Applications of Flow Cytometry to Clinical Microbiology

Abstract: SUMMARY Classical microbiology techniques are relatively slow in comparison to other analytical techniques, in many cases due to the need to culture the microorganisms. Furthermore, classical approaches are difficult with unculturable microorganisms. More recently, the emergence of molecular biology techniques, particularly those on antibodies and nucleic acid probes combined with amplification techniques, has provided speediness and specificity to microbiological diagnosis. Flow cytometry (F… Show more

“…4 We evaluated the feasibility of using the BF-FCM to detect bacteria in body fluid samples. Until now, only few reports have documented bacterial detection using FCM.…”

“…FCM has already been used in clinical microbiology for urinalysis, analysis of cerebrospinal fluid (CSF), and bile analysis, and is able to provide accurate and precise quantification of microscopic elements in urine and bile samples. [4][5][6][7][8][9] However, in CSF samples, FCM bacterial counts have been unreliable in hemorrhagic samples and in samples collected by ventricular drainage, where interference by platelets and cells debris was observed. 7,8 In the present study, we evaluated the feasibility of using an FCM-based experimental automated bacteria counter (BF-FCM; Sysmex, Kobe, Japan) to quickly detect bacteria in body fluid samples.…”

Feasibility of flow cytometry for the detection of bacteria from body fluid samples

“…4 We evaluated the feasibility of using the BF-FCM to detect bacteria in body fluid samples. Until now, only few reports have documented bacterial detection using FCM.…”

“…FCM has already been used in clinical microbiology for urinalysis, analysis of cerebrospinal fluid (CSF), and bile analysis, and is able to provide accurate and precise quantification of microscopic elements in urine and bile samples. [4][5][6][7][8][9] However, in CSF samples, FCM bacterial counts have been unreliable in hemorrhagic samples and in samples collected by ventricular drainage, where interference by platelets and cells debris was observed. 7,8 In the present study, we evaluated the feasibility of using an FCM-based experimental automated bacteria counter (BF-FCM; Sysmex, Kobe, Japan) to quickly detect bacteria in body fluid samples.…”

Feasibility of flow cytometry for the detection of bacteria from body fluid samples

“…Over the last three decades, due to its versatility, and combined with automated sample handling for an increased sample throughput, flow cytometry (FC) technique has impacted biotechnology significantly [47,48]. Concurrent with the development of fluorescent dyes technology, this technique has evolved as one of the most powerful and versatile tools available to study microbial suspensions, giving rise to an increasing number of biotechnological applications, books and reviews [1,[49][50][51][52][53][54][55]. Some current FC applications in biotechnology range from cell count and identification to its use in bioprocess control and prediction for the development of more accurate kinetic models.…”

Application of flow cytometry to industrial microbial bioprocesses

“…It can be used for food samples, but requires prior isolation of the target organism to generate antibodies. The use of speciWc antibodies directed against pathogens such as certain strains of Escherichia coli, Salmonella, Pseudomonas and other cell types allowed their cytometric detection with sensitivity and speciWcity [1]. Magnetic separation can also be used to make the analysis faster and more speciWc, and to overcome the presence of noncellular particles [85].…”

Flow cytometry applications in the food industry