Methods of Rapid Microbiological Assay and Their Application to Pharmaceutical and Medical Device Fabrication

SHINTANI, HIDEHARU

doi:10.4265/bio.21.193

Cited by 7 publications

(8 citation statements)

References 66 publications

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“…The lower limit of quantification was 10 3 CFU/mL, which is also reported in the validation document (PDA, 2000) and with studies using ATP bioluminescence (Kramer et al, 2008). According to a review of methods for rapid microbiological assay (Shintani et al, 2011), the sensitivity of the ATP bioluminescent method was quoted as greater than 10 2 -10 3 CFU/mL. However, a disadvantage of the ATP bioluminescent method was that there is a high rate of false positive results due to the fact that non-microbial ATP cannot be distinguished from microbial ATP and in particular microbial ATP from luciferase pathway (Kramer et al, 2008).…”

Section: Limit Of Quantification Limit Of Detection and Sensitivitymentioning

confidence: 99%

Validation of constitutively expressed bioluminescent Pseudomonas aeruginosa as a rapid microbiological quantification tool

Shah

Naseby

2015

Biosensors and Bioelectronics

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Section: Limit Of Quantification Limit Of Detection and Sensitivitymentioning

confidence: 99%

Validation of constitutively expressed bioluminescent Pseudomonas aeruginosa as a rapid microbiological quantification tool

Shah

Naseby

2015

Biosensors and Bioelectronics

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“…Three varieties of microbiological evolution conducted, one is for determination of presence of organism (presence-absence test) if any organism present then should determine how much is present (environmental test) and eventually identiication of organism which is present (identi ication test). (Shintani, 2014) 1. Presence-absence test 2.…”

Section: Conventional Methodsmentioning

confidence: 99%

Rapid microbiological testing method

Raghuprakash

Gowrav

Gangadharappa

et al. 2020

ijrps

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Classical microbiological methods currently have unacceptably long cycle times. Rapid microbiological strategies are accessible within the marketplace for about 10 years and are mostly used in the clinical laboratory and in food industries. However, their reapplication in the pharma industry has wide range of advantage. A comparison with ancient strategies to be conjointly performed. During this review, data concerning the validation of RMM strategies described within the document was given in addition as proof of the issue of validation of those strategies. A comparison with ancient strategies is additionally mentioned. This data is beneficial to the industries and in the labs which will doubtless be adopted. These strategies for microorganism free products. This methodology for microorganism identification will be delicate, accurate and fast. How the laboratory should be maintained for carrying out different tests, there should be good hygienic condition maintained. This article also includes different methods for identifying bacteria which is present in drug products as well as the material which are used for doing test. Presence of bacteria may affect the activity of drug product and bio availability may decreases and potency the drug may loss. How the laboratory should be maintained for carrying out different tests, there should be good hygienic condition maintained.

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“…The clumping of bacterial cells by some preservatives (chlorhexidine) is another problem which overestimates the viability. Thus, this technique is not applicable to Aspergillus and it is not suitable for processing complex formulations that cause problems in filtration of samples [ 116 ].…”

Section: Preservation Strategiesmentioning

confidence: 99%

“…This reaction leads to the emission of photons and the intensity of the light produced is directly proportional to the rate of ATP [ 117 ]. However, this method is not applicable to the genus Aspergillus , and to creams or suspensions, since these latest could interfere with the detection of light emission [ 116 ].…”

Section: Preservation Strategiesmentioning

confidence: 99%

Cosmetics Preservation: A Review on Present Strategies

et al. 2018

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Cosmetics, like any product containing water and organic/inorganic compounds, require preservation against microbial contamination to guarantee consumer’s safety and to increase their shelf-life. The microbiological safety has as main goal of consumer protection against potentially pathogenic microorganisms, together with the product’s preservation resulting from biological and physicochemical deterioration. This is ensured by chemical, physical, or physicochemical strategies. The most common strategy is based on the application of antimicrobial agents, either by using synthetic or natural compounds, or even multifunctional ingredients. Current validation of a preservation system follow the application of good manufacturing practices (GMPs), the control of the raw material, and the verification of the preservative effect by suitable methodologies, including the challenge test. Among the preservatives described in the positive lists of regulations, there are parabens, isothiasolinone, organic acids, formaldehyde releasers, triclosan, and chlorhexidine. These chemical agents have different mechanisms of antimicrobial action, depending on their chemical structure and functional group’s reactivity. Preservatives act on several cell targets; however, they might present toxic effects to the consumer. Indeed, their use at high concentrations is more effective from the preservation viewpoint being, however, toxic for the consumer, whereas at low concentrations microbial resistance can develop.

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Methods of Rapid Microbiological Assay and Their Application to Pharmaceutical and Medical Device Fabrication

Cited by 7 publications

References 66 publications

Validation of constitutively expressed bioluminescent Pseudomonas aeruginosa as a rapid microbiological quantification tool

Validation of constitutively expressed bioluminescent Pseudomonas aeruginosa as a rapid microbiological quantification tool

Rapid microbiological testing method

Cosmetics Preservation: A Review on Present Strategies

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