meningococcal meningitis epidemics are generally caused by serogroup A. In the past 20 years, other serogroups have been detected, such as X or W135, which have caused sporadic cases or clusters. We report here 134 meningitis cases caused by Neisseria meningitidis serogroup X that occurred in Niamey between 1995 and 2000. They represented 3.91% of the meningococcal isolates from all CSF samples, whereas 94.4% were of serogroup A. Meningococcal meningitis cases were detected using the framework of the routine surveillance system for reportable diseases organized by the Ministry of Public Health of Niger. The strains were isolated and determined by the reference laboratory for meningitis in Niamey (CERMES) and further typed at the WHO collaborating center of the Pharo in Marseille and at the National Reference Center for the Meningococci at the Institut Pasteur. Reference laboratories in Marseille and Paris characterized 47 isolates having the antigenic formula (serogroup:serotype:sero-subtype) X:NT:P1.5. Meningitis cases due to meningococcus serogroup X did not present any clinical or epidemiological differences to those due to serogroup A. The seasonal incidence was classical; 93.3% of the cases were recorded during the dry season. The mean age of patients was 9.2 years (+/- 6 years). The sex ratio M/F was 1.3. Case fatality rate was 11.9% without any difference related to age or sex. The increasing incidence of the serogroup X was not related to the decrease of serogroup A, but seemed cyclic, and evolved independently of the recurrence of both serogroups A and C.     

Epidemiology of serogroup B invasive meningococcal disease in Ontario, Canada, 2000 to 2010

ABSTRACT: BACKGROUND: Invasive meningococcal disease (IMD) caused by serogroup B is the last major serogroup in Canada to become vaccine-preventable. The anticipated availability of vaccines targeting this serogroup prompted an assessment of the epidemiology of serogroup B disease in Ontario, Canada. METHODS: We retrieved information on confirmed IMD cases reported to Ontario's reportable disease database between January 1, 2000 and December 31, 2010 and probabilistically-linked these cases to Public Health Ontario Laboratory records. Rates were calculated with denominator data obtained from Statistics Canada. We calculated a crude number needed to vaccinate (NNV) using the inverse of the infant (<1 year) age-specific incidence multiplied by expected vaccine efficacies between 70 % and 80 %, and assuming only direct protection (no herd effects). RESULTS: A total of 259 serogroup B IMD cases were identified in Ontario over the 11-year period. Serogroup B was the most common cause of IMD. Incidence ranged from 0.11 to 0.27/100,000/year, and fluctuated over time. Cases ranged in age from 13 days to 101 years; 21.4 % occurred in infants, of which 72.7 % were <6 months. Infants had the highest incidence (3.70/100,000). Case-fatality ratio was 10.7 % overall. If we assume that all infant cases would be preventable by vaccination, we would need to vaccinate between 33,784 and 38,610 infants to prevent one case of disease. CONCLUSIONS: Although rare, the proportion of IMD caused by serogroup B has increased and currently causes most IMD in Ontario, with infants having the highest risk of disease. Although serogroup B meningococcal vaccines are highly anticipated, our findings suggest that decisions regarding publicly funding serogroup B meningococcal vaccines will be difficult and may not be based on disease burden alone.     

Salmonella meningitis and antimicrobial susceptibilities

Meningitis caused by Salmonella species is not uncommon in many developing countries. Patients suspected of bacterial meningitis who were admitted to Siriraj Hospital were enrolled in this study during 1986-2001. There were only 19 cases of Salmonella meningitis. Salmonella serogroup D ranked first, followed by serogroup C, serogroup B and then serogroup H. Most patients were children under 1 year of age. The antimicrobial susceptibility pattern for Salmonella meningitis may provide a guideline for the selection of appropriate drug treatment.     

Relevance of Fcgamma receptor and interleukin-10 polymorphisms for meningococcal disease.

The contribution of individual Fcgamma receptor (FcgammaR) subclasses to meningococcal phagocytosis was studied. In addition, functional FcgammaR polymorphisms were determined in 50 patients with meningococcal disease (MD), in 183 first-degree relatives of MD patients, and in 239 healthy control subjects, to study the association of FcgammaR genotypes with disease. Efficient internalization of opsonized Neisseria meningitidis serogroup B was mediated via multiple FcgammaR subclasses on phagocytes. Accordingly, a low-efficiency combination of FcgammaRIIa-R/R131, FcgammaRIIIa-F/F158, and FcgammaRIIIb-NA2/2 genotypes was increased significantly in relatives of patients with MD, compared with healthy control subjects (P<.05; odds ratio, 2.6; 95% confidence interval, 1.1-6.3). FcgammaRIIa and FcgammaRIIIa genotype distributions differed between patients with sepsis and those with meningitis. Combined genotypes of FcgammaRIIa and interleukin-10 -1082, which was previously reported as being associated with MD outcome, were distributed randomly in control subjects but not in relatives of patients with MD (P<.01). These data provide further evidence for the association of polymorphic genes on chromosome 1 and MD.     

Group B streptococcal disease: from trials and tribulations to triumph and trepidation.

Group B streptococci garnered attention during the 1970s when they surpassed Escherichia coli and Staphylococcus aureus to become the principal causes of sepsis in early infancy. During the 1980s, several clinical trials demonstrated that administration of antimicrobial agents during labor could interrupt vertical transmission and prevent invasive disease in the first week of life (i.e., early-onset disease). However, prophylaxis was not widely used during the next 10 years. On the basis of efforts by clinician-researchers, professional organizations, community-based parent advocacy groups, and the public health community, consensus recommendations for group B streptococcal prophylaxis were finally issued in 1996. By the end of 1999, the incidence of early-onset disease in selected counties within the United States had decreased by 70%, and the gap between black and white persons with disease narrowed by 75%. This recent triumph leaves the professional community treading lightly, alert to the need to monitor for unintended consequences that may threaten recent progress.     

Rabies in France: an update

INTRODUCTION: In 1996, rabies was responsible for more than 35,000 deaths worldwide. Three cases of human rabies that had been contracted abroad were diagnosed in France during the same year. Cases notified in 1997 followed exposure outside the country. Fox, bat, and dog rabies are reviewed on the basis of the latest epidemiological data obtained in France. CURRENT KNOWLEDGE AND KEY POINTS: Two cases of fox rabies diagnosed in 1998 occurred at the border between France and Germany, thus preventing five French departments bordering Germany from being officially declared rabies-free in 1999. The campaigns for oral immunization of foxes that are led since 1986 are responsible for the decrease in rabies incidence. Though not well known, bat rabies is a reality in France, involving either European virus strains (five cases all over the country) or African virus strains that are carried along by imported tropical bats. Dogs rabies is also today an imported disease. FUTURE PROSPECTS AND PROJECTS: The decrease in risk for rabies has resulted from the conjunction of multiple efforts: extensive programs aimed at oral vaccination of foxes in France and its neighboring countries, efficient epidemiological survey, sanitary controls at borders, ban on importing tropical bats. Furthermore, recommendations for preventive pre-exposure immunization have recently been changed, leading to modifications of the French licensing form.     

Immunization policies and vaccine coverage among adults. The risk for missed opportunities

A substantial proportion of vaccine-preventable diseases occur among adults. Each year, there are more than 20,000 influenza-associated deaths during epidemics, approximately 40,000 deaths related to pneumococcal disease, and one to five cases of diphtheria. More than 300,000 hepatitis B infections occur annually, mostly in patients 15 to 29 years old. From 1982 to 1986, 96% of patients with tetanus were age 20 and older. Among young adults, 5% to 20% are susceptible to rubella and measles, and outbreaks occur where these persons congregate. Most adults are not immunized, despite recommendations for vaccines against these diseases. Vigorous efforts are needed to implement strategies to reduce disease incidence, morbidity, and death among adults.     

Emergence of serogroup C meningococcal disease associated with a high mortality rate in Hefei, China

ABSTRACT: BACKGROUND: Neisseria meningitidis serogroup C has emerged as a cause of epidemic disease in Hefei. The establishment of serogroup C as the predominant cause of endemic disease has not been described. METHODS: We conducted national laboratory-based surveillance for invasive meningococcal disease during 2000--2010. Isolates were characterized by pulsed-field gel electrophoresis and multilocus sequence typing. RESULTS: A total of 845 cases of invasive meningococcal disease were reported. The incidence increased from 1.25 cases per 100,000 population in 2000 to 3.14 cases per 100,000 in 2003 (p < 0.001), and peaked at 8.43 cases per 100,000 in 2005. The increase was mainly the result of an increase in the incidence of serogroup C disease. Serogroup C disease increased from 2/23 (9%) meningococcal cases and 0.11 cases per 100,000 in 2000 to 33/58 (57%) cases and 1.76 cases per 100,000 in 2003 (p < 0.01). Patients infected with serogroup C had serious complications more frequently than those infected with other serogroups. Specifically, 161/493 (32.7%) cases infected with serogroup C had at least one complication. The case-fatality rate of serogroup C meningitis was 11.4%, significantly higher than for serogroup A meningitis (5.3%, p = 0.021). Among patients with meningococcal disease, factors associated with death in univariate analysis were age of 15--24 years, infection with serogroup C, and meningococcemia. CONCLUSIONS: The incidence of meningococcal disease has substantially increased and serogroup C has become endemic in Hefei. The serogroup C strain has caused more severe disease than the previously predominant serogroup A strain.     

Advances with vaccination against Neisseria meningitidis

In the last decade, meningococcal serogroup C conjugate vaccination programs have been demonstrated to be hugely successful with a truly impressive public health impact. In sub‐Saharan Africa, with the implementation of an affordable serogroup A conjugate vaccine, it is hoped that a similar public health impact will be demonstrated. Challenges still remain in the quest to develop and implement broadly protective vaccines against serogroup B disease. New, broad coverage vaccines against serogroup B are for the first time becoming available although little is known about their antibody persistence, effectiveness or effect on nasopharyngeal carriage. Enhanced surveillance following any potential vaccine introduction against serogroup B needs to be thoroughly implemented. The future now holds a distinct possibility, globally, for substantially decreasing meningococcal disease, regardless of infecting serogroup.