Abstract: Described are compositions and methods for treating liver disease, e.g., acute liver disease, using bone marrow-derived stem cells and bone marrow-derived stem cell conditioned media.

Abstract: A method and a plant to remove metals by biosorption from mining or industrial effluents comprising: (a) subject the effluent to at least one first stage of pre-treatment, selecting among: precipitation by pH rising, solvent extraction or solvent extraction on emulsified membranes in order to reduce its load of metals to a concentration level that allows it to be treated by the next stage of biosorption, and (b) subject the liquid that has been previously in the stage of pre-treatment to a second stage of continuous metals removal by biosorption.

Abstract: A container is provided for cell growth by artificial cultivation of selected biological material in a growth liquid for use in an oscillating incubator. The container has a circular bottom with rounded corners joining a sidewall that is inclined at an angle toward a longitudinal axis of the container to define a container volume. The bottom has six equally spaced baffles extending inward from the corners and upward toward a large diameter opening of the container centered on the longitudinal axis. The baffles have a triangular cross-sectional shape with an included angle of about 28–40°, and a height measured parallel to the longitudinal axis of about 15–25% of the usable container volume. The baffles end before the longitudinal axis. The container and baffles are blow molded of a polymer suitable for blow molding. An air permeable filter is placed over the container opening, with the filter having an adhesive on one side to stick to the container.

Abstract: A multilayered cell culture apparatus for the culturing of cells is disclosed. The cell culture apparatus is defined as an integral structure having a plurality of flexible cell culture compartments in combination with a spacer material maintaining air space(s). The expandable compartments of the cell culture apparatus have imparted therein gas permeable membranes in combination with air spaces that will allow the free flow of gases between the cell culture compartments and the external environment. Furthermore an interconnecting passageway is provided between each compartment and between the cell culturing vessel and the external environment. The expandable vessel promotes the growth of large numbers of adherent or suspension cells by providing the volumes of nutrient medium and gaseous exchange.

Abstract: An article and method for high throughput and a high content investigation of compound interactions with live tissue or its substitutes under controlled conditions during compound absorption and related processes. In some variations of the illustrative embodiment, the article is a multi-chamber enclosure having at least two chambers separated by a membrane. Membranes can be prepared from live epithelial tissue or from an artificial material with or without attached cells from cell-line cultures. Each chamber is advantageously connected to a fluidic-control system by tubes that pass through a feed fitting. In addition to coupling the chambers with the fluidic-control system, the feed fitting, which is spring-biased, provides a sealing force to seal the enclosure. In some variations, one or more multi-chamber enclosures are installed in a mother chamber, which provides controlled environmental conditions.

Abstract: An object of the present invention is to construct a culture device optimized for culturing animal cells. The present invention provides a device for culturing cells which comprises at least one water-containing polymer gel film for adhering animal cells onto at least one surface of the film, and has a structure capable of supplying different liquids to both sides of the film.

Abstract: The present invention provides a cell culture treatment device for culturing, treating and collecting cells, which includes a flow path, a cell-retaining section, a solution inlet, a solution outlet, a cell collection port and a lid. The present invention also provides an device for easily, efficiently separating and collecting the cells thereby in a short period of time, and provides a method therefor.

Abstract: A device and a method of maintaining vascularization near an implant, especially a bioartificial hemofilter. By associating cells that excrete angiogenic factors with such an implant, vascularization to the tissue surrounding the implant can be maintained. In a bioartificial hemofilter, this facilitates filtrate transport to a collection fiber for drainage from the body. The cells can be genetically engineered, for example using an adenovirus vector encoding for vascular endothelial growth factor. Myoblasts and myotubes may be used in one embodiment of the present invention.

Abstract: A system for collecting ligno-cellulosic biomass over a large area to enable the commercial refining of biomass from 2,500 to in excess of 50,000 tons of biomass per day to produce ethanol or other products. The biomass is collected at a series of collection points and then transported through a network of conduit “loops” interconnecting each of the collection points and the central refining plant. The water used to transport the biomass, as a slurry, is recovered and sequentially recycled in the same pipeline system to push the biomass slurry around the system in a “loop”.

Abstract: The present invention relates to a bioreactor for sewage and wastewater treatment, which is capable of agitating and supplying oxygen simultaneously. A bioreactor of the present invention, comprises a culture drum in which microorganisms are cultured; a supplier for supplying a culture solution, and organic and inorganic media to the culture drum, the supplier including a supply tube connected to an upper side of the culture drum, and a pump connected to the supply tube for supplying the culture solution to the culture drum; an agitator for agitating the culture solution by spraying air into the culture solution in the culture drum, the air being supplied from an air blower; and a thermostatic controller for controlling a temperature of the culture solution and disinfecting the interior of the culture drum.

Abstract: In a bioreactor, a culture solution derived from a cultivation tank is separated into bacteria cells and filtrate by a bacteria cell filter. The filtrate is introduced from the bacteria cell filter into a micro-nano bubble generation tank where micro-nano-bubbles are mixed with the filtrate. The filtrate containing micro-nano-bubbles is returned to the cultivation tank to activate the microorganisms therein, so that a biological reaction time is reduced by the activated microorganisms.

Abstract: The present invention relates to an apparatus and methods that immobilize one or more cells associated with magnetic material on a substrate on which are located one or more magnetic receptacle(s). Alternatively, in another aspect the present invention, the device arrays cells associated with magnetic material on a substrate having a pattern of magnetic receptacles disposed thereon. The size of the magnetic receptacle(s) determines the number of target cells that it is capable of immobilizing. The size of the magnetic receptacle is defined by the strength of a localized magnetic field gradient. The localized magnetic field gradient may be derived from 1) permanent magnets embedded in the substrate or alternatively, the localized magnetic field gradient may be derived from an 2) external magnet whose strength is focused by objects of highly-permeable-magnetic material which create localized magnetic field gradients.

Abstract: A microsample treatment apparatus and an apparatus for detecting chemotaxis of cells and separating chemotactic cells includes a number of wells that are connected to each other via a part having resistance to fluids. The wells are each provided with tubes for injecting/sucking a sample and, if necessary, tubes for relieving pressure changes at the injection/suction. The tubes have a space in common at the top ends thereof in which a liquid can be held.

Abstract: This invention relates to systems, apparatus and methods of operating a wet combustion engine and apparatus therefore, capable of biologically burning fuels within a wet combustion chamber within a bioproactor system, including but not limited to, organic carbon containing materials especially biological, hazardous or toxic waste contaminants, in an environmentally sensitive manner. An integrated computer control system that, proactively and pre-emptively, uses feedback from bio-sensors, to monitor, record and control applicable components of the bio-system, to optimize, replenish, and sustain exponential growth of selected life-forms, including but not limited to microbes such as bacteria. In the intake cycle, a suitably prepared fuel mixture is metered into the wet combustion diffusion separation membrane chamber located within the life-support chamber of the bioproactor. In the combustion cycle, diffusion and combustion rates are monitored and timed.

Abstract: A device for oxygenating blood in an extracorporeal circuit includes a first structure suitable to delimit a portion of space-containing capillaries made of microporous membrane. The capillaries convey oxygen and are wet externally by blood flowing through a portion of space between an intake connector, which is connected to a venous line of the extracorporeal circuit, and a delivery connector. The device includes a second structure monolithically connected and contiguous to the first structure. The second structure is suitable to contain blood filtration means that divide the portion of space delimited thereby into a blood distribution chamber, provided with an air vent and connected to the delivery connector of the first structure, and a blood collection chamber provided with a delivery connector connected to the arterial line of the extracorporeal circuit.

Abstract: A disclosure is made of various apparatus and methods for culturing and preserving cells and tissue in ways that minimize contamination potential, direct cells to reside in desired areas, allow uniform cell distribution during seeding, provide optimal growth conditions by controlling the amount of medium residing in proximity of cells, allow desired compounds and molecules to reside in proximity of the cells, allow co-culture, provide for efficient scale up, allow a desired shape of tissue to be created while retaining a closed system, and allow cryopreservation and reconstitution of cell and tissue while retaining a closed system. The apparatus and methods can be combined to prevent the need to remove the tissue from the enclosure at any point during the sterilization, seeding, culturing, cryopreservation, shipping, or restoration process. Also disclosed is an apparatus and method of pipette interface with a container in a manner that blocks contaminants from entering the container.

Abstract: The gas dual-dynamic solid state fermentation technique consists of placing the solid materials to be fermented in an air environment with pulsating pressure and cyclic flow to carry out fermentation, the fermentation apparatus comprises a horizontal cylindrical tank with a quick door mechanism, in the tank are axially disposed rectangular spacer barrels of square cross-section constructed by four baffles, in the space between baffles and the tank wall are provided cooler tubes in parallel with the baffles, in the middle of the spacer barrels are provided vertically many sets of cooler tubes, on the lower baffles in the tank is provided axially an fixed track, on which are movable tray racks that can roll on the track, the tray racks having thereon a plurality of layers of trays, at the rear of the tank is provided a centrifugal blowers for forcing gas cycling in the tank.

Abstract: A triphasic bioreactor for physico-chemically treating a gas is disclosed. The triphasic bioreactor comprises a reaction chamber with a liquid and biocatalysts in suspension in the liquid, for catalyzing a reaction between the gas and the liquid to obtain a treated gas and a solution containing a reaction product. A gas bubbling means is provided in the reaction chamber for bubbling the gas to be treated into the liquid thereby dissolving the gas into the liquid and increasing a pressure inside the reaction chamber. The bioreactor further comprises a liquid inlet in fluid communication with the reaction chamber for receiving the liquid and filling the reaction chamber, a liquid outlet in fluid communication with the reaction chamber for releasing the solution and a gas outlet in fluid communication with the reaction chamber to release the treated gas. The bioreactor further comprises a retention device to retain the biocatalysts in the reaction chamber.

Abstract: A device for characterizing the biological properties of cells can include a plurality of dual-compartment assay chambers wherein the compartments of each chamber are separated by a cell layer across which ions can flow. The biological properties of the cell layer in the presence or absence of experimental compounds can be determined by measuring an electrical gradient across the layer. A individual dual-compartment chamber of this type may be referred to as an “Ussing chamber.

Abstract: A device for inducing an immune response in cancer therapy in which isolated living malignant tissue is enclosed in a space formed by a microporous membrane and a holder which is introduced into a body cavity so that macromolecular and cellular immune system components can pass freely in both directions through the membrane while malignant cells of the tumor tissue remain trapped inside.

Abstract: The invention is a multichamber microdialysis device with a multitude of sample chambers in close side by side arrangement (similar to a microtiter plate) for receiving liquid samples, and at least one dialysate chamber for receiving a dialysate liquid. The sample chambers are surrounded by circumferential sidewalls and are in liquid exchange contact to a neighboring dialysis chamber via an exchange opening covered by a semipermeable membrane. The semipermeable membrane is fixed liquid-tight to the walls of the sample chamber, so that a diffusion exchange between the sample chamber and the correspondingly neighboring dialysate chamber is only possible via the membrane. Consequently, only molecules with a molecular weight below the molecular cut-off of the semipermeable membrane can diffuse from the sample chamber to the dialysate chamber or from the dialysate chamber to the sample chamber.

Abstract: An apparatus and method for a modular cell culture bioreactor comprises a plurality of chambers for cell culture; at least one reservoir containing a cell support medium; a plurality of conduits fluidly connecting the at least one reservoir with the plurality of chambers; and at least one pump fluidly connected through the plurality of conduits with the at least one reservoir and with the plurality of chambers to pump cell support medium therethrough; wherein each individual chamber of the plurality of chambers includes at least one three-dimensional matrix comprising polyethylene terephthalate, a plurality of channels carrying the cell support medium and having the matrix positioned in fluid communication therebetween, and at least two openings into each the channel, wherein a first the opening is in fluid connection with the pump and a second the opening is in fluid connection with the reservoir.

Abstract: The invention concerns a semipermeable chamber for encapsulation of cells producing at least a biological substance of interest, characterised in that it consists of a porous polycarbonate biocompatible film modified at the surface by generated polar sites and covered with at least a layer of hydrophilic polymer.

Abstract: The present invention claims and discloses a novel apparatus and method for efficiently cultivating cells with minimal mortality in order to harvest a maximum amount of cellular products generated by the cultivated cells. More particularly, the present invention teaches a method and a device for plating cells and causing maximum adherence of cells of interest. Furthermore, the present invention also teaches a growth substrate means that is capable of providing the largest surface area for cell adhesion and functions as an oxygenator, a depth filter and a static mixer to maximize the production of cellular products by intermittently and periodically provide sufficient oxygen and nutrients to the cells without causing cell death.

Abstract: A cell incubating apparatus and a method of culturing cells in vitro are disclosed, which relates to medical cell proliferation, pharmaceutical chemical screening and automatic cell analysis in tissue engineering technology. The apparatus establishes an imitating three-dimensional transportation microenvironment by assembling a top plate, a bottom plate and at least one culture plate apparatus for incubating cells. The apparatus is not only for incubating the tissue specific cells with biological function but also for lowering the cost of culturing cells for personal medical use.

Abstract: A co-culture apparatus and method for, among other things, converting a progenitor cell line into a target cell line. The apparatus comprises an exterior receptacle, a removable cartridge that fits into the exterior receptacle, and a closure member to seal the apparatus. The invention is also directed to a method for transforming a progenitor cell line into a target cell line. In one embodiment of the invention, the method comprises the steps of: establishing a progenitor cell line; establishing a support cell line; co-culturing said progenitor and support cell lines; establishing a transformation cell line; and co-culturing said progenitor and transformation cell lines, wherein the transformation cell line supports the transformation of the progenitor cell line into a target cell line.

Abstract: The method of the invention is directed to the novel use of a diffusion chamber within which previously “uncultivatible” microorganisms can be isolated. Rather than attempting to replicate the natural environment of an unknown microorganism, the method of the invention provides for exposing dividing microorganisms to all the components of the original environment while simultaneously containing the resulting colonies so that they can be isolated. The method of the invention can take advantage of the recognition that the preponderance of difficult-to-grow microorganisms do not form colonies visible to the naked eye. Therefore, these organisms must be isolated under a compound microscope as “microcolonies.” In addition, methods according to the invention permit the isolation of novel microorganisms capable of growing in artificial media only in co-culture in the presence of a companion microorganism.

Abstract: The present invention describes all apparatus for making a foliar spray from a liquid and a particulate matter. The apparatus consists of a non-porous liquid receptacle, a basket for holding the particulate matter, intake means for transporting air from a blower to a manifold means for aerating the liquid and the particulate matter, and a blower for supplying the air. The liquid receptacle is typically a substantially horizontal, rectangular tank having a flat bottom and the manifold means includes a selected number of diffuser arms, the number of diffuser arms selected to cover a substantial portion of the area of the bottom surface of the liquid receptacle and is selectively proportionate to the volume of the receptacle. The manifold means may be easily removed from the liquid receptacle by means of a quick-disconnect coupler for ease of cleaning the liquid receptacle once the foliar liquid is removed from the liquid receptacle via outlet means.

Abstract: A scaled-up multi-coaxial fiber bioreactor, and variations of this bioreactor. The device is characterized by a hollow housing and an array of from about 20 to about 400 modules of hollow fibers, where each module includes at least three coaxial semipermeable hollow fibers. The innermost fiber provides a boundary for an innermost compartment which is connected to inlet and outlet ports. Arranged coaxially around the central hollow fiber are several other hollow fibers with their respective compartments, each compartment defined by a respective annular space between adjacent fibers and each including inlet and outlet ports. An outermost compartment for permitting integral aeration is the space between the outer side of the outermost fibers and the inner side of the housing, and has inlet and outlet ports. The hollow housing has inlet and outlet manifolds and flow distributors for each of the compartments. In a preferred embodiment the bioreactor is used as an extracorporeal liver.

Abstract: A bioreactor for cell culture includes a chamber having three channels therethrough for conducting fluids, the three channels including an upper channel, a middle channel, and a lower channel, each the channel having an inlet and an outlet approximately opposite along the channel from the inlet. First and second cell support scaffolds are positioned within the chamber, each scaffold comprising at least one three-dimensional porous matrix containing non woven fibrous polyethylene terephthalate, the first scaffold being positioned within the chamber between the upper channel and the middle channel, and the second scaffold being positioned within the chamber between the middle channel and the lower channel.

Abstract: The present invention provides an operation editor that includes a user interface for programming operations to be performed by a chemical process machine. Through the user interface the user may specify that one or more of the steps in an operation be variable. Such variable steps may subsequently be edited by the same or another user when the operation is incorporated into a procedure. Steps in the operation that are not variable are fixed and may not be edited when the operation has been incorporated into a procedure. Furthermore, individual fields in a variable step may be either variable or fixed. The present invention also provides a procedure editor that includes a user interface, which allows the user to edit variable steps within the procedure's operations. The procedure editor presents to the user for editing only those steps within the procedure that are variable.

Abstract: A cell-culture apparatus forms an extra-capillary space between at least one hollow fiber and an enclosed chamber. Cells are placed in the extra-capillary space to grow. A media reservoir holds a cell-culture medium. The cell-culture medium is allowed to pass through a lumen of the at least one hollow fiber and to pass nutrients through the walls of the at least one hollow fiber to the cells in the extra-capillary space. Flow through the at least one hollow fiber is produced by action of gravity when a rocking or rotating motion is imparted to the media reservoir.

Abstract: The assay plate includes a substrate having an substrate surface and at least one raised pad extending from the substrate surface. The raised pad includes a substantially planar sample receiving surface configured for holding a sample thereon for in-situ experimentation. The sample receiving surface preferably has at least one sharp edge at the junction between a sidewall coupling the sample receiving surface to the substrate surface. The sample receiving surface is preferably a circle, oval, square, rectangle, triangle, pentagon, hexagon, or octagon shape that is sized to hold a predetermined volume of the sample. A method of using the above described assay plate is also provided. Once a raised pad extending from a substrate is formed, a sample is deposited on the raised pad. Experiments are subsequently performed using the sample on the raised pad.

Abstract: An apparatus for use in testing a plurality of compositions in parallel. The apparatus includes an upper plate having a plurality of openings extending therethrough to form upper fluid chambers and a lower plate having a plurality of openings extending at least partially therethrough to form cavities. A central plate having a plurality of openings extending therethrough to form central fluid chambers is positioned between the upper and lower plates with the central chambers in alignment with the upper chambers and the cavities. A porous sheet is interposed between the upper and central plates such that an upper surface of the sheet is in contact with fluid within the upper chamber and a lower surface of the sheet is in contact with fluid within the central chamber. The apparatus further includes a flexible membrane positioned between the lower and central plates such that changes in pressure within the cavities or fluid chambers cause deflection of the membrane to force fluid to pass through the porous sheet.

Abstract: An apparatus and method for a modular cell culture bioreactor comprises a plurality of chambers for cell culture; at least one reservoir containing a cell support medium; a plurality of conduits fluidly connecting the at least one reservoir with the plurality of chambers; and at least one pump fluidly connected through the plurality of conduits with the at least one reservoir and with the plurality of chambers to pump cell support medium therethrough; wherein each individual chamber of the plurality of chambers includes at least one three-dimensional matrix comprising polyethylene terephthalate, a plurality of channels carrying the cell support medium and having the matrix positioned in fluid communication therebetween, and at least two openings into each the channel, wherein a first the opening is in fluid connection with the pump and a second the opening is in fluid connection with the reservoir.

Abstract: The transdermal assay apparatus includes first, second, and third members. The first member has one or more sample surfaces, each of which is configured to receive a sample thereon. The second member defines one or more reservoirs, each of which has an opening on a surface of the second member. Each sample surface is substantially the same size as each opening. The transdermal assay apparatus also includes a magnetic clamp configured to clamp a tissue specimen between the sample surface and the opening. The magnetic clamp preferably includes a magnet having a strength that is selected based on the clamping force required between the first member and the second member. The invention also provides a method for using a transdermal assay apparatus.

Abstract: The invention concerns a micro-muscle designed to be immersed in a biological liquid, comprising a deformable chamber whereof one portion at least consists of a semipermeable membrane, said chamber containing a solution capable of osmotic activity. The solution is preferably activated by a product to be injected into the biological liquid.

Abstract: The invention relates to a terpolymer of tetrafluoroethylene (TFE) monomer, polyvinylidene fluoride (PVDF) monomer and hexafluoropropylene (HFP) monomer for forming an ultrafiltration or microfiltration membrane, method of forming said membranes, and to the ultrafiltration or microfiltration membranes themselves. The invention also relates to a method of forming a polymeric ultrafiltration or microfiltration membrane including preparing a leachant resistant membrane dope which incorporates a leachable pore forming agent, casting a membrane from the dope and leaching the pore forming agent from the membrane. The invention also relates to a method of preparing a polymeric ultrafiltration or microfiltration membrane of improved structure including the step of adding a nucleating agent to the membrane dope before casting.

Abstract: Air laden with biodegradable volatile organic compounds is passed sequentially through a first filter bed containing a biologically inert filter media, a second filter bed containing a biologically active filter media, and a third filter bed containing a biologically inert filter media. Water is present in the biologically active filter media and the biologically inert filter media. Water that drains from the second filter bed is collected and supplied to the first filter bed. Water that drains from the third filter bed is collected and recirculated to the third filter bed.

Abstract: The present invention includes a process for separating cells from a liquid media, a method of fermentation using such a separation, and an apparatus for conducting such a separation or for facilitating a cellular reaction. In broadest terms, the separation process of the present invention is a process for separating cells from a liquid containing cells. The process comprises the steps of: (a) bringing the liquid containing the cells into contact with one or more microbial polysaccharide and a fibrous material so as to adsorb the cells onto the fibrous material; and (b) separating the liquid from the fibrous material so as to remove the cells from the liquid. The process of the present invention may be used to remove cells from any liquid, but such liquids typically will be aqueous solutions, such as growth media, biological fluids, diagnostic samples, aqueous test samples, etc.

Abstract: In a vector purification device, bacteria containing vectors are cultured in a culture medium in a culture tank, the culture medium is concentrated by filtration with a first TFF film, and the concentrated culture medium is replaced with a buffer solution by filtering a mixture of the culture medium and the buffer solution by the TFF film while supplying the buffer solution from a buffer tank. The bacteria subjected to bacteriolysis by an alkali solution supplied from an alkali tank are passed through a second TFF film to remove undesired substances. Since the TFF films are used in place of a centrifugal separator for concentration or the like, a series of operations can be carried out continuously in a closed system. Further, a crudely purified vector solution is treated with a surfactant to separate vector DNAs from endotoxins as separate layers, and the endotoxins are removed.

Abstract: The invention concerns a cell culture chamber having at least two planar filtering membranes with different cut-off, delimited by an envelope with axis of symmetry formed by an outer lateral wall, two end walls and inlet ports and outlet ports for dynamic liquid media, and a bioreactor containing the culture chamber for extracorporeal culture of animal cells.

Abstract: After various sugar nucleotide solutions and glycosyltransferases (or primers) have been mixed, they are introduced into a reaction tank (column) with primers (or glycosyltransferases) immobilized thereon. Then solutions coming out of the reaction tank are led to an ultrafiltration column. The oligosaccharide synthesizer according to the present invention is equipped with a flow path for ensuring that glycosyltransferases or primers separated by the ultrafiltration column are returned into a container for storing each solution in a sample injector.

Abstract: The invention features modular cell culturing devices including one or more flat-plate modules, and is based on the discovery that if the flows of liquid medium and oxygenated fluid are separated by a gas-permeable, liquid-impermeable membrane, and the cells are grown attached to the liquid side of the membrane, the device can be used to culture cells with transport of oxygen through the membrane (i.e., direct oxygenation), without regard for the flow rate of the liquid medium passing through the device. The new flow-through cell culturing devices can thus be used to culture cells, e.g., hepatocytes, with high levels of cell function in organ, e.g., liver, assist systems, for production of cells, for production of cell-derived products, such as, proteins or viruses, or for systems to treat biological liquids to remove toxins, such as, ammonia, or add cell-synthesized products, or both.

Abstract: A device for the preparation of thrombin or other blood products from whole blood, plasma, or a plasma fraction comprising: a reaction chamber having an inlet port and an outlet port; a filter located adjacent to the outlet port; an activating agent located inside the reaction chamber, the activating agent providing a surface for reaction; and an absorbent located inside the reaction chamber.

Abstract: Device, method and kit for carrying out biochemical reactions, in particular for cell-free polypeptide biosynthesis composed of an external housing which encloses an inner housing with incorporated wells and a supply chamber, wherein the wells of the inner housing each contain a producing system during the biochemical reaction, the supply chamber contains a supply liquid during the biochemical reaction and the wells of the inner housing and the supply chamber are separated by a semipermeable membrane characterized in that the inner housing has at least two wells the lower ends of which are closed by a semipermeable membrane and the upper ends of which protrude from the supply liquid contained in the supply chamber, and is connected to means for moving and incubating the producing systems and to the supply liquid.

Abstract: A porous container for controllably releasing various substances into surrounding fluid environments includes a porous material having pores sized and configured to allow the substances contained within the container to pass through the pores at a rate of no more than about 0.5 g/day/cm2. In a particular embodiment, the porous container is adapted to controllably release microorganisms into surrounding fluid environments, which microorganisms may be cultured within the porous container. The porous container may also be utilized with a variety of dispensing vessels to obtain desired controlled release characteristics.

Abstract: Disclosed herein is a method of replenishing cells damaged by treatment for cancer. The method comprises removing blood cells from a primate mammal, controllably expanding the cells at a rate which produces an expansion factor of at least 700% within 7 days while maintaining their three-dimensional geometry and their cell-to-cell support and cell-to-cell geometry, removing any toxic materials from the blood cells, and reintroducing the cells into the primate mammal within a time period sufficient to prevent the primate mammal from suffering decreased mobility due to loss of hematopoietic or other cells.

Abstract: The present invention is directed to materials and reactor systems having humidity and/or gas control. The material may have high oxygen permeability and/or low water vapor permeability. In some cases, the material may have sufficient permeance and/or permeability to allow cell culture to occur in a chip or other reactor system using the material. In certain embodiments, the material may be positioned adjacent to or abut a reaction site within a chip or reactor; in other embodiments, the material may be positioned such that it is in fluidic communication with the reaction site. The material may also be porous and/or transparent in some cases. In one set of embodiments, the material include a polymer that is branched, and/or contains bulky side groups that allow the polymer to have a more open structure. In some cases, the material may include two or more layers.

Abstract: A disclosure is made of various apparatus and methods for culturing and preserving cells and tissue in ways that minimize contamination potential, direct cells to reside in desired areas, allow uniform cell distribution during seeding, provide optimal growth conditions by controlling the amount of medium residing in proximity of cells, allow desired compounds and molecules to reside in proximity of the cells, allow co-culture, provide for efficient scale up, allow a desired shape of tissue to be created while retaining a closed system, and allow cryopreservation and reconstitution of cell and tissue while retaining a closed system. The apparatus and methods can be combined to prevent the need to remove the tissue from the enclosure at any point during the sterilization, seeding, culturing, cryopreservation, shipping, or restoration process. Also disclosed is an apparatus and method of pipette interface with a container in a manner that blocks contaminants from entering the container.