Apparatus (1000) and method for automatically detecting odorant substances based on use of nematodes that includes a mechanical selection unit (100) configured to select nematodes in adult stage from an initial nematode population obtaining an intermediate nematode population, a nematode optical selection unit (200) configured to select from the intermediate population a final population of nematodes in adult stage and to select nematodes in young adult stage from nematodes in egg producing adult stage to be sent to a measurement unit (300) configured to detect the response of nematodes of the final population to a stimulus of an odorant substance, the mechanical selection unit (100) being connected to the optical selection unit (200) by a connection channel with an at least three way branch and the optical selection unit (200) being connected to the measurement unit (300) by a loading microchannel.

The present disclosure provides transgenic nematode systems for assessing function of heterologous genes, their variants and drug discovery. The transgenic nematodes contain a heterologous gene that is inserted via homologous recombination at the native locus replacing and removing the nematode ortholog, wherein expression of the heterologous gene rescues function of the removed nematode ortholog and a transgenic control animal is provided. The heterologous gene may be further modified to provide a variant, such as a human clinical variant, whereby a transgenic test animal is provided. Those transgenic test animals are used in methods to assess function of the heterologous variant and drug screens to find therapeutic candidates reversing deviant activity back to wildtype.

The present disclosure provides transgenic non-human animal (e.g., nematode) systems for assessing heterologous polygenic or monogenic phenotypes, their variants and drug discovery. The transgenic non-human animals (e.g., nematodes) contain a first heterologous polypeptide coding sequence and a second heterologous polypeptide coding sequence (a plurality of heterologous polypeptide coding sequences), wherein the first and second heterologous polypeptide coding sequences are integrated into the host animal genome, and wherein expression of the first and second heterologous polypeptide coding sequence contribute to the heterologous phenotype. The plurality of heterologous polypeptide coding sequences are interrelated wherein their expression products, directly or indirectly, contribute or lead to an observable phenotype.

A cancer detection method characterised in that a nematode is bred in the presence of bio-related material originating from a test subject, or a processed product of same, and cancer is detected using the chemotaxis due to the sense of smell of the nematode as an indicator.

Disclosed herein are devices, systems, and methods for measuring an electropharyngeogram (EPG) in living organisms. In some embodiments, the devices and systems disclosed herein include an array for sorting and immobilizing an organism (such as a nematode) for measurement of an EPG and/or optical imaging. Also disclosed are methods for identifying therapeutic or toxic compounds utilizing the disclosed devices and systems. In some embodiments, the methods include screening for compounds with anthelmintic activity, toxicity (for example HERG channel blockers), or candidate drugs for treatment of a variety of human and/or animal diseases.

A cancer analysis system includes, so as to perform an efficient image analysis in a cancer screening test using nematodes: a light source unit that irradiates a plate on which nematodes and a urine sample are plotted, from below; a photographing unit that takes an image of the plate irradiated by the light source unit; and an analyzer that analyzes the image taken by the photographing unit. The analyzer: couples a prescribed number of pixels in the image into a larger number of pixels thereof; and performs a chemotaxis assay of the nematodes based on a time variation of information on a luminous center of gravity of the image.

Microfluidic devices for the rapid and automated processing of sample populations are provided. Described are multiplexer microfluidic devices configured to serially deliver a plurality of distinct sample populations to a sample processing element rapidly and automatically, without cross-contaminating the distinct sample populations. Also provided are microfluidic sample processing elements that can be used to rapidly and automatically manipulate and/or interrogate members of a sample population. The microfluidic devices can be used to improve the throughput and quality of experiments involving model organisms, such as C. elegans.

The present invention includes a system and method for analyzing animals including: a media reservoir and a media pump in fluid communication with the media reservoir; a food reservoir and a food pump in fluid communication with the food reservoir; an input port in fluid communication with the media pump and the food pump; a microfluidic device in fluid communication with the input port including: a micropillar arena or a plurality of micropillar chambers; an outlet port in fluid communication with the microfluidic device; a light source positioned outside the micropillar arena to illuminate the interior of the micropillar arena; an imager positioned outside the micropillar arena to image the interior of the micropillar arena; and a controller coupled to the media pump, the food pump, the microfluidic device, the light source, and the imager.

The present invention provides a method for highly sensitively and highly specifically detecting a kidney cancer. According to the present invention, there is provided, for example, a method for detecting a kidney cancer in a subject, comprising diluting a urine sample obtained from the subject at a predetermined ratio, and determining whether or not nematodes exhibit attraction behavior toward the diluted urine sample, wherein the predetermined ratio is 200 or more.

A cancer detection method characterised in that a nematode is bred in the presence of bio-related material originating from a test subject, or a processed product of same, and cancer is detected using the chemotaxis due to the sense of smell of the nematode as an indicator.