Current knowledge regarding the investigational 13-valent pneumococcal conjugate vaccine

The Molecular Approaches and Challenges of Streptococcus pneumoniae Serotyping for Epidemiological Surveillance in the Vaccine Era

Streptococcus pneumoniae (pneumococcus) belongs to the Gram-positive cocci. This bacterium typically colonizes the nasopharyngeal region of healthy individuals. It has a distinct polysaccharide capsule - a virulence factor allowing the bacteria to elude the immune defense mechanisms. Consequently, it might trigger aggressive conditions like septicemia and meningitis in immunocompromised or older individuals. Moreover, children below five years of age are at risk of morbidity and mortality. Studies have found 101 S. pneumoniae capsular serotypes, of which several correlate with clinical and carriage isolates with distinct disease aggressiveness. Introducing pneumococcal conjugate vaccines (PCV) targets the most common disease-associated serotypes. Nevertheless, vaccine selection pressure leads to replacing the formerly dominant vaccine serotypes (VTs) by non-vaccine types (NVTs). Therefore, serotyping must be conducted for epidemiological surveillance and vaccine assessment. Serotyping can be performed using numerous techniques, either by the conventional antisera-based (Quellung and latex agglutination) or molecular-based approaches (sequetyping, multiplex PCR, real-time PCR, and PCR-RFLP). A cost-effective and practical approach must be used to enhance serotyping accuracy to monitor the prevalence of VTs and NVTs. Therefore, dependable pneumococcal serotyping techniques are essential to precisely monitor virulent lineages, NVT emergence, and genetic associations of isolates. This review discusses the principles, associated benefits, and drawbacks of the respective available conventional and molecular approaches, and potentially the whole genome sequencing (WGS) to be directed for future exploration.

Review on Pneumococcal Infection in Children

Childhood pneumococcal infection is a growing concern among paediatricians especially, in countries where there is no routine vaccination program against Streptococcal pneumoniae. The disease is associated with significant morbidity and mortality in young children particularly those who are under the age of two years. Its main virulent factors include polysaccharide capsule, autolysin, pneumolysin, choline-binding Protein A, the higher chance for genetic transformation, and the presence of pilli that facilitate enhanced binding of bacteria to host cellular surfaces. More severe and invasive pneumococcal infections are seen in children with immunodeficiencies, hypofunctional spleen, malnutrition, chronic lung disease and nephrotic syndrome. The disease spectrum includes a range of manifestations from trivial upper respiratory tract infections to severe invasive pneumococcal disease (PD). The basis of diagnosis is the isolation of bacteria in the culture of body fluids including blood. Antibiotics are best guided by sensitivity patterns and the emergence of resistance is a growing concern.

Epidemiologic Benefits of Pneumococcal Vaccine Introduction into Preventive Vaccination Programs

Vaccination against pneumococci is one of the most effective methods of preventing pneumococcal diseases. Currently, 10- and 13-valent conjugate vaccines (PCV10 and PCV13) and 23-valent polysaccharide vaccine (PPSV23) are used. Only the conjugate vaccines are used in children. The PCV can be used both in children and adults, but children can receive only PCV. A side effect of vaccination was that bacterial serotypes not included in a vaccine started increasingly emerging in pneumococcal infections, replacing the serotypes eliminated by the vaccine. The basic vaccination schedule consists of three or four doses, according to the country's recommendation. In Poland, it consists of two primary doses followed by a supplementary dose of the PCV-10, with some modifications in case of specific risk factors. The use of preventive vaccinations has helped reduce antibiotic resistance, as serotypes characterized by a rapid acquisition of drug resistance are included in the vaccine serologic spectrum, making their environment prevalence decrease. The research is currently underway on conjugate vaccines that contain a greater number of bacterial serotypes and on more universal vaccines that would eliminate the emergence of new serotypes.

Viral etiological causes of febrile seizures for respiratory pathogens (EFES Study)

BACKGROUND

Febrile seizure is the most common childhood neurological disorder, is an important health problem with potential short- and long-term complications, also leading to economic burden and increased parental anxiety about fevers and seizures occurring in their children. There are no routine recommendation to detect etiological causes of FS for neurological perspective, further knowledge about the etiological causes of FS in children will support preventive measures and follow-up strategies. The aim of this study is to evaluate the percentage of respiratory viruses in children with FS.

METHODS

This prospective multicenter study, entitled "Viral etiological causes of febrile seizures for respiratory pathogens (EFES Study)" examined representative populations in eight different cities in Turkey between March 1, 2016 and April 1, 2017. Nasopharyngeal swabs were taken from all children at presentation. A respiratory multiplex array was performed to detect for influenza A and B; respiratory syncytial virus A and B; human parainfluenza virus 1-2-3 and 4; human coronavirus 229E and OC43; human rhinovirus; human enterovirus; human adenovirus; human bocavirus; human metapneumovirus.

RESULTS

During the study period, at least one virus was detected in 82.7% (144/174) of children with FS. The most frequently detected virus was adenovirus, followed by influenza A and influenza B. Detection of more than one virus was present in 58.3% of the children with FS, and the most common co-existence was the presence of adenovirus and influenza B. In children younger than 12 months, Coronavirus OC43 was the most common, while influenza A was most frequently observed in children older than 48 months (p < 0.05). Human bocavirus was common in children who experienced complex FS, while respiratory syncytial virus (RSV) A was more common in children who experienced simple FS. Influenza B virus was the most common virus identified in children who were experiencing their first incidence of FS (p < 0.05).

CONCLUSIONS

This study indicates that respiratory viruses are important in the etiology of FS in children. The results show that antibiotics must be prescribed carefully in children with FS since the majority of cases are related to viral causes. Widespread use of the existing quadrivalent influenza vaccine might be useful for the prevention of FS related to the flu. Further vaccine candidates for potential respiratory pathogens, including RSV, might be helpful for the prevention of FS.

Evaluation of different infant vaccination schedules incorporating pneumococcal vaccination (The Vietnam Pneumococcal Project): protocol of a randomised controlled trial

INTRODUCTION

WHO recommends the use of pneumococcal conjugate vaccine (PCV) as a priority. However, there are many countries yet to introduce PCV, especially in Asia. This trial aims to evaluate different PCV schedules and to provide a head-to-head comparison of PCV10 and PCV13 in order to generate evidence to assist with decisions regarding PCV introduction. Schedules will be compared in relation to their immunogenicity and impact on nasopharyngeal carriage of Streptococcus pneumoniae and Haemophilus influenzae.

METHODS AND ANALYSIS

This randomised, single-blind controlled trial involves 1200 infants recruited at 2 months of age to one of six infant PCV schedules: PCV10 in a 3+1, 3+0, 2+1 or two-dose schedule; PCV13 in a 2+1 schedule; and controls that receive two doses of PCV10 and 18 and 24 months. An additional control group of 200 children is recruited at 18 months that receive one dose of PCV10 at 24 months. All participants are followed up until 24 months of age. The primary outcome is the post-primary series immunogenicity, expressed as the proportions of participants with serotype-specific antibody levels ≥0.35 µg/mL for each serotype in PCV10.

ETHICS AND DISSEMINATION

Ethical approval has been obtained from the Human Research Ethics Committee of the Northern Territory Department of Health and Menzies School of Health Research (EC00153) and the Vietnam Ministry of Health Ethics Committee. The results, interpretation and conclusions will be presented to parents and guardians, at national and international conferences, and published in peer-reviewed open access journals.

TRIAL REGISTRATION NUMBER

NCT01953510; Pre-results.

The effect of pneumococcal conjugate vaccines on incidence and microbiology associated with complicated acute otitis media

OBJECTIVES

The objectives of this study were to investigate the incidence of complicated acute otitis media (cAOM) as well as the associated microbiology before and after introduction of the 7- and 13-valent pneumococcal conjugate vaccines (PCV-7 and -13), respectively. CAOM comprises "heavy" AOM (AOM demanding hospitalization), mastodismus (M) and acute mastoiditis (AM).

METHODS

A retrospective cohort study of the incidence and microbiology associated with cAOM during the non-PCV era, the PCV-7 and 13 eras, respectively. Clinical and microbiological data were prospectively registered in a local database. The incidences of cAOM as well as the distribution of various bacterial strains in the three eras were compared.

RESULTS

A total of 246 cases of cAOM (125 in the pre-vaccine period (2001-2006), 50 in the PCV-7 period (2007-2010) and 71 in the PCV-13 period (2011-2015)) were identified. The incidence of hAOM decreased by 62% in the PCV7-era but increased to almost pre-vaccine levels in the PCV-13 era. In the M + AM group, a decrease by almost 21% in the PCV7-era was found compared to the pre vaccine era, whereas the decrease was only 12% in the PCV13-era. The three most common findings in both hAOM and M + AM were Streptococcus pneumonia (SP), group A streptococcus (GAS) and "no growth". In the hAOM group, SP decreased from 38% in the pre-vaccine era to 31% in the PCV7-era and further to 16% in the PCV13-era. GAS decreased from 17% in the pre-vaccine era to 0% in the PCV7-era and 16% in the PCV13-era. The percentage of "no growth" increased from 12% to 38% and 44%, respectively. In the M + AM group, SP decreased to 10% in the PCV13-era compared with 44% in the pre-vaccine era and 41% in the PCV7-era. An increase in GAS from 15% in the pre-vaccine era and PCV7-era to 30% in the PCV13-era was observed. The "no growth" percentage increased from 13% in the pre-vaccine era to 26% in the PCV7-era and 33% in the PCV13-era.

CONCLUSION

Introduction of PCV7 and PCV13 has been associated with an overall reduction of cAOM in Central Region Denmark. Pneumococci were still one of the two most common bacteria species related to cAOM though a decrease in pneumococci positive cases was observed. We found an increase in M + AM induced by GAS and a relatively large increase in "no growth", which might be caused by a more aggressive pre-hospital approach to treatment with antibiotics. Consequently, it is not evident whether the reduction of incidences is caused by the vaccines or a more aggressive antimicrobial attitude to manage AOM. The shift to GAS from SP is worrisome, and therefore continuous surveillance of the microbiology associated with AOM is warranted.

Why the recent ACIP recommendations regarding conjugate pneumococcal vaccine in adults may be irrelevant

The Advisory Committee on Immunization Practices of the US Centers for Disease Control (ACIP) has recently recommended the 13-valent protein-conjugate pneumococcal vaccine (PCV13) for routine use in adults age 18-65 who have immunocompromising conditions as well as in all adults over the age of 65. By comparison to 23-valent pneumococcal polysaccharide vaccine (PPSV23), antibody responses to PCV13 are similar or modestly better one month after vaccination. The implication that PCV13 will provide more persistent immunity has been disproven; 12 months later, recipients of PPSV23 or PCV13 have identical anti-pneumococcal activity. The theoretical concept that a protein-based vaccine will be followed by a booster effect when pure polysaccharide antigens are administered is based on remarkably little evidence. The strongest objection to the current recommendations is that, since PCVs stimulate mucosal antibodies, the widespread use of these PCVs has led to a near-disappearance of vaccine serotypes from the population. This phenomenon has been amply documented for PCV7, and PCV13 is well on its way to doing the same. Thus, as US physicians are convincing their adult patients to receive 2 "pneumonia shots" instead of one, the use of PCV13 in the USA is rapidly becoming irrelevant.

Pediatric invasive pneumococcal disease in the United States in the era of pneumococcal conjugate vaccines

Invasive infections caused by Streptococcus pneumoniae continue to be a major cause of morbidity and mortality worldwide, especially in children under 5 years of age. In the United States, 90% of invasive pneumococcal infections in children are caused by 13 serotypes of S. pneumoniae. The licensure (in 2000) and subsequent widespread use of a heptavalent pneumococcal conjugate vaccine (PCV7) have had a significant impact on decreasing the incidence of serious invasive pneumococcal disease (IPD) in all age groups, especially in children under 2 years of age. However, the emergence of replacement non-PCV7 serotypes, especially serotype 19A, has resulted in an increase in the incidence of serious and invasive infections. In 2010, a 13-valent PCV was licensed in the United States. However, the impact that this vaccine will have on IPD remains to be seen. The objectives of this review are to discuss the epidemiology of serious and invasive pneumococcal infections in the United States in the PCV era and to review some of the pneumococcal vaccines that are in development.

Pneumococcal vaccines for children: a global public health priority

Pneumococcal conjugated vaccines have been recommended in children for over a decade in many countries worldwide. Here we review the development of pneumococcal vaccines with a focus on the two types currently available for children and their safety record. We discuss also the effect of vaccines, including the 13-valent pneumococcal conjugate vaccine, on invasive pneumococcal diseases in children, particularly bacteraemia, pneumonia and meningitis, as well as on mucosal disease and carriage. In regions where immunization was implemented in young children, the number of invasive pneumococcal diseases decreased significantly, not only in the target age group, but also in younger and much older subjects. Challenges and future perspectives regarding the development of new 'universal' vaccines, which could bypass the current problem of serotype-specific protection in a context of serotype replacement, are also discussed.

The status of invasive pneumococcal disease among children younger than 5 years of age in north-west Lombardy, Italy

Background

Streptococcus pneumoniae is a leading cause of invasive infection in young children causing morbidity and mortality. Active surveillance systems of invasive pneumococcal disease (IPD) are recommended worldwide. The aim of this study was to estimate the current incidence of IPD and to describe the serotype distribution and the antimocrobial susceptibility of S. pneumoniae isolates in children aged less than 5 years residing in North-West Lombardy, Italy.

Methods

A twelve-month prospective active surveillance system recruited all children aged less than 5 years admitted for suspicion of IPD at emergency room of ten hospitals located in the monitored area. Blood samples were taken in all participants for confirmation of IPD based on isolation of S. pneumoniae from blood. Pneumococcal meningitis and sepsis were additionally confirmed by cerebrospinal fluid analysis. Serotyping and antimicrobial susceptibility testing were performed on isolates from blood.

Results

A total of 15 confirmed cases of IPD were detected among 135 recruited children, including pneumonia (n = 8), bacteremia (n = 4), sepsis (n = 2) and meningitis (n = 1). The annual IPD incidence rate was 50.0/100,000 (95%CI, 30.5-82.5/100,000). Incidence was 58.3/100,000 (28.8-120.1/100,000) among children aged less than 2 years and 44.4/100,000 (22.9-87.5/100,000) among children aged 2–4 years. Thirteen isolates were typified. The most common serotype was 19A (23.1%) that together with serotypes 1, 7F and 19F accounted for 69.2% of typified isolates. Serotypes 14, 23F, 12B and 15C were also identified. The 7- and 13-valent pneumococcal conjugate vaccines covered respectively 30.8% and 84.6% of typified IPD cases. One isolate (serotype 15C) was penicillin-resistant and caused meningitis.

Conclusions

The inclusion of the 13-valent pneumococcal conjugate vaccine in immunization programs of young children might be considered to reduce incidence and morbidity of invasive pneumococcal disease in this surveilled population.

Health and economic impact of PHiD-CV in Canada and the UK: a Markov modelling exercise

OBJECTIVE

The spectrum of diseases caused by Streptococcus pneumoniae and non-typeable Haemophilus influenzae (NTHi) represents a large burden on healthcare systems around the world. Meningitis, bacteraemia, community-acquired pneumonia (CAP), and acute otitis media (AOM) are vaccine-preventable infectious diseases that can have severe consequences. The health economic model presented here is intended to estimate the clinical and economic impact of vaccinating birth cohorts in Canada and the UK with the 10-valent, pneumococcal non-typeable Haemophilus influenzae protein D conjugate vaccine (PHiD-CV) compared with the newly licensed 13-valent pneumococcal conjugate vaccine (PCV-13).

METHODS

The model described herein is a Markov cohort model built to simulate the epidemiological burden of pneumococcal- and NTHi-related diseases within birth cohorts in the UK and Canada. Base-case assumptions include estimates of vaccine efficacy and NTHi infection rates that are based on published literature.

RESULTS

The model predicts that the two vaccines will provide a broadly similar impact on all-cause invasive disease and CAP under base-case assumptions. However, PHiD-CV is expected to provide a substantially greater reduction in AOM compared with PCV-13, offering additional savings of Canadian $9.0 million and £4.9 million in discounted direct medical costs in Canada and the UK, respectively.

LIMITATIONS

The main limitations of the study are the difficulties in modelling indirect vaccine effects (herd effect and serotype replacement), the absence of PHiD-CV- and PCV-13-specific efficacy data and a lack of comprehensive NTHi surveillance data. Additional limitations relate to the fact that the transmission dynamics of pneumococcal serotypes have not been modelled, nor has antibiotic resistance been accounted for in this paper.

CONCLUSION

This cost-effectiveness analysis suggests that, in Canada and the UK, PHiD-CV's potential to protect against NTHi infections could provide a greater impact on overall disease burden than the additional serotypes contained in PCV-13.

Prevnar 13, the New 13-Valent Pneumococcal Conjugate Vaccine

Objective:

To review the immurtogenicity, efficacy, and safety of the 13-valent pneumococcal conjugate vaccine (PCV13) for use in pediatric patients.

Data Sources:

A MEDLINE search (2000-September 2011) was conducted using the key words Streptococcus pneumoniae and pneumococcal conjugate vaccine for clinical trials, limited to studies conducted in humans and published in English.

Studv Selection And Data Extraction:

Randomized, controlled, multicenter trials were reviewed and included to evaluate the safety and efficacy of PCV13, Literature on the epidemiology and pathology of pneumococcal Infections and recommendations from the Advisory Committee on Immunization Practices (ACIP) were also reviewed.

Data Synthesis:

PCV13 is approved for routine vaccination of all infants as a 4-dose series at age 2,4,6, and 12–15 months for children who previously received 1 or more doses of the 7-valent pneumococcal conjugate vaccine (PCV7), and for children with underlying medical conditions that increase their risk for pneumococcal disease or its complications. PCV13 has comparable immunogenicity to the serotypes common with PCV7 and also provides protection against 6 additional pneumococcal serotypes. PCV13 has also been shown to have a comparable adverse reaction profile to PCV7.

Conclusions:

Based on published immunogenicity and safety data, as well as the recent recommendations by the ACIP for routine use in infants and indications for high-risk pediatric patients, PCV13 is a revised formulation of pneumococcal vaccine that should be included on pharmacy formularies.

The design of semi-synthetic and synthetic glycoconjugate vaccines

INTRODUCTION

Glycoconjugate vaccines are among the safest and most efficacious vaccines developed during the last 30 years. They are a potent tool for prevention of life-threatening bacterial infectious diseases like meningitis and pneumonia. The concept of hapten-carrier conjugation is now being extended to other disease areas.

AREAS COVERED

This is an overview of the history and current status of glycoconjugate vaccines. The authors discuss the approaches for their preparation and quality control as well as those variables which might affect their product profile. The authors also look at the potential to develop fully synthetic conjugate vaccines based on the progress of organic chemistry. Additionally, new applications of conjugate vaccines technology in the field of non-infectious diseases are discussed. Through this review, the reader will have an insight regarding the issues and complexities involved in the preparation and characterization of conjugate vaccines, the variables that might affect their immunogenicity and the potential for future applications.

EXPERT OPINION

The immunogenicity of weak T-independent antigens can be increased in quantity and quality by conjugation to protein carriers, which provide T-cell help. Glycoconjugate vaccines are among the safest and most efficacious vaccines developed so far. Various conjugation procedures and carrier proteins can be used. Many variables impact on the immunogenicity of conjugate vaccines and a tight control through physicochemical tests is important to ensure manufacturing and clinical consistency. New and challenging targets for conjugate vaccines are represented by cancer and other non-infectious diseases.

Impact of conjugate pneumococcal vaccines on the changing epidemiology of pneumococcal infections

Streptococcus pneumoniae-related infections have a major global impact on healthcare, especially in the developing world, and are considered the number one vaccine-preventable cause of death in children. There are more than 90 pneumococcal serotypes and 46 serogroups. The first capsular polysaccharide pneumococcal vaccine was licensed in the USA in 1977 for individuals older than 2 years of age at high risk for pneumococcal disease. Two decades later, the first 7-valent pneumococcal polysaccharide-protein conjugate vaccine completed the required clinical trials and was introduced as part of the national immunization program of various countries. New-generation vaccines that include emerging serotypes, while maintaining protection against the 7-valent pneumococcal serotypes, have recently been approved. With the addition of these serotypes, the majority of potential pneumococcal serotypes causing invasive disease in most parts of the world could be covered.

Hospitalization rates for pneumococcal disease in Brazil, 2004 - 2006

OBJECTIVE: To estimate hospitalization rates for pneumococcal disease based on the Brazilian Hospital Information System (SIH). METHODS: Descriptive study based on the Hospital Information System of Brazilian National Health System data from January 2004 to December 2006: number of hospitalizations and deaths for pneumococcal meningitis, pneumococcal sepsis, pneumococcal pneumonia and Streptococcus pneumoniae as the cause of diseases reported in Brazil. Data from the 2003 Brazilian National Household Survey were used to estimate events in the private sector. Pneumococcal meningitis cases and deaths reported to the Notifiable Diseases Information System during the study period were also analyzed. RESULTS: Pneumococcal disease accounted for 34,217 hospitalizations in the Brazilian National Health System (0.1% of all hospitalizations in the public sector). Pneumococcal pneumonia accounted for 64.8% of these hospitalizations. The age distribution of the estimated hospitalization rates for pneumococcal disease showed a "U"-shape curve with the highest rates seen in children under one (110 to 136.9 per 100,000 children annually). The highest hospital case-fatality rates were seen among the elderly, and for sepsis and meningitis. CONCLUSIONS: PD is a major public health problem in Brazil. The analysis based on the SIH can provide an important input to pneumococcal disease surveillance and the impact assessment of immunization programs.

The potential role for protein-conjugate pneumococcal vaccine in adults: what is the supporting evidence?

Vaccination with protein-conjugate pneumococcal vaccine (PCV) provides children with extraordinary protection against pneumococcal disease, although the protective effect may be blunted by the emergence of replacement strains. Studies in adults have compared PCV with pneumococcal polysaccharide vaccine (PPV) using surrogate markers of protection, namely, serum anticapsular IgG antibody and opsonic activity. Results suggest that PCV is at least as effective as PPV for the strains covered, but a definitive and consistent advantage has not been demonstrated. Unfortunately, persons who are most in need of vaccine do not respond as well as otherwise healthy adults to either vaccine. Newer formulations of PCV will protect against the most prevalent of the current replacement strains, but replacement strains will create a moving target for PCVs. Unless an ongoing trial comparing 13-valent PCV with placebo (not to PPV) demonstrates a clearly better effect than that seen in the past with PPV, cost-effectiveness considerations are likely to prevent widespread use of PCV in adults.

An evaluation of emerging vaccines for childhood pneumococcal pneumonia

BACKGROUND

Pneumonia is the leading cause of child mortality worldwide. Streptococcus pneumoniae (SP) or pneumococcus is estimated to cause 821,000 child deaths each year. It has over 90 serotypes, of which 7 to 13 serotypes are included in current formulations of pneumococcal conjugate vaccines that are efficacious in young children. To further reduce the burden from SP pneumonia, a vaccine is required that could protect children from a greater diversity of serotypes. Two different types of vaccines against pneumococcal pneumonia are currently at varying stages of development: a multivalent pneumococcal conjugate vaccine covering additional SP serotypes; and a conserved common pneumococcal protein antigen (PPA) vaccine offering protection for all serotypes.

METHODS

We used a modified CHNRI methodology for setting priorities in health research investments. This was done in two stages. In Stage I, we systematically reviewed the literature related to emerging SP vaccines relevant to several criteria of interest: answerability; efficacy and effectiveness; cost of development, production and implementation; deliverability, affordability and sustainability; maximum potential for disease burden reduction; acceptability to the end users and health workers; and effect on equity. In Stage II, we conducted an expert opinion exercise by inviting 20 experts (leading basic scientists, international public health researchers, international policy makers and representatives of pharmaceutical companies). The policy makers and industry representatives accepted our invitation on the condition of anonymity, due to sensitive nature of their involvement in such exercises. They answered questions from CHNRI framework and their "collective optimism" towards each criterion was documented on a scale from 0 to 100%.

RESULTS

The experts expressed very high level of optimism (over 80%) that low-cost polysaccharide conjugate SP vaccines would satisfy each of the 9 relevant CHNRI criteria. The median potential effectiveness of conjugate SP vaccines in reduction of overall childhood pneumonia mortality was predicted to be about 25% (interquartile range 20-38%, min. 15%, max 45%). For low cost, cross-protective common protein vaccines for SP the experts expressed concerns over answerability (72%) and the level of development costs (50%), while the scores for all other criteria were over 80%. The median potential effectiveness of common protein vaccines in reduction of overall childhood pneumonia mortality was predicted to be about 30% (interquartile range 26-40%, min. 20%, max 45%).

CONCLUSIONS

Improved SP vaccines are a very promising investment that could substantially contribute to reduction of child mortality world-wide.

Bioanalysis of meningococcal vaccines

Meningococcal meningitis is feared because of the rapid onset of severe disease from mild symptoms and, therefore, is an important target for vaccine research. Five serogroups, defined by the structures of their capsular polysaccharides, are responsible for the vast majority of disease. Protection against four of these five serogroups can be obtained with polysaccharide or glycoconjugate vaccines, in which fragments of the capsular polysaccharides attached to a carrier protein generate anticarbohydrate immune responses, whilst protection against group B disease requires protein immunogens, often presented in vesicles containing outer membrane proteins. Glycoconjugate vaccines are now an established technology, but outer-membrane protein vaccines are still under development and present significant challenges. This review discusses physicochemical approaches to the characterization and quality control of these vaccines, as well as highlighting the problems and differences in vaccine design required for protection against different serogroups of the same species of pathogen.

Meningococcal glycoconjugate vaccines

Neisseria meningitidis is a major cause of invasive bacterial infections worldwide. For this reason, efforts to control the disease have been directed at optimizing meningococcal vaccines and implementing appropriate vaccination policies. In the past, plain polysaccharide vaccines containing purified capsular polysaccharides A, C, Y and W135 were developed, but failed to protect infants, who are at greatest risk. Experience with the conjugate Haemophilus vaccine suggested that this approach might well empower meningococcal vaccines. Thus, a very efficacious vaccine against serogroup C Neisseria meningitis was optimized and has been widely used in developed nations since 1999. On the basis of epidemiological changes in the circulation of pathogenic serogroups in the United States, a quadrivalent conjugate vaccine against A, C, Y and W135 serogroups (Menactra™) has been developed and was approved by the U.S. FDA (Food and Drug Administration) in 2005. Recently, another tetravalent conjugate meningococcal vaccine (Menveo™) has been licensed and made available in the United States of America and in the European Union. Finally, in response to large epidemics caused by serogroup A meningococcus in Africa, a new, safe, immunogenic and affordable vaccine has been developed. This review highlights the evolution of conjugate meningococcal vaccines in general and discusses how this kind of vaccine can contribute to preventing meningococcal disease.

Susceptibility to invasive bacterial infections in children with sickle cell disease

Individuals with sickle cell disease (SCD) demonstrate an increased susceptibility to invasive bacterial infections (IBI). The most common organisms causing IBI are Streptococcus pneumoniae, nontyphi Salmonella species and Haemophilus influenzae type b (Hib). IBI are the most common causes of death in children below 5 years of age with SCD. Increased susceptibility to IBI is because of several factors including dysfunctional antibody production and opsonophagocytosis as well as defective splenic clearance. Early diagnosis of Hib and pneumococcal infections combined with antibiotic prophylaxis and immunization programs, could lead to significant improvements in mortality, especially in Africa.

Determining the optimal pneumococcal vaccination strategy for adults: is there a role for the pneumococcal conjugate vaccine?

On February 24, 2010, the US Food and Drug Administration approved a 13-valent pneumococcal protein conjugate vaccine (PCV13) for use in children. Currently, the only pneumococcal vaccine approved for use in adults in the United States is the 23-valent pneumococcal polysaccharide vaccine (PPV23). Although PPV23 provides partial protection against invasive pneumococcal disease, it does not appear to impact the risk of pneumonia in elderly patients or younger adults with comorbidities. Experience with PCV7 in children and studies of the immunogenicity of PCV7 in high-risk adults suggest that PCV13 may be effective in adults. However, prior receipt of PPV23 may blunt the antibody response to protein conjugate vaccination; thus, receipt of PPV23 could potentially diminish the benefit of subsequent pneumococcal conjugate vaccination. The approval of PCV13 for children has created a unique dilemma for physicians seeking to provide optimum protection for their high-risk adult patients. Potential options could include use of the PCV13 "off-label," perhaps followed by PPV23; withholding pneumococcal vaccination of adults while awaiting approval of PCV13; or continuing to use the PPV23. Although there are limited data on PCVs in adults, the availability of PCV13 for children will likely cause uncertainty for some physicians until there is updated official guidance regarding the optimum strategies for prevention of pneumococcal infection in adults.

Challenges in reducing the burden of otitis media disease: an ENT perspective on improving management and prospects for prevention

Acute otitis media (AOM) is a major public health concern. This frequent disease of childhood is a leading cause of physician visits, a major component of paediatric healthcare burden, and a key contributor to antibiotic resistance. An international expert group comprising mainly ear, nose, and throat physicians met in June 2008 to discuss the optimal management of AOM, particularly with regards to unmet needs in diagnosis and management. Current guidelines do not help identify which patients are most at risk for severe or complicated AOM. Diagnosis of AOM is also complicated by a lack of correlation between clinical signs and symptoms and responsible pathogens. Consequently, treatment of AOM is not always appropriate, and the long-term overuse of antibiotics in AOM reduces the effectiveness of treatment and places children at risk for drug-resistant infections. There is a need for educational and research initiatives to improve diagnostic accuracy and management of AOM. Because there is currently no ideal treatment, vaccination is an attractive additional approach for managing AOM and reducing its burden.

Burden and cost of hospital admissions for vaccine-preventable paediatric pneumococcal disease and non-typable Haemophilus influenzae otitis media in New Zealand

INTRODUCTION

Streptococcus pneumoniae (Sp.) is a leading cause of paediatric bacterial meningitis, pneumonia and acute otitis media, as is non-typable Haemophilus influenzae (NTHi) for acute otitis media. In 2008, a 7-valent conjugated pneumococcal vaccine (PCV7) was included in the New Zealand (NZ) childhood immunization schedule.

OBJECTIVE

To estimate the potentially vaccine-preventable annual hospital admissions and cost to the NZ Government of paediatric admissions for pneumococcal disease and NTHi otitis media prior to the immunization programme.

METHODS

Admissions (2000-7) and deaths (2000-5) in children aged<20 years with pneumococcal meningitis or bacteraemia, pneumonia or otitis media were identified in national datasets and linked by unique patient identifiers. New episodes of illness were defined as admissions occurring >30 days after discharge from a previous admission. Informed by the literature, pneumococcal pneumonia episodes were estimated at 33% of all-cause pneumonia admissions; Sp. and NTHi otitis media episodes were estimated jointly at 72% of otitis media admissions. Each episode was assigned a single diagnosis according to the following hierarchy: meningitis>bacteraemia>pneumonia>otitis media. Incidence rates for episodes were determined for 2000-7 (meningitis, bacteraemia and pneumonia) and 2006-7 (otitis media). Annual DRG-based costs for pneumococcal meningitis, bacteraemia, pneumonia and otitis media were estimated as (episode rate)x(DRG cost weight per episode)x(2007 population)x(national price per cost weight).

RESULTS

Episode rates for pneumococcal meningitis, bacteraemia and pneumonia were stable in 2000-7, highest in the second 6 months of life and declined steeply over the first 5 years of life. Mean rates per 100000 in 2000-7 were 18.4, 27.6 and 464 for pneumococcal meningitis, bacteraemia and pneumonia, respectively, for children aged<2 years; 8.4, 14.9 and 295 for children aged<5 years (including those aged<2 years); and 2.2, 4.4 and 97 for children aged<20 years (including those aged<5 years). Mean rates per 100000 in 2006-7 for Sp. and NTHi otitis media combined were 631 (surgical) and 197 (medical) for children aged<2 years; 691 and 116 for children aged<5 years; and 281 and 35 for children aged<20 years. Pacific Island and indigenous Māori children generally had higher rates than European/other children. Rates increased with socioeconomic disadvantage, across all diagnoses. The annual cost to Government of pneumococcal disease and NTHi otitis media admissions for children aged<20 years was estimated at New Zealand dollars ($NZ)9.95 million (range 7.7-12.2 million) [about $US7.1 million]. Most of this cost was shared between pneumococcal pneumonia (48%) and otitis media (45%), and 78% was incurred in the first 2 years of life. Estimated annual paediatric mortality rates per 100 000 for children aged<5 years were 0.48, 0.30 and 0.54 for pneumococcal meningitis, bacteraemia and pneumonia, respectively. The analysis predicted four or five pneumococcal deaths per year (range 1-8) for children aged<5 years.

CONCLUSIONS

Prior to the introduction of a national Sp. immunization programme, hospital admissions for Sp. disease and NTHi otitis media in NZ cost about $NZ10 million annually, mostly for children aged<2 years and particularly for those living in relative socioeconomic deprivation and for Pacific Island and Māori children. There were about five pneumococcal deaths annually. With adjustment for local serotypes, vaccine serotype coverage and uptake, immunization with any of the three available pneumococcal vaccines would reduce this burden substantially.