Nanoparticles behave differently from their respective bulk mater

Nanoparticles behave differently from their respective bulk materials and thus the unique properties of the nanoparticles might also cause adverse health effects on human, animal and environment. The speedy commercialization of nanotechnology requires thoughtful and careful environmental, animal and human health safety assessment [18,19]. The detection and quantification of viable bacteria plays a critical role in quality control programs of the food, cosmetics and drug industry to prevent Selleckchem Pevonedistat illness and in clinical diagnosis and therapeutics. Currently there are many methods used for the detection and quantification of bacteria,

ncluding conventional and molecular approaches PD0332991 price [20-24]. Conventionally identification of bacteria is usually performed by three methods including culture-based counting for colony-forming units Selleckchem Tariquidar (CFU) [22,25], spectrophotometer method of optical density (OD) measurement

[23,24], and flow cytometry (FCM) [26,27]. In spite of the sensitivity and reliability, counting CFU is time-consuming and labor-intensive [28,29]. CFU determination is the conventional method to quantify bacteria, but only detects those that are able to grow on specific solid media, which excludes the detection of unculturable live, inactive or damaged bacterial cells [30,31]. Therefore, CFU counting tends to undercount the actual number of the bacteria. For example, anaerobic bacteria are not able to grow on the media and cultural conditions suitable for growth of aerobic bacteria. Optical density method measures turbidity associated directly with bacterial growth which is rapid, low cost and non-destructive,

however, it measures live as well as dead bacterial cell debris. Flow cytometry is a relatively newly developed technique and enables a fast and reliable detection of all bacteria including the non-cultivable microorganisms. It enables researchers to reliably distinguish and quantitate live and dead Isotretinoin bacteria with the aid of a flow cytometer in a mixed population containing various bacterial types [32]. Besides, Flow cytometry method is able to provide morphometric and functional properties of the detected bacteria [33,34]. Currently all these three methods are employed to quantify bacterial contents in the presence of nanoparticles [35-39]. So far there has not been any research performed concerning potential interference by nanoparticles on the bacterial counting methods. The aim of this study was to compare three commonly used conventional methods for bacterial detection and quantification in the presence of nanoparticles.

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