Your search keyword '"Irvine Bruce"' showing total 4 results

1. Mechanical disruption of lysis-resistant bacterial cells by use of a miniature, low-power, disposable device.

Author

Vandeventer PE, Weigel KM, Salazar J, Erwin B, Irvine B, Doebler R, Nadim A, Cangelosi GA, and Niemz A

Subjects

Humans, Bacillus subtilis genetics, Bacteriological Techniques methods, Bacteriolysis, DNA, Bacterial isolation & purification, Mycobacterium bovis genetics

Abstract

Molecular detection of microorganisms requires microbial cell disruption to release nucleic acids. Sensitive detection of thick-walled microorganisms such as Bacillus spores and Mycobacterium cells typically necessitates mechanical disruption through bead beating or sonication, using benchtop instruments that require line power. Miniaturized, low-power, battery-operated devices are needed to facilitate mechanical pathogen disruption for nucleic acid testing at the point of care and in field settings. We assessed the lysis efficiency of a very small disposable bead blender called OmniLyse relative to the industry standard benchtop Biospec Mini-BeadBeater. The OmniLyse weighs approximately 3 g, at a size of approximately 1.1 cm(3) without the battery pack. Both instruments were used to mechanically lyse Bacillus subtilis spores and Mycobacterium bovis BCG cells. The relative lysis efficiency was assessed through real-time PCR. Cycle threshold (C(T)) values obtained at all microbial cell concentrations were similar between the two devices, indicating that the lysis efficiencies of the OmniLyse and the BioSpec Mini-BeadBeater were comparable. As an internal control, genomic DNA from a different organism was spiked at a constant concentration into each sample upstream of lysis. The C(T) values for PCR amplification of lysed samples using primers specific to this internal control were comparable between the two devices, indicating negligible PCR inhibition or other secondary effects. Overall, the OmniLyse device was found to effectively lyse tough-walled organisms in a very small, disposable, battery-operated format, which is expected to facilitate sensitive point-of-care nucleic acid testing.

Published

2011

2. Fire training put to the test.

Author

Irvine BR

Subjects

Humans, Safety Management, Self Efficacy, United States, Fires prevention & control, Personnel, Hospital education

Abstract

As the author explains in detail, the need for healthcare staff to have confidence in their ability to quickly extinguish a fire has never been more important. Such confidence, he says, can only come from practical training, which is either not required today or avoided because of environmental concerns. Recent introduction of gas and digital fire simulators now make it possible to provide this essential training, he reports.

Published

2010

3. Securing Australia's hospitals.

Author

Irvine BR

Subjects

Australia, Humans, Professional Competence, Hospitals, Inservice Training organization & administration, Security Measures

Abstract

Healthcare security advancement in recent years in Australia has not kept pace with clinical staff advancement, the author points out. This failure to recognize the need for professionalism in healthcare security and provide the unique skills and training that hospital security officers require is severely hampering the industry's capability of meeting today's security and safety challenges.

Published

2009

4. Specific versus nonspecific isothermal DNA amplification through thermophilic polymerase and nicking enzyme activities.

Author

Tan E, Erwin B, Dames S, Ferguson T, Buechel M, Irvine B, Voelkerding K, and Niemz A

Subjects

Base Sequence, DNA Fingerprinting, Enzyme Activation genetics, Enzyme Stability genetics, Molecular Sequence Data, Sensitivity and Specificity, Spectrometry, Fluorescence, Substrate Specificity, Templates, Genetic, DNA Nucleotidyltransferases genetics, DNA Nucleotidyltransferases metabolism, DNA-Directed DNA Polymerase genetics, DNA-Directed DNA Polymerase metabolism, Hot Temperature, Nucleic Acid Amplification Techniques methods, Nucleic Acid Amplification Techniques standards

Abstract

Rapid isothermal nucleic acid amplification technologies can enable diagnosis of human pathogens and genetic variations in a simple, inexpensive, user-friendly format. The isothermal exponential amplification reaction (EXPAR) efficiently amplifies short oligonucleotides called triggers in less than 10 min by means of thermostable polymerase and nicking endonuclease activities. We recently demonstrated that this reaction can be coupled with upstream generation of trigger oligonucleotides from a genomic target sequence, and with downstream visual detection using DNA-functionalized gold nanospheres. The utility of EXPAR in clinical diagnostics is, however, limited by a nonspecific background amplification phenomenon, which is further investigated in this report. We found that nonspecific background amplification includes an early phase and a late phase. Observations related to late phase background amplification are in general agreement with literature reports of ab initio DNA synthesis. Early phase background amplification, which limits the sensitivity of EXPAR, differs however from previous reports of nonspecific DNA synthesis. It is observable in the presence of single-stranded oligonucleotides following the EXPAR template design rules and generates the trigger sequence expected for the EXPAR template present in the reaction. It appears to require interaction between the DNA polymerase and the single-stranded EXPAR template. Early phase background amplification can be suppressed or eliminated by physically separating the template and polymerase until the final reaction temperature has been reached, thereby enabling detection of attomolar starting trigger concentrations.

Published

2008