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- Molecular sequencing and phylogenetic analysis of bioaerosols . . .
Abstract Introduction: Bioaerosols are one of major sources of hospital-acquired infections (HAI's) that can pose serious health implications to the patients, health care workers and visitors in the hospitals across the world
- Sampling and characterization of bioaerosols
This reference provides the industrial hygienist access to the most up to date methods to detect and quantify bioaerosols in the environment, and covers methods of how to conduct a survey, sample bioaerosols, and interpret the collected data [Hung et al 2005]
- Microsoft Word - Summary_Compendium_FINAL - BioAirNet
Molecular tools, (e g High Throughput Sequencing), have significantly advanced bioaerosol research, enabling more robust associations between bioaerosols and health to be made
- Sampling and analysis methods of air-borne microorganisms in . . .
This article reviews the sampling and detection of diferent kinds of microorganisms in bioaerosols from indoor diagnostic and therapeutic settings, with a particular focus on microbial activity This provides deeper insights into bioaerosols in diagnostic and therapeutic settings
- Bioaerosol biomonitoring: Sampling optimization for molecular . . .
The optimal method for bioaerosol concentration from the liquid matrix was centrifuga-tion However, we also present a method using syringe filters for rapid in-field recov-ery of bioaerosols from impingement samples, without compromising microbial diversity for high -throughput sequencing approaches
- New generation sequencing: molecular approaches for the . . .
bioaerosols could make great progress, developing stan-dardized detection approaches for exposure markers, ana-lysing dose response relationship, merging diverse detection approaches to compensate the limitations of diverse approaches, and applying new analysis approaches to detect the potential hazard incurred [52]
- Evaluation of bio-aerosols type, density, and modeling of . . .
In order to identify bacteria and fungi, some biochemical and molecular tests and microscopic and macroscopic characteristic methods were applied, respectively The results showed that the highest and lowest densities of the bioaerosols were observed in lung and operating wards (336 67 and 15 25 CFU m3)
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