2017
DOI: 10.5731/pdajpst.2017.007807
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Enhancing Patient Safety through the Use of a Pharmaceutical Glass Designed To Prevent Cracked Containers

Abstract: An essential role of packaging material for the storage and delivery of drug products is to provide adequate protection against contamination and loss of sterility. This is especially important for parenteral containers, as lack of sterility or contamination can result in serious adverse events including death. Nonetheless, cracked parenteral containers are an important source of container integrity failures for injectable drugs and pose a serious risk for patients. Despite significant investments in inspectio… Show more

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Cited by 7 publications
(4 citation statements)
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References 18 publications
(19 reference statements)
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“…The efforts made by both glass and pharmaceutical companies have greatly reduced the risk of breakage, and the reported number of recalls of borosilicate containers due to cracks and breakage in the last years is limited compared to the estimated production of vials containing injectable drugs 29,30 …”
Section: Borosilicate Glassesmentioning
confidence: 99%
“…The efforts made by both glass and pharmaceutical companies have greatly reduced the risk of breakage, and the reported number of recalls of borosilicate containers due to cracks and breakage in the last years is limited compared to the estimated production of vials containing injectable drugs 29,30 …”
Section: Borosilicate Glassesmentioning
confidence: 99%
“…Several new glass surfaces have been developed [75,76]. Alkali aluminosilicate glasses or aluminosilicate glasses have been introduced as possible alternatives to alkali borosilicate glasses.…”
Section: Syringe Barrelmentioning
confidence: 99%
“…Many components are made in polymers rather than glasses because IM allows polymer components to be mass-market manufactured quickly, cost-efficiently, and at high precision (9,10). One consequence of the lack of scalable manufacturing processes for glass is that key components for mass-market optical systems, such as microlenses, are made from polymers, in spite of glass having superior optical properties to those of the polymer-based components (11)(12)(13).…”
mentioning
confidence: 99%
“…The optical, thermal, mechanical, and chemical properties of silicate glasses make them the material of choice for many applications in optics, miniaturized chemical synthesis, and packaging (12)(13)(14)(15). In contrast to thermoplastic polymers, which are accessible through IM at relatively moderate temperatures of ~200°t o 250°C, glasses are still mostly processed by melting at temperatures of ~2000°C for fused silica and of 1500°C for other silicate glasses (16,17).…”
mentioning
confidence: 99%