Mara Senescu scite author profile

Mara Senescu

3Publications

10Citation Statements Received

37Citation Statements Given

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Gamma Irradiation of Frozen Animal Serum: Dose Mapping for Irradiation Process Validation

Croonenborghs¹,

Pratt²,

Bone³

et al. 2016

BioProcess J

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he treatment of animal serum by gamma irradiation is performed to mitigate the risk of introducing undesired microorganisms (viruses, mollicutes, or other microbes) into a cell culture. Serum manufacturers and end-users utilize irradiation contractors to perform this process. The irradiation process must be validated, which involves establishing the: (A) minimum dose that achieves the required inactivation of the microorganisms of interest; (B) maximum acceptable dose at which the serum still maintains all of its required functional specifications; and (C) process used by the contract irradiator that allows treatment of the serum product within these defined limits. In the present article, we describe the best practices for qualifying the distribution and magnitude of absorbed dose (performance qualification [PQ] dose-mapping) when serum is gamma irradiated. PQ dose-mapping includes the following: (1) documentation of dose distribution characteristics in defined product load configurations for a specified pathway through the irradiator; (2) assessment of the process capability of the defined product load configurations and irradiation pathway for respecting the dose specification for the serum; and (3) development of a method for routine dose monitoring of the irradiation process with the defined product load configurations and the specified irradiation pathway. IMAGE: A cobalt-60 source rack in the storage pool of a gamma irradiation facility.

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Gamma Irradiation of Animal Serum: Maintaining the Cold Chain Throughout the Process

Brown¹,

Croonenborghs²,

Head³

et al. 2018

BioProcess J

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his paper reviews the importance of maintaining low temperature storage and handling (i.e., cold chain) for animal serum through all stages of processing, from finished product to the actual end-user. This cold chain extends from serum manufacture through the irradiation process, during shipment back to the supplier post-irradiation, as well as storage at supplier, irradiation, and end-user facilities. Anecdotal experience and theoretical considerations emphasize the point that maintenance of the cold chain is necessary for preserving the performance of serum for cell culture and other applications.

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Gamma Irradiation of Animal Serum: General Regulatory Environment and Process Controls

Hanson¹,

Croonenborghs²,

Senescu³

et al. 2019

BioProcess J

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Mara Senescu

Gamma Irradiation of Frozen Animal Serum: Dose Mapping for Irradiation Process Validation

Gamma Irradiation of Animal Serum: Maintaining the Cold Chain Throughout the Process

Gamma Irradiation of Animal Serum: General Regulatory Environment and Process Controls

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