A Retrospective and Prospective Cohort Study Comparing Pediatric Patients With Cleft Lip and Palate From the United States and Guatemala.

Orofacial clefts (OFC) remain among the most prevalent congenital abnormalities worldwide. In the United States in 2010 to 2014, 16.2 of 10,000 live births are born with OFC compared with 23.6 of 10,000 in Alta Verapaz, Guatemala in 2012. Demographics and cleft severity scores were retrospectively gathered from 514 patients with isolated OFC at the Children's Hospital of Philadelphia scheduled for surgery from 2012 to 2019 and from 115 patients seen during surgical mission trips to Guatemala City from 2017 to 2020. Risk factors were also gathered prospectively from Guatemalan families. The Guatemalan cohort had a significantly lower prevalence of cleft palate only compared with the US cohort, which may be a result of greater cleft severity in the population or poor screening and subsequent increased mortality of untreated cleft palate. Of those with lip involvement, Guatemalan patients were significantly more likely to have complete cleft lip, associated cleft palate, and right-sided and bilateral clefts, demonstrating an increased severity of Guatemalan cleft phenotype. Primary palate and lip repair for the Guatemalan cohort occurred at a significantly older age than that of the US cohort, placing Guatemalan patients at increased risk for long-term complications such as communication difficulties. Potential OFC risk factors identified in the Guatemalan cohort included maternal cooking-fire and agricultural chemical exposure, poor prenatal vitamin intake, poverty, and risk factors related to primarily corn-based diets. OFC patients who primarily rely on surgical missions for cleft care would likely benefit from more comprehensive screening and investigation into risk factors for more severe OFC phenotypes.

Impact of Illustrated Postoperative Instructions on Knowledge and Retention During a Cleft Lip and Palate Surgical Mission.

OBJECTIVE: To determine the impact of illustrated postoperative instructions on patient-caregiver knowledge and retention. DESIGN: Prospective study with all participants receiving an educational intervention. SETTING: Pediatric plastic surgical missions in Guatemala City, Guatemala, between 2019 and 2020. PARTICIPANTS: A total of 63 majority-indigenous Guatemalan caregivers of patients receiving cleft lip and/or palate surgery. INTERVENTION: Illustrated culturally appropriate postoperative care instructions were iteratively developed and given to caregivers who were surveyed on illustration-based and text-based information at preoperative, postoperative, and four-week follow-up time points. MAIN OUTCOME MEASURE: Postoperative care knowledge of illustration-based versus text-based information as determined by the ability to answer 11 illustration- and 8 text-based all-or-nothing questions, as well as retention of knowledge as determined by the same survey given at four weeks follow-up. RESULTS: Scores for illustration-based and text-based information both significantly increased after caregivers received the postoperative instructions (+13.30 ± 3.78 % SE, + 11.26 ± 4.81 % SE; P < .05). At follow-up, scores were unchanged for illustration-based (-3.42 ± 4.49 % SE, P > .05), but significantly lower for text-based information (-28.46 ± 6.09 % SE, P < .01). Retention of text-based information at follow-up correlated positively with education level and Spanish literacy, but not for illustration-based. CONCLUSIONS: In the setting of language and cultural barriers on a surgical mission, understanding of illustration-based and text-based information both increased after verbal explanation of illustrated postoperative instructions. Illustration-based information was more likely to be retained by patient caregivers after four weeks than text-based information, the latter of which correlated with increased education and literacy.

Co-administration of a novel Haemophilus influenzae type b and Neisseria meningitidis serogroups C and Y-tetanus toxoid conjugate vaccine does not interfere with the immune response to antigens contained in infant vaccines routinely used in the United States.

An investigational combined Haemophilus influenzae type b (Hib) and Neisseria meningitidis serogroups C and Y tetanus toxoid conjugate vaccine (HibMenCY-TT) has been developed to protect infants from invasive disease caused by Hib and these meningococcal serogroups without adding injections to the immunization schedule. Incorporation of this novel vaccine into the US vaccination schedule will require demonstration of a lack of immunologic interference with other routine pediatric vaccines. This study assessed the immune response to 7-valent pneumococcal conjugate vaccine (PCV7) and combined diphtheria-tetanus-acellular pertussis-hepatitis B-inactivated poliovirus vaccine (DTaP-HepB-IPV) when separately co-administered with HibMenCY-TT as compared to a US-licensed H. influenzae type b tetanus toxoid conjugate vaccine (Hib-TT) at 2, 4, 6 (N=606) and 12-15 months of age (N=366). HibMenCY-TT was non-inferior to Hib-TT in terms of antibody responses to all Streptococcus pneumoniae serotypes contained in PCV7 and the diphtheria, tetanus, pertussis, hepatitis B and poliovirus antigens contained in DTaP-HepB-IPV one month after the third vaccine dose, and the anti-tetanus geometric mean antibody concentration (GMC) was significantly higher in the HibMenCY-TT group than in the Hib-TT group. In an exploratory analysis, no significant differences in the proportion of subjects with anti-pneumococcal antibody concentrations ≥0.2 µg/ml or anti-pneumococcal GMC were seen between the two groups after the fourth vaccine dose. A schedule of HibMenCY-TT given concomitantly with PCV7 and DTaP-HepB-IPV would be expected to protect infants against all of the targeted diseases.

Impact of COVID-19 pandemic on routine immunization.

The current COVID-19 global pandemic continues to impact healthcare services beyond those directly related to the management of SARS-CoV-2 transmission and disease. We reviewed the published literature to assess the pandemic impact on existing global immunization activities and how the impact may be addressed. Widespread global disruption in routine childhood immunization has impacted a majority of regions and countries, especially in the initial pandemic phases. While data indicate subsequent recovery in immunization rates, a substantial number of vulnerable people remain unvaccinated. The downstream impact may be even greater in resource-limited settings and economically poorer populations, and consequently there are growing concerns around the resurgence of vaccine-preventable diseases, particularly measles. Guidance on how to address immunization deficits are available and continue to evolve, emphasizing the importance of maintaining and restoring routine immunization and necessary mass vaccination campaigns during and after pandemics. In this, collaboration between a broad range of stakeholders (governments, industry, healthcare decision-makers and frontline healthcare professionals) and clear communication and engagement with the public can help achieve these goals.Key messagesThe COVID-19 pandemic has a substantial impact on essential immunization activities.Disruption to mass vaccination campaigns increase risk of VPD resurgence.Catch-up campaigns are necessary to limit existing shortfalls in vaccine uptake.Guidance to mitigate these effects continues to evolve.

The human rotavirus vaccine RIX4414 in infants: a review of safety and tolerability.

BACKGROUND: An oral, live attenuated human rotavirus vaccine, RIX4414 has been developed to prevent rotavirus gastroenteritis. An integrated safety summary of 8 randomized, placebo-controlled, double-blind phase II and III trials of vaccine at potency licensed for use worldwide was performed. METHODS: Healthy 1- to 18-week-old infants (N = 71209) were enrolled to receive 2 doses of RIX4414/placebo according to 0, 1 or 0, 2 month schedules. Solicited (fever, fussiness/irritability, loss of appetite, vomiting, diarrhea, cough/rhinorrhea) and unsolicited adverse events (AEs) were recorded for 8 days and 31 days, respectively, after each dose. Serious adverse events (SAEs) including intussusception and death were collected throughout the entire study periods. Potential imbalances were defined as the 95% confidence interval (CI) for the relative risk (RR) stratified by trials excluding "1." RESULTS: Solicited AEs were evaluated in 3286 RIX4414 vaccinees and 2015 placebo recipients. Among solicited AEs, no imbalance was noted between groups. SAEs, including death and intussusception, were evaluated in 36755 RIX4414 and 34454 placebo recipients. Within 31 days after each dose, no imbalances were noted between the groups for all SAEs (RR = 0.9; 95% CI: 0.81, 1.01), deaths (RR = 1.64; 95% CI: 0.92, 3.02), and intussusception (RR 1.23; 95% CI: 0.41, 3.90). SAEs because of gastrointestinal diseases including diarrhea, gastroenteritis (all cause and due to rotavirus), dehydration, and intestinal ileus occurred significantly less often in RIX4414 than placebo recipients. CONCLUSIONS: Across the phase II and III clinical trials, the reactogenicity and safety profile between RIX4414 and placebo was similar, in particular with no increased risk of intussusception.

Safety and immunogenicity of a tetanus toxoid, reduced diphtheria toxoid, and acellular pertussis vaccine when co-administered with influenza vaccine in adults.

Annual vaccination with trivalent influenza vaccine (TIV), and a single dose of tetanus toxoid-reduced diphtheria toxoid-acellular pertussis (Tdap) vaccine, are both recommended for adults in the US. This study was conducted to obtain information on the safety and immunogenicity of co-administered TIV and a Tdap vaccine (Boostrix) in US adults. The immunogenicity and safety of Tdap and TIV was evaluated in 1,497 adult subjects 19-64 years of age, who were randomized to receive Tdap and TIV either concomitantly or one month apart (TIV followed by Tdap). Seroprotection rates for diphtheria, tetanus and influenza antigens were high (>or=94.1%) for both vaccine regimens, and immune responses to these antigens in the concomitant group were non-inferior to those observed in the sequential group. Although antibody concentrations for pertussis antigens were lower in the concomitant group than in the sequential group, concomitant administration was shown to be non-inferior to sequential administration with respect to anti-pertussis toxoid concentrations one month after Tdap vaccination. For filamentous haemagglutinin and pertactin, the between-group differences in antibody concentrations marginally exceeded pre-specified limits for defining non-inferiority. In both groups, anti-pertussis antibody concentrations were greater than those observed in infants following primary DTaP vaccination, in whom vaccine efficacy against pertussis was demonstrated. Reporting of adverse events appeared to be similar between groups. The data support the conclusion that Tdap and TIV vaccines may be co-administered without compromising either the effectiveness or tolerability of either vaccine.

Potential benefits of using a multicomponent vaccine for prevention of serogroup B meningococcal disease.

Meningococcal serogroup B (MenB) has become the main cause of invasive meningococcal disease in industrialized countries in recent years. The diversity of MenB strains and poor immunogenicity of the MenB capsular polysaccharide have made vaccine development challenging. Two MenB vaccines, including factor H binding protein (fHbp) as a major antigenic component, are now licensed for use. In addition to fHbp variant 1, the multicomponent vaccine 4CMenB contains neisserial heparin binding antigen, Neisseria adhesin A, and outer membrane vesicles containing porin A. The vast majority of circulating MenB strains contain genes encoding at least one 4CMenB component and many express genes for more than one vaccine antigen. Recent studies have suggested that serum bactericidal activity is enhanced against strains that express two or more vaccine antigens. Bacterial killing may also occur when antibodies to vaccine components are collectively present at levels that would individually be sub-lethal. The evaluation of immune responses to separate vaccine components does not take cooperative activity into account and may underestimate the overall protection. Available data on 4CMenB effectiveness indicate that this multicomponent vaccine affords broad coverage and protection against MenB disease. 4CMenB also has the potential to protect against disease caused by non-MenB meningococci and Neisseria gonorrhoeae.

Is patient insurance type related to physician recommendation, administration and referral for adult vaccination? A survey of US physicians.

This study evaluated physician practices and perceived barriers for influenza, tetanus, diphtheria, pertussis (Tdap), and zoster vaccination of adults in the United States (US), with emphasis on patients with Medicare versus commercial insurance. A cross-sectional internet-based survey of board-certified general/family practitioners and internists (N = 1,000) recruited from a national US physician panel was conducted in May 2017. For influenza, rates of physician recommendation (84% of Medicare patients, 82% of commercially-insured patients), administration (80% Medicare, 78% commercial), and referral (11% Medicare, 11% commercial) were similar regardless of insurance type. Tdap recommendation was higher for commercial compared to Medicare patients (59% vs. 54%, p < 0.001); while zoster recommendation was higher for Medicare patients than commercial (59% vs. 55%, p < 0.001). For Tdap and zoster, higher administration rates were reported in commercial patients (64% Tdap, 36% zoster) than Medicare (56% Tdap, 32% zoster), and referral rates were higher for Medicare patients (19% Tdap, 49% zoster) than commercial (14% Tdap, 42% zoster). Over 40% of physicians would be much more likely to administer Tdap and zoster vaccines if they were covered under Medicare Part B, with more physicians indicating financial barriers as "major" or "moderate" for Medicare than commercial patients. These differences may be related to financial barriers associated with adult vaccinations that are covered under Medicare Part D and involve patient out-of-pocket costs. Efforts to reduce financial barriers associated with adult vaccinations covered under Medicare Part D and to improve patient and physician knowledge could positively impact physician recommendation, administration, and referral for adult vaccination in the US.

Diphtheria-tetanus-acellular pertussis and inactivated poliovirus vaccines given separately or combined for booster dosing at 4-6 years of age.

BACKGROUND: In the United States, diphtheria-tetanus-acellular pertussis (DTaP) and inactivated poliovirus (IPV) booster vaccinations are recommended for children 4-6 years of age. A combined DTaP-IPV vaccine is being developed, which would reduce by one the number of injections in this age group. METHODS: Children 4-6 years of age were randomized (1:1:1:1) to receive booster vaccination with 1 of 3 combined DTaP-IPV lots plus the measles, mumps, and rubella vaccine (N = 3156 for pooled lots) or separate doses of DTaP + IPV + measles, mumps, and rubella vaccine (N = 1053). Immunogenicity was assessed in a subset of children (N = 1331). Safety (solicited and unsolicited symptoms) including detailed assessment of local swelling reactions, was assessed in all children. RESULTS: Increases in antibody geometric mean concentrations/titers 1 month after vaccination were observed for the diphtheria, tetanus, acellular pertussis, and polio antigens. At least 92.2% of combined DTaP-IPV subjects and 92.6% of separate DTaP + IPV subjects had a postvaccination booster response for one or more DTaP antigens. Booster responses to one or more poliovirus antigens were observed in at least 96.6% of combined DTaP-IPV subjects and 92.8% of separate DTaP + IPV subjects. The combined DTaP-IPV vaccine was noninferior to separately administered DTaP and IPV vaccines with respect to DTaP antigen booster response rates and poliovirus antibody geometric mean titers ratios. Reporting of solicited local and systemic events was comparable between both groups. CONCLUSIONS: The combination DTaP-IPV vaccine provided immunogenicity and reactogenicity that is comparable to separately administered DTaP and IPV vaccines, with the advantage of requiring one less injection.

Understanding modern-day vaccines: what you need to know.

Vaccines are considered to be one of the greatest public health achievements of the last century. Depending on the biology of the infection, the disease to be prevented, and the targeted population, a vaccine may require the induction of different adaptive immune mechanisms to be effective. Understanding the basic concepts of different vaccines is therefore crucial to understand their mode of action, benefits, risks, and their potential real-life impact on protection. This review aims to provide healthcare professionals with background information about the main vaccine designs and concepts of protection in a simplified way to improve their knowledge and understanding, and increase their confidence in the science of vaccination ( Supplementary Material ). KEY MESSAGE Different vaccine designs, each with different advantages and limitations, can be applied for protection against a particular disease. Vaccines may contain live-attenuated pathogens, inactivated pathogens, or only parts of pathogens and may also contain adjuvants to stimulate the immune responses. This review explains the mode of action, benefits, risks and real-life impact of vaccines by highlighting key vaccine concepts. An improved knowledge and understanding of the main vaccine designs and concepts of protection will help support the appropriate use and expectations of vaccines, increase confidence in the science of vaccination, and help reduce vaccine hesitancy.

Safety study of live, oral human rotavirus vaccine: A cohort study in United States health insurance plans.

As part of a regulatory commitment for post-licensure safety monitoring of live, oral human rotavirus vaccine (RV1), this study compared the incidence rates (IR) of intussusception, acute lower respiratory tract infection (LRTI) hospitalization, Kawasaki disease, convulsion, and mortality in RV1 recipients versus inactivated poliovirus vaccine (IPV) recipients in concurrent (cIPV) and recent historical (hIPV) comparison cohorts. Vaccine recipients were identified in 2 claims databases from August 2008 - June 2013 (RV1 and cIPV) and January 2004 - July 2008 (hIPV). Outcomes were identified in the 0-59 days following the first 2 vaccine doses. Intussusception, Kawasaki disease, and convulsion were confirmed via medical record review. Outcome IRs were estimated. Incidence rate ratios (IRRs) were obtained from Poisson regression models. A post-hoc self-controlled case series (SCCS) analysis compared convulsion IRs in a 0-7 day post-vaccination period to a 15-30 day post-vaccination period. We identified 57,931 RV1, 173,384 cIPV, and 159,344 hIPV recipients. No increased risks for intussusception, LRTI, Kawasaki disease, or mortality were observed. The convulsion IRRs were elevated following RV1 Dose 1 (cIPV: 2.07, 95% confidence interval [CI]: 1.27 - 3.38; hIPV: 2.05, 95% CI: 1.24 - 3.38), a finding which is inconclusive as it was observed in only one of the claims databases. The IRR following RV1 Dose 1 in the SCCS analysis lacked precision (2.40, 95% CI: 0.73 - 7.86). No increased convulsion risk was observed following RV1 Dose 2. Overall, this study supports the favorable safety profile of RV1. Continued monitoring for safety signals through routine surveillance is needed to ensure vaccine safety.

Towards an evidence based approach for the development of adjuvanted vaccines.

In the last two decades, several vaccines formulated with a new generation of adjuvants have been licensed or approved to target diseases such as influenza, hepatitis B, cervical cancer, and malaria. These new generation adjuvants appear to work by delivering a localized activation signal to the innate immune system, which in turn promotes antigen-specific adaptive immunity. Advances in understanding of the innate immune system together with high-throughput discovery of synthetic immune potentiators are now expanding the portfolio of new generation adjuvants available for evaluation. Meanwhile, omics and systems biology are providing molecular benchmarks or signatures to assess vaccine safety and effectiveness. This accumulating knowledge and experience raises the prospect that the future selection of the right antigen/adjuvant combination can be more evidence based and can speed up the clinical development program for new adjuvanted vaccines.

Vaccine provision: Delivering sustained & widespread use.

The administration of a vaccine to a recipient is the final step in a development and production process that may have begun several decades earlier. Here we describe the scale and complexity of the processes that brings a candidate vaccine through clinical development to the recipient. These challenges include ensuring vaccine quality (between 100 and 500 different Quality Control tests are performed during production to continually assess safety, potency and purity); making decisions about optimal vaccine presentation (pre-filled syringes versus multi-dose vials) that affect capacity and supply; and the importance of maintaining the vaccine cold chain (most vaccines have stringent storage temperature requirements necessary to maintain activity and potency). The ultimate aim is to make sure that an immunogenic product matching the required specifications reaches the recipient. The process from concept to licensure takes 10-30years. Vaccine licensure is based on a file submitted to regulatory agencies which contains the comprehensive compilation of chemistry, manufacturing information, assay procedures, preclinical and clinical trial results, and proposals for post-licensure effectiveness and safety data collection. Expedited development and licensure pathways may be sought in emergency settings: e.g., the 2009 H1N1 influenza pandemic, the 2014 West African Ebola outbreak and meningococcal serogroup B meningitis outbreaks in the United States and New Zealand. Vaccines vary in the complexity of their manufacturing process. Influenza vaccines are particularly challenging to produce and delays in manufacturing may occur, leading to vaccine shortages during the influenza season. Shortages can be difficult to resolve due to long manufacturing lead times and stringent, but variable, local regulations. New technologies are driving the development of new vaccines with simplified manufacturing requirements and with quality specifications that can be confirmed with fewer tests. These technologies could have far-reaching effects on supply, cost of goods, and on response timing to a medical need until product availability.

Vaccine development: From concept to early clinical testing.

In the 21st century, an array of microbiological and molecular allow antigens for new vaccines to be specifically identified, designed, produced and delivered with the aim of optimising the induction of a protective immune response against a well-defined immunogen. New knowledge about the functioning of the immune system and host pathogen interactions has stimulated the rational design of vaccines. The design toolbox includes vaccines made from whole pathogens, protein subunits, polysaccharides, pathogen-like particles, use of viral/bacterial vectors, plus adjuvants and conjugation technology to increase and broaden the immune response. Processes such as recombinant DNA technology can simplify the complexity of manufacturing and facilitate consistent production of large quantities of antigen. Any new vaccine development is greatly enhanced by, and requires integration of information concerning: 1. Pathogen life-cycle & epidemiology. Knowledge of pathogen structure, route of entry, interaction with cellular receptors, subsequent replication sites and disease-causing mechanisms are all important to identify antigens suitable for disease prevention. The demographics of infection, specific risk groups and age-specific infection rates determine which population to immunise, and at what age. 2. Immune control & escape. Interactions between the host and pathogen are explored, with determination of the relative importance of antibodies, T-cells of different types and innate immunity, immune escape strategies during infection, and possible immune correlates of protection. This information guides identification and selection of antigen and the specific immune response required for protection. 3. Antigen selection & vaccine formulation. The selected antigen is formulated to remain suitably immunogenic and stable over time, induce an immune response that is likely to be protective, plus be amenable to eventual scale-up to commercial production. 4. Vaccine preclinical & clinical testing. The candidate vaccine must be tested for immunogenicity, safety and efficacy in preclinical and appropriately designed clinical trials. This review considers these processes using examples of differing pathogenic challenges, including human papillomavirus, malaria, and ebola.

Risk of Intussusception After Rotavirus Vaccination: Meta-analysis of Postlicensure Studies.

BACKGROUND: Postlicensure surveillance studies suggest a small temporal increase in the risk for intussusception with both currently available rotavirus vaccines (RV1; Rotarix, GSK and RV5; RotaTeq, Merck & Co., Inc.). This meta-analysis was undertaken to provide a single overall estimate of the relative risk of intussusception during the 7-day period after administration of RV1 and RV5. METHODS: Meta-analysis based on estimates of relative risk and corresponding 95% confidence intervals from 5 postlicensure studies providing an estimate of risk of intussusception during the 7-day period after administration of dose 1 and/or dose 2 of RV1 and/or RV5, based on active and/or passive surveillance, for confirmed intussusception cases (Brighton or other method of case confirmation). For each vaccine, the relative risk of intussusception was estimated postdose 1 and postdose 2. Results were pooled using the inverse variance method using both fixed-effect and random-effect models. RESULTS: The overall estimate of relative risk of intussusception during the 7 days postdose 1 was 5.4 (95% confidence interval: 3.9-7.4, 3 studies) for RV1 and 5.5 (3.3-9.3, 3 studies) for RV5. The overall estimate of relative risk of intussusception during the 7 days postdose 2 was 1.8 (1.3-2.5, 4 studies) for RV1 and 1.7 (1.1-2.6, 3 studies) for RV5. CONCLUSIONS: This meta-analysis showed a similar increased risk of intussusception, during the first 7 days after administration of dose 1 and, to a lesser extent, dose 2, for both currently available rotavirus vaccines. This suggests that intussusception may be a class effect of currently available oral rotavirus vaccines.

Quadrivalent meningococcal (MenACWY-TT) conjugate vaccine or a fourth dose of H. influenzae-N. meningitidis C/Y conjugate vaccine (HibMenCY-TT) is immunogenic in toddlers who previously received three doses of HibMenCY-TT in infancy.

BACKGROUND: Immunogenicity and safety of a single dose of MenACWY-TT or a fourth dose of HibMenCY-TT were evaluated in the second year of life in HibMenCY-TT-primed toddlers. METHODS: Healthy infants were randomized (5:1) and primed at 2, 4 and 6 months of age with HibMenCY-TT and diphtheria-tetanus-acellular pertussis-hepatitis B-inactivated poliovirus (DTaP-HBV-IPV) vaccine; or Hib-TT and DTaP-HBV-IPV (control). Recipients of HibMenCY-TT+DTaP-HBV-IPV were re-randomized (2:2:1) to receive MenACWY-TT at 12-15 months and DTaP at 15-18 months; MenACWY-TT co-administered with DTaP at 15-18 months; or HibMenCY-TT at 12-15 months and DTaP at 15-18 months. Controls received DTaP only at 15-18 months due to Hib conjugate vaccine shortage. Serum bactericidal activity using human complement (hSBA) and safety were assessed one month after meningococcal vaccination. RESULTS: After vaccination with MenACWY-TT at 12-15 months or MenACWY-TT+DTaP at 15-18 months, all subjects previously primed for serogroups C/Y had hSBA ≥1:8 for these serogroups. At least 96.1% also had hSBA ≥1:8 for serogroups A/W. All subjects in the HibMenCY-TT group had hSBA ≥1:8 for serogroups C/Y. All pre-defined statistical criteria for meningococcal immunogenicity were satisfied. All vaccination regimens had acceptable safety profiles. CONCLUSION: Children primed with three doses of HibMenCY-TT who then received a single dose of MenACWY-TT or a fourth dose of HibMenCY-TT had robust increases in hSBA titers for serogroups C/Y. These data provide support that MenACWY-TT, given with or without the fourth scheduled dose of DTaP could be administered as an alternative to a fourth dose of HibMenCY-TT in the second year of life. This study (110870/110871) is registered at www.clinicaltrials.gov NCT00614614.

Immunogenicity and reactogenicity of Infanrix™ when co-administered with meningococcal MenACWY-TT conjugate vaccine in toddlers primed with MenHibrix™ and Pediarix™.

BACKGROUND: Co-administration of an investigational quadrivalent meningococcal serogroups A, C, W and Y tetanus toxoid conjugate vaccine (MenACWY-TT) with the fourth dose of diphtheria-tetanus-acellular pertussis vaccine (DTaP) at age 15-18 months was investigated in 3-dose Haemophilus influenzae type b-meningococcal serogroups C/Y conjugate vaccine (HibMenCY-TT)-primed toddlers. METHODS: Infants were randomized (5:1) and primed at 2, 4 and 6 months of age with HibMenCY-TT and DTaP-hepatitis B-inactivated poliovirus (DTaP-HBV-IPV) vaccine, or Hib-TT and DTaP-HBV-IPV (Control). HibMenCY-TT+ DTaP-HBV-IPV vaccinees were re-randomized (2:2:1) to receive MenACWY-TT at 12-15 months and DTaP at 15-18 months (MenACWY-TT group); MenACWY-TT co-administered with DTaP at 15-18 months (Coad group); or HibMenCY-TT at 12-15 months and DTaP at 15-18 months (HibMenCY-TT group). Controls received DTaP at 15-18 months. Only children in the HibMenCY-TT group received a fourth dose of Hib conjugate vaccine due to Hib conjugate vaccine shortage at the time of the study. DTaP immunogenicity and reactogenicity were assessed one month post-vaccination. RESULTS: Pre-defined statistical non-inferiority criteria between Coad and Control groups were met for diphtheria, tetanus and filamentous haemagglutinin but not pertussis toxoid and pertactin. Following vaccination ≥99% of children had anti-diphtheria/anti-tetanus concentrations ≥1.0 IU/ml. Pertussis GMCs were lower in all investigational groups versus Control. In post hoc analyses, pertussis antibody concentrations were above those in infants following 3-dose DTaP primary vaccination in whom efficacy against pertussis was demonstrated (Schmitt, von König, et al., 1996; Schmitt, Schuind, et al., 1996). The reactogenicity profile of the Coad group was similar to DTaP administered alone. CONCLUSION: Routine booster DTaP was immunogenic with an acceptable safety profile when co-administered with MenACWY-TT vaccine in HibMenCY-TT-primed toddlers. These data support the administration of a fourth DTaP dose following a 4-dose HibMenCY-TT vaccination series, or co-administered with MenACWY-TT in HibMenCY-TT-primed children.

Comparison of the Safety and Immunogenicity of a Novel Quadrivalent Meningococcal ACWY-Tetanus Toxoid Conjugate Vaccine and a Marketed Quadrivalent Meningococcal ACWY-Diphtheria Toxoid Conjugate Vaccine in Healthy Individuals 10-25 Years of Age.

BACKGROUND: Universal immunization of adolescents against meningococcal disease with a quadrivalent meningococcal ACWY (MenACWY) conjugate vaccine is recommended in a number of countries. METHODS: In a randomized, controlled, observer-blinded, multicenter trial, 1016 participants, 10-25 years of age, were randomly allocated 1:1:1 to receive a single dose of 1 of 2 lots of an investigational tetanus toxoid-conjugated MenACWY vaccine (MenACWY-TT) or a marketed diphtheria toxoid-conjugated MenACWY vaccine (MenACWY-DT). The primary outcome was the noninferiority of the vaccine response after MenACWY-TT (lot A) compared with MenACWY-DT for all 4 serogroups. Vaccine response was defined as a postvaccination human serum bactericidal antibody (hSBA) titer against each of the serogroups of at least 1:8 in persons initially seronegative (<1:4) or as a 4-fold increase in titer pre- to postvaccination in persons initially seropositive (≥1:4). Adverse events (AEs) after immunization were measured 4 and 31 days postvaccination. RESULTS: The mean age of participants was 16.3 years; 977 (96.6%) completed the study. The noninferiority of MenACWY-TT (lot A) to the control vaccine in terms of the percentage of participants with hSBA vaccine response was demonstrated for each serogroup. Vaccine response rates ranged from 51.0% to 82.5% for the 4 serogroups after MenACWY-TT (both lots) compared with 39.0%-76.3% for the 4 serogroups after MenACWY-DT. Pain was the most common injection-site reaction reported by 50.8%-55.4% across the 3 groups. Fatigue and headache were the most common systemic solicited AEs, reported by 27.3%-29.2% and 25.5%-26.4%, respectively. CONCLUSIONS: Tetanus toxoid-conjugated MenACWY vaccine was well tolerated and elicited an immune response that was noninferior to that of a marketed MenACWY-DT (www.clinicaltrials.gov NCT01165242).