AmpliFlux/FET Technology

The industry standard technology Enzyme-Linked Immuno-Sorbent Assay (ELISA) is widely used in biology and medicine for the detection of viruses, bacteria, disease biomarkers, and other physiologically active substances. It is used routinely in research, clinical and pharmaceutical laboratories. However, in many cases the sensitivity of ELISA is inadequate. Thus, increasing the sensitivity, accuracy and general performance of these assays offers a significant opportunity to address unmet clinical needs. Our AmpliFlux technology improves the sensitivity and accuracy of numerous diagnostic assays.

Flow-through cell counting assay (FTCA)

The industry standard technology Enzyme-Linked Immuno-Sorbent Assay (ELISA) is widely used in biology and medicine for the detection of viruses, bacteria, disease biomarkers, and other physiologically active substances. It is used routinely in research, clinical and pharmaceutical laboratories. However, in many cases the sensitivity of ELISA is inadequate. Thus, increasing the sensitivity, accuracy and general performance of these assays offers a significant opportunity to address unmet clinical needs. Our AmpliFlux technology improves the sensitivity and accuracy of numerous diagnostic assays.

Ultrasound-enhanced Particle Agglutination (UPA) method

Ultrasound-enhanced Particle Agglutination (UPA) is a platform technology in which ultrasound is used to improve the performance of conventional particle agglutination immunoassays. UPA improves conventional particle agglutination and haemagglutination assays, by increasing sensitivity, decreasing incubation times, lowering reagent costs and delivering more quantitative results.


Barbell Horn Ultrasonic Technology (BHUT)

Allied Innovative Systems (ALLIS) is a strategic partner of Industrial Sonomechanics, LLC (New York, NY, USA) in the development of Barbell Horn Ultrasonic Technology (BHUT). BHUT is an innovative tool for preparation of pharmaceutical nanoemulsions, liposomes and other nano-scale drug delivery systems.

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