Abstract: A system for cleaning up and preparing an image for segmentation is disclosed. An image transmitting device is configured to transmit a first image to an image receiving device. The image receiving device is configured to: receive the first image; apply a Dual Tree Complex Wavelet transform to the first image to form a plurality of sub-images; generate a high pass image based on the plurality of sub-images; generate a rotational invariant resultant image based on the high pass image; generate a low pass image based on the plurality of sub-images; and combine the rotational invariant resultant image and the low pass image to form a pseudo-fluorescent image.

Abstract: Irradiance control systems (“ICSs”) that control the irradiance of a beam of light are disclosed. ICSs include in a beam translator and a beam launch. The beam translator translates the beam substantially perpendicular to the propagating direction of the beam with a desired displacement so that the beam launch can remove a portion of the translated beam and the beam can be output with a desired irradiance. The beam launch attenuates the irradiance of the beam based on the amount by which the beam is translated. ISCs can be incorporated into fluorescent microscopy instruments to provide high-speed, fine-tune control over the irradiance of excitation beams.

Abstract: Disclosed herein is a formulation capable of enhancing thermostability and shelf-life of a biological product, the formulation comprising: a tertiary amine N-oxide or a derivative thereof represented by the formulae: wherein R1, R2, and R3 may be identical or different and each is a straight or branched lower alkyl group having from 1 to 4 carbon atoms; an inorganic salt; glutamic acid or a salt thereof; a polyol; a physiologically acceptable buffer, and a pharmaceutically acceptable carrier. The tertiary amine N-oxide may be trimethylamine-N-oxide, (CH3)3NO. The formulation is useful for vaccine stabilization.

Abstract: A flexible bag and a method for filling a flexible bag which is collapsed when empty, wherein at least one fastening means is provided on a surface of the flexible bag such that at least two upper parts of the flexible bag can be held together by this at least one fastening means during a first part of filling of the flexible bag, whereby the fastening means is designed to release when the bag is filled to a certain amount such that the two upper parts being held together by the fastening means will lose contact.

Abstract: Disclosed is a heat exchange module for use in a chemical, pharmaceutical or biological reactor system, the module configured to be disposed in the reactor system having a flexible single use container, and including at least one thermally conductive surface adapted to contact the flexible single use container to facilitate heat transfer, and a fluid circulation path through which a heat exchange fluid can be circulated.

Abstract: The present invention relates to an immunoglobulin-binding protein, wherein at least one asparagine residue has been mutated to an amino acid other than glutamine or aspartic acid, which mutation confers an increased chemical stability at pH-values of up to about 13-14 compared to the parental molecule. The protein can for example be derived from a protein capable of binding to other regions of the immunoglobulin molecule than the complementarity determining regions (CDR), such as protein A, and preferably the B-domain of Staphylococcal protein A. The invention also relates to a matrix for affinity separation, which comprises an immunoglobulin-binding protein as ligand coupled to a solid support, in which protein ligand at least one asparagine residue has been mutated to an amino acid other than glutamine.

Abstract: This invention provides for the fully automated, hands free, packing of chromatography columns by means of delivering a pre-calculated volume of slurry and using two different packing modalities to stop the packing when either 1) this volume has been delivered in the column, or 2) when the adapter is moved to reach a bed height corresponding to the pre-calculated volume. Thus, a chromatography column can be packed in a fully automated fashion and such a column is 1) stable and 2) has the desired performance characteristic.

Abstract: This invention provides an automated installation procedure for assembling a disposable flow path: providing a disposable flow path comprising tubing and a plurality of sensors onto a re-usable instrument; qualifying said tubing and said plurality of sensors to be on the flow path based on a standard; and determining if the tubing and the plurality of sensors comply with characteristics and performance according to limits for specifications or acceptance criteria.

Abstract: Systems and methods for containing and manipulating liquids, including vessels and unit operations or components of cell culture, cell containment, bioreactor, and/or pharmaceutical manufacturing systems, are provided. In certain embodiments, such vessels and unit operations are directed to continuous perfusion reactor or bioreactor systems and may include one or more disposable components. For instance, in one aspect, a system includes an apparatus in the form of a bioreactor for harvesting cells which produce one or more products. The apparatus may include a disposable, collapsible bag adapted for containing a liquid, the collapsible bag in fluid communication with a liquid-solids (e.g., cell) separation device. For example, an outlet of the collapsible bag may be connected to an inlet of the separation device, and an outlet of the separation device may be connected to an inlet of the collapsible bag for recycle.

Abstract: Disclosed is a sensor and housing assembly for a single-use bioreactor system, including a device for operatively associating a sensor with a flexible wall, the device comprising an internal housing portion that is removable and variably positionable on an internal surface of the flexible wall, the internal housing portion comprising a chemical detector sensor, which may be an optical chemical detector sensor.

Abstract: Various embodiments of the present invention are directed to optical-fiber-based light sources for use in microscopy, spectrometry, and other scientific and technical instruments, devices, and processes. Light-emitting diodes (“LEDs”) and other light sources are, in various embodiments of the present invention, incorporated on or within an optical fiber or fiber-optic cable in order to produce a bright optical-fiber-based light source. By incorporating light-emitting devices on or within an optical fiber, a significantly greater photon flux can be obtained, within the optical fiber or fiber-optic cable, than can be obtained by directing light from equivalent, external light-emitting elements into the optical fiber or fiber-optic cable, and the optical-fiber-based light sources of the present invention provide desirable characteristics of the light sources embedded on or within them.

Abstract: A chromatography column distribution system (101) comprises a set of first bed support ribs (107) extending radially from a inner, first radial position (R1) near the centre of the plate to a outer radial position nearer to the periphery (109) of the plate and at least one set of intermediate bed support ribs (117, 119) starting at an intermediate radial position (R2, R3) and extending to an outer radial position nearer to the periphery (109) of the plate (101), whereby channels are formed between adjacent bed support ribs (107, 117, 119).

Abstract: Disclosed herein are embodiments of a valve assembly for preventing dead leg spaces in a container or tubing, the embodiments including a three-way valve system for controlling back-pressure in a fluid generating device, such as a single-use high pressure bioreactor. Also disclosed is a pressurized reactor system for bioprocessing, comprising a single-use container including a flexible wall or a semi-rigid wall.

Abstract: This invention provides a system and apparatus that is able to authenticate and prevent illegal manufacturing and unauthorized operation of disposable bioprocess components. This invention utilizes a ferro-electric random access memory (FRAM) chip to store error-correctable information on a RFID tag attached to the disposable bioprocess components, where the error-correctable information is written into the memory chip, so that the information can remain in the chip when the RFID tag and disposable bioprocess component is gamma-sterilized. Also, this invention includes a method for authenticating the disposable bioprocess component that reduces liability in that a counterfeit poor quality disposable component is not used on the hardware so the user will not file an unjustified complaint.

Abstract: Correction elements that can be incorporated in objective-based TIRF microscopy instruments to correct for chromatic aberrations are described. A correction element can be placed between a multiple wavelength excitation beam source and the microscope objective lens. In one aspect, the thickness of the correction element is defined to compensate for different axial positions of the focal points associated with each excitation wavelengths traveling along the outer edge of lenses comprising a microscope objective lens. In another aspect, the correction element can be angled and/or configured so that the different wavelengths of multiple wavelength excitation light are shifted to adjust the angle of incidence for each wavelength at the specimen/substrate interface.

Abstract: Embodiments of the present invention are directed to imaging technologies, and, in particular, to an imaging system that detects relatively weak signals, over time, and that uses the detected signals to determine the positions of signal emitters. Particular embodiments of the present invention are directed to methods and systems for imaging fluorophore-labeled samples in order to produce images of the sample at resolutions significantly greater than the diffraction-limited resolution associated with optical microscopy. Embodiments of the present invention employ overlapping-emitter-image disambiguation to allow data to be collected from densely arranged emitters, which significantly decreases the data-collection time for producing intermediate images as well as the number of intermediate images needed to computationally construct high-resolution final images. Additional embodiments of the present invention employ hierarchical image-processing techniques to further resolve and interpret disambiguated images.

Abstract: The invention related to a method of making a dried reagent preparation, comprising the steps of: providing an aqueous solution of at least one buffered biological reagent; mixing a glass forming filler material with the buffered reagent solution to form a mixture wherein the concentration of the filler material is sufficient to facilitate formation of a glassy, porous composition; dispensing the mixture in the form of substantially uniform droplets into wells of a multi-well container, wherein a single droplet is dispensed into each well; drying the droplets in the container to form the reagent preparation. The reagent preparation is water soluble and has a Tg sufficient for room temperature stability.

Abstract: Disclosed are magnetic agitation mixing systems for use with flexible container reaction vessels. In one aspect of the invention, the orientation of magnetic coupling between the impeller magnets and the external driver magnets is modified such that the coupling is neither strictly axial nor strictly radial. Also disclosed are “receiver-less” retainer configurations whereby the single-use container need not have a rigid base that defines a cup or post to engage of rotatable agitator.

Abstract: Disclosed herein are fluid containment systems such as gas delivery configurations, foam control systems and bag molding methods and articles for supported collapsible bag vessels and bioreactors. A vessel may include a device which can reduce the foam produced or contained within the vessel. Sensors and/or controllers may optionally be used to monitor and/or control foaming.