Fully Liquid MenACWY-CRM Vaccine: Results from an Integrated Safety Analysis

Singh, Puneet Vir; Tiberi, Paola; Domenico, Gabriele Filippo Di; Romolini, Valerio; Mzolo, Thembile; Costantini, Marco; Akhund, Tauseefullah; Basile, Venere; Lattanzi, Maria; Pellegrini, Michele

doi:10.1007/s40264-022-01242-8

Drug Saf

2022

DOI: 10.1007/s40264-022-01242-8

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Fully Liquid MenACWY-CRM Vaccine: Results from an Integrated Safety Analysis

Puneet Vir Singh¹,

Paola Tiberi²,

Gabriele Filippo Di Domenico³

et al.

Abstract: IntroductionThe currently licensed quadrivalent MenACWY-CRM conjugate vaccine presentation consists of two vials (lyophilized MenA and liquid MenCWY) to be reconstituted before injection. A new fully liquid, single-vial formulation has been developed to simplify administration and prevent reconstitution errors. We present pooled safety data from two randomized, controlled, observer-blind phase 2b clinical trials, in which the fully liquid presentation was compared with the licensed presentation. Methods This i… Show more

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2024

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Clinical and Preclinical Methods of Heat-Stabilization of Human Vaccines

Williamson,

Bachelder,

Ainslie

2024

Mol. Pharmaceutics

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Vaccines have historically faced challenges regarding stability, especially in regions lacking a robust cold chain infrastructure. This review delves into established and emergent techniques to improve the thermostability of vaccines. We discuss the widely practiced lyophilization method, effectively transforming liquid vaccine formulations into a solid powdered state, enhancing storage and transportation ability. However, potential protein denaturation during lyophilization necessitates alternative stabilization methods. Cryoprotectants, namely, starch and sugar molecules, have shown promise in protecting vaccine antigens and adjuvants from denaturation and augmenting the stability of biologics during freeze-drying. Biomineralization, a less studied yet innovative approach, utilizes inorganic or organic−inorganic hybrids to encapsulate biological components of vaccines with a particular emphasis on metal−organic coordination polymers. Encapsulation in organic matrices to form particles or microneedles have also been studied in the context of vaccine thermostability, showing some ability to store outside the cold-chain. Unfortunately, few of these techniques have advanced to clinical trials that evaluate differences in storage conditions. Nonetheless, early trials suggest that alternative storage techniques are viable and emphasize the need for more comprehensive studies. This review underscores the pressing need for heat-stable vaccines, especially in light of the increasing global distribution challenges. Combining traditional methods with novel approaches holds promise for the future adaptability of vaccine distribution and use.

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Clinical and Preclinical Methods of Heat-Stabilization of Human Vaccines

Williamson,

Bachelder,

Ainslie

2024

Mol. Pharmaceutics

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show abstract

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Fully Liquid MenACWY-CRM Vaccine: Results from an Integrated Safety Analysis

Cited by 1 publication

References 17 publications

Clinical and Preclinical Methods of Heat-Stabilization of Human Vaccines

Clinical and Preclinical Methods of Heat-Stabilization of Human Vaccines

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