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Fluid Imaging Technologies Introduces World's First Nano-Flow Imaging(TM) Particle Analyzer to Automatically Image Nanoparticles for Identification

New FlowCam® Nano ends biopharmaceutical dark ages, begins enlightenment

by Fluid Imaging Technologies
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FlowCam® Nano Scarborough, ME: For the first time ever, new instrumentation featuring Nano-Flow ™ particle imaging provides digital images of particles ranging in size from 300 nm to 30 µm. Using patented, oil immersion technology for enhanced optical resolution, the new FlowCam® Nano from global laboratory instrumentation manufacturer Fluid Imaging Technologies, Scarborough, ME (, automatically reveals protein agglomerates, silicon oil droplets, glass shards, and other opaque, transparent, and translucent sub-visible particles with the high resolution imagery needed for identification. Particle analyzers based on light obscuration, dynamic light scatter, Brownian motion or Coulter Principle are unable to image these particles and allow for their identification.

Ideal for analytical scientists, biochemists, formulation scientists, lab managers, and other biopharmaceutical professionals, the new FlowCam Nano was developed to find, expose and identify nanoparticles in protein formulations and help track the progression of protein agglomerates from individual, proteinaceous particles into the larger aggregates that pose a threat to the safety, efficacy, stability, and longevity of parenteral bioformulations. In addition, the FlowCam Nano may serve as an invaluable companion to USP<788> compliance testing methods for particulate matter by documenting the presence and type of nano-scale particles, which may cause failed test results.

The FlowCam particle imaging and analysis family of instruments now encompasses six models engineered to analyze particles ranging from 300 nm to 5 mm in size. The FlowCam models automatically measure more than 40 different parameters in real-time from size, count, and concentration to color, grayscale, and morphological characteristics such as circularity, elongation, and fiber curl.

For more information, contact Fluid Imaging Technologies, Inc.; 200 Enterprise Drive, Scarborough, Maine 04074; 207.289.3200.; Fax