In order to quantitatively characterize biological objects, for example individual cells, a stimulus is applied to a biological object (8) in a contactless fashion. A measurement and a further measurement are performed on the biological object (8) in order to ascertain a response of the biological object (8) to the stimulus, wherein the measurement and the further measurement comprise detecting Raman scattering on and/or in the biological object (8) and/or capturing data using digital holographic microinterferometry (DHMI). The biological object (8) is characterized according to a result of the measurement and is sorted if needed. The stimulus can be applied by means of a laser beam that creates optical tweezers or an optical trap, by means of ultrasonic waves or an electric or magnetic radio frequency field.

This invention concerns a process to identify consortia of probiotic strains belonging to e.g. the genera Lactobacillus, Bacillus, Pediococcus, and Weissella that can be used in preparations for food supplement, food production, and pharmaceutical applications with the intention to execute a safe and rapid degradation of gluten to non-toxic, non-immunogenic digests.

This invention concerns a process to identify consortia of probiotic strains belonging to e.g. the genera Lactobacillus, Bacillus, Pediococcus, and Weissella that can be used in preparations for food supplement, food production, and pharmaceutical applications with the intention to execute a safe and rapid degradation of gluten to non-toxic, non-immunogenic digests.

The present invention relates to a method for identifying a cell (group), a method comprising a cell stratifying process utilizing quantitative physical property data, a method for separating a cell (group) utilizing the cell stratifying process, a method for identifying a molecular marker that identifies a cell (group) utilizing the cell stratifying process, a method for culturing a cell (group) utilizing the cell stratifying process, a program for causing a computer to execute a step of identifying a cell (group) utilizing the cell stratifying process, and a system for analyzing, identifying, or separating a cell (group) utilizing the cell stratifying process.

A culture device comprising an oxygen sensitive luminophore, typically an oxygen sensitive phosphor, such as a porphyrin, and methods of use for culturing and enumerating microorganisms

The need for an accurate, early, and precise estimation of expected delivery date (EDD) for the pregnant subject is vital. A system and method for predicting a day/date of delivery for a pregnant subject using one or more microbiome samples collected from the pregnant subject is provided. The disclosure relates to applying machine learning techniques on the microbiome characterization data corresponding to the biological sample(s) collected from the pregnant subject. The method further comprises using the predicted EDD to suitably plan and take required medical treatment or precautions or medical advice for the pregnant subject to prevent any pregnancy and/or delivery related complications and to manage the delivery appropriately. The disclosure also provides compositions of the microbiome data which can potentially influence the delivery date, or the method provides exemplary compositions of the microbiome data which plays vital role in estimating the EDD of the pregnant subject.

Kits and methods for detecting pathogens without the need for laboratory equipment are disclosed. The kits and methods described herein allow for near-room temperature amplification of pathogen polynucleotides in a biological sample in a one-compartment reaction vessel. The kits and methods may be used to detect any target nucleic acid, such as DNA or RNA from a bacterial, fungal, or viral pathogen.

Kits and methods for detecting pathogens without the need for laboratory equipment are disclosed. The kits and methods described herein allow for near-room temperature amplification of pathogen polynucleotides in a biological sample in a one-compartment reaction vessel. The kits and methods may be used to detect any target nucleic acid, such as DNA or RNA from a bacterial, fungal, or viral pathogen.

A system for use in a poultry house includes a control server, a network gateway disposed in the poultry house and equipping with a wireless communication capability; a movable sensor module disposed in the poultry house, wherein the movable sensor module is movable within the poultry house for obtaining a plurality of environmental parameters associated with specific locations within the poultry house, and a sampling machine disposed in the poultry house for obtaining a sample of poultry waste on the ground of the poultry house. The movable sensor module transmits the environmental parameters to the network gateway, and the network gateway transmits the environmental parameters to the control server for processing the environmental parameters.

The present disclosure provides compositions and methods for acidic compositions for use in optimizing the genital microbiome of a user or sexual partners of that user. The compositions may comprise a prebiotic oligosaccharide, a metal co-factor, and an essential oil comprising bornyl acetate. The compositions support the genital microbiota and are useful for, for example, hydrating, lubricating, cleaning, and/or decreasing irritation or inflammation of the urogenital and/or anogenital region of a subject, and/or enhancing the beneficial genital microbiota of a subject. Such compositions are useful before, during, and/or after sexual and/or reproductive activity. Furthermore, the compositions may have minimal or beneficial effect on gametes.