Abstract: This invention relates to cell-independent processes which mimic cellular bioremodelling and produce organised biomaterials which have mechanical properties and viable cell densities suitable for use as functional tissue implants. The biomaterials are produced by providing a gel comprising a matrix of scaffold fibres of and an interstitial fluid; and plastically compacting the gel to produce the biomaterial. The biomaterials may comprise 3D structures such as layering, alignment and meso-scale zonal heterogeneities of cells and matrix which mimic native tissue structure. Biomaterials with biomimetic structure as described herein may be useful in a range of therapeutic applications.

Abstract: The present invention relates to compositions and methods for preventing oxidative injury to a cell. The compositions comprise a lipid formulation and a recombinant nucleic acid encoding an extracellular superoxide dismutase (EC-SOD), which upon transfection of a target cell is expressed by the cell and acts as an enzymatic antioxidant. The invention also provides for an isolated organ treated with the claimed composition or method.

Abstract: Methods of producing synthetic corneas are disclosed which are differentiated from retinal stem cells (rSC) derived from parthenogenetically activated human oocytes, including that such synthetic corneas are produced in the absence of a 3-D scaffold. Isolated synthetic corneas, produced by the disclosed methods, are also described.

Abstract: A cultured periodontal ligament cell sheet is produced by a process comprising culturing cells on a cell culture support composed of a base material whose surface is coated with a temperature-responsive polymer having an upper limit or lower limit critical dissolution temperature in water of 0 to 80° C. under specified conditions, (1) regulating the temperature of a culture fluid to the upper limit critical dissolution temperature or higher or to the lower limit critical temperature or lower, (2) allowing a cultured periodontal ligament cell sheet resulting from the culturing to adhere to a carrier and (3) detaching the sheet intact together with the carrier. This cultured periodontal ligament cell sheet has a syndesmotic microstructure, exhibits extremely high bioadherence to the dental root surface and realizes high density transplantation of target cells and positive reconstruction of periodontal tissues.

Abstract: A bioscaffolding can be formed from a mixture of gel components of different gelation systems. For example, a bioscaffolding can be formed by mixing at least two different components of at least two different two-component gelation systems to form a first mixture and by mixing at least two different components (other than the components that make up the first mixture) of the at least two different two-component gelation systems to form a second mixture. A treatment agent, such as a cell type or a growth factor, can be added to either the first mixture or the second mixture. In some embodiments, the treatment agent is not added to either mixture. The first mixture can be co-injected with the second mixture to form a bioscaffolding in an infarct region for treatment thereof.

Abstract: An object of the present invention is to provide an adhesion-preventing material which is capable of effectively preventing the surfaces of organs from adhesion, and which can be absorbed in the body with high safety and produced with ease and has high practical utility, as well as to a process for preventing adhesion by using the adhesion-preventing material. The present invention provides (1) an adhesion-preventing material comprising a crosslinked water absorbent poly-y-glutamic acid as an effective ingredient; (2) the adhesion-preventing material described above, wherein the crosslinked water absorbent poly-y-glutamic acid is in the form of powder having a water absorption coefficient in the range of 800-2000; (3) a process for preventing organ from adhesion, comprising a step of bringing the adhesion-preventing material described above into contact with the surface of a local organ; and (4) the process for preventing adhesion described above, wherein the surface of the local organ is in wet state.

Abstract: Tissue preservation media comprising a polyoxyethylene/polyoxypropylene copolymer are used to preserve tissues and organs for storage and transplantation. In particular embodiments, the polyoxyethylene/polyoxypropylene copolymer is Pluronic F68 or FLOCOR (CRL-5861; purified poloxamer 188), and the medium is Steinhardt medium, polyoxyethylene/polyoxypropylene copolymer-supplemented Optisol GS or polyoxyethylene/polyoxypropylene copolymer-supplemented ViaSpan.

Abstract: A method for processing a biological tissue specimen using either manual or automated processing. The tissue specimen is sequentially contacted with components of a reagent system in the presence of increased temperature and/or agitation and in the absence of exogenous microwave radiation to facilitate processing in less than one working day.

Abstract: Methods and compositions of CD45-positive hematopoietic cells and hemangioblasts derived b)y culturing human or non-human primate embryonic stem cells under serum-free conditions in cytokine-rich differentiation medium containing fibroblast growth factor or a related growth factor.

Abstract: The present invention relates to a process for fabricating molded structures having a radially organized pore structure. The molded structures are formed using a spinning-induced sedimentation technique such that sedimentation of a multi-component liquid suspension produces the internal geometry and porosity of the structure. The porous molded structures of the invention can be used in a number of applications including tissue and organ engineering, dialysis and phase separation membranes and water and liquid waste purification systems.

Abstract: A method of treating a biological tissue that enables dry storage of said tissue is disclosed. In one embodiment, the method comprises contacting the biological tissue with a non-aqueous treatment solution comprising a polyhydric alcohol and a C1-C3 alcohol and removing a portion of the treatment solution from the solution-treated biological tissue. Also disclosed is biological tissue prepared using the above process and prosthetic devices made with such tissue.

Abstract: The present invention relates to a delipidation method employing a solvent system useful for extracting lipids from cancer cells, thereby creating a modified cancer cell particle. Upon delipidation of the cancer cells, a portion of the cancer cell antigens remain intact. These exposed antigens, or epitopes, foster and promote antibody production. The resulting modified cancer cell particle, or portions of the cancer cell, initiate a positive immunogenic response when administered to an animal or human and help to treat, prevent or delay the onset of cancer. The present invention provides autologous and heterologous vaccine compositions comprising the modified cancer cell with a pharmaceutically acceptable carrier. The present invention provides method of administering these vaccines to treat, prevent or delay the onset of cancer.

Abstract: The invention relates generally to devices for organ replacement and regenerative medicine providing a biocompatible and biodegradable scaffold capable of integral cell growth that forms a hollow chamber, as well as methods for producing such devices by melt-blowing a web of flexible, polymer fibers in the presence of a porogen to produce a seamless, three-dimensional shape.

Abstract: An object of the invention is to provide a tissue preservation solution that has excellent tissue-preserving ability and is useful in the field of medicine, medical experiment, etc. Thus, the invention relates to a tissue preservation solution including oxygen nanobubbles.

Abstract: Methods and devices are provided that improve the function of organ support devices, and also provided are improved methods of treating conditions associated with hemodynamic instability.

Abstract: The invention provides methodologies and apparatus for producing acellular soft-tissue implants, both in small quantities and in commercializable quantities. Such soft-tissue implants include vascular graft substitutes. An acellular graft is produced by subjecting the tissue sample to an induced pressure mediated flow of an extracting solution, followed by inducing a pressure mediated flow of a treating solution, then washing the treated tissue to produce the acellular graft. The acellular grafts produced are uniform and non-immunogenic. The inventive method allows for the production of multiple decellularized soft tissue implants, where processing time is significantly less than prior art processes and the number of implants produced per day is increased over prior art processes. In clinical use, the decellularized grafts produced exhibit significantly improved in long-term durability and function.

Abstract: A method for preparing placenta membrane tissue grafts for medical use, includes obtaining a placenta from a subject, cleaning the placenta, separating the chorion tissue from the amniotic membrane, mounting a selected layer of either the chorion tissue or the amniotic membrane onto a drying fixture, dehydrating the selected layer on the drying fixture, and cutting the selected layer into a plurality of tissue grafts. Preferably, the drying fixture includes grooves or raised edges that define the outer contours of each desired tissue graft, after they are cut, and further includes raised or indented logos that emboss the middle area of the tissue grafts during dehydration and that enables an end user to distinguish the top from the bottom side of the graft. The grafts are comprised of single layers of amnion or chorion, multiple layers of amnion or chorion, or multiple layers of a combination of amnion and chorion.

Abstract: The invention relates to the use of haematopoietic growth factors, in particular erythropoietin (EPO) and thrombopoietin (TPO), or derivatives, analogues or parts thereof, for promoting structural tissue regeneration.

Abstract: A method of manufacturing a tissue matrix for implantation into a patient is disclosed. The method sets forth collecting embryonic stem cells from a placenta which has been treated to remove residual cord blood and seeding the collected stem cells onto or into a tissue matrix. The seeded tissue matrix is then implanted on or into a patient. The seeded tissue matrix made by the method of the present invention is also disclosed.

Abstract: The invention is directed to a method and composition of matter for enhancing the staining of tissue or features of interest therein by applying an effective amount of a bile salt in combination with a special stain to a tissue suspected of harboring a microorganism or other feature of diagnostic interest. The particular invention herein is directed to detecting H. pylori, the microorganism responsible for gastrointestinal ulcers. The composition of matter is a sensitizer for Alcian Yellow stain.

Abstract: Methods of generating, and isolating adult stem cells and utilizing such cells and/or embryonic stem cells in generating tissue of a specific function and micro-architecture are provided.

Abstract: Monoclonal antibodies are provided which bind to heat-treated proteins of meats. The antibodies are useful in detecting the presence of an exogenous meat in a cooked or raw meat sample. Furthermore, the antibodies can be used to determine the end point temperature of a meat sample.

Abstract: A method for isolating an inner cell mass comprising the steps of immobilizing a blastocyst stage embryo having a zona pellucida, trophectoderm, and inner cell mass, creating an aperture in the blastocyst stage embryo by laser ablation, and removing the inner cell mass from the blastocyst stage embryo through the aperture. The aperture is through the zona pellucida and the trophectoderm. The laser ablation is acheived using a non-contact diode laser. The inner cell mass removed from the blastocyst stage embryo is used to establish human Embryonic Stem Cell lines.

Abstract: The present invention discloses pharmaceutical compositions for the treatment of skeletal dysplasias, comprising as an active ingredient at least one natriuretic peptide. Unexpectedly, it has been shown that the natriuretic factors may be effective for bone elongation in situations of abnormal bone growth especially for achondroplasia. The effects of the natriuretic peptide may be further enhanced by prolonging its residence time or action at the target site.

Abstract: Methods and compositions for reducing, preventing or reversing organ damage and/or enhancing organ preservation by administration of a peroxisome-proliferator activated receptor-alpha (PPAR?) agonist to the organ.

Abstract: Living cellular material may be preserved by incubating the cellular material in a culture medium containing at least one sugar, particularly for at least three hours, and then subjecting the cellular material to a preservation protocol, such as freezing, vitrification, freeze-drying and desiccation.

Abstract: Methods and compositions for stabilizing tissues, cells, and cell components such that desired antigenic sites, light scatter properties and cellular morphology are preserved for a useful period of time. The stabilizing solution includes glycine, lysine and formaldehyde.

Abstract: The present invention provides a method of extracting and recovering embryonic-like stem cells, including, but not limited to pluripotent or multipotent stem cells, from an exsanguinated human placenta. A placenta is treated to remove residual umbilical cord blood by perfusing an exsanguinated placenta, preferably with an anticoagulant solution, to flush out residual cells. The residual cells and perfusion liquid from the exsanguinated placenta are collected, and the embryonic-like stem cells are separated from the residual cells and perfusion liquid. The invention also provides a method of utilizing the isolated and perfused placenta as a bioreactor in which to propagate endogenous cells, including, but not limited to, embryonic-like stem cells. The invention also provides methods for propagation of exogenous cells in a placental bioreactor and collecting the propagated exogenous cells and bioactive molecules therefrom.

Abstract: An evaluation and preservation solution for human and animal organs, tissues and parts thereof is described, wherein it comprises serum albumin at a concentration of 55-105 g/L, a scavenger and coating compound, preferably dextran compounds and derivatives thereof having essentially the same structure at a concentration of 1-55 g/L weight, and a physiological serum concentration of salts and nutrients in a physiologically acceptable medium.

Abstract: The method employs a piece of skin of area greater than 1 cm2 cultured under conditions that maintain its viability and substantially normal structure for sufficient time for topically applied test material to potentially exert an effect. The skin includes the majority of the epidermal layer plus an appropriate amount of supporting dermis. The surface of the skin is partitioned by a surface barrier film into a pattern of isolated regions to which different test materials can be subsequently topically applied in such a way that they do not significantly migrate around the edges of the skin into the culture medium. The effect of the topically applied material on the skin is determined using an appropriate method. In a variant of the method, the temperature of the culture system is maintained at or below about 30° C. to improve the skins viability and maintain a substantially normal structure. The invention encompasses effective topically applied materials identified using the methods described herein.

Abstract: Artificial dermis (1) obtained from plasma with platelets (2) and human fibroblasts. The plasma with platelets (2) is obtained from the fractionating of total blood (4) from the patient (8) by light centrifugation, and the human fibroblasts (3) from a skin biopsy (5). Clotting is obtained by adding calcium. This artificial dermis (1) provides for the rapid growth of the keratinocytes (6) seeded on its surface to build an artificial skin (7) which can easily be transplanted. Large areas of artificial dermis (1) are obtained from a small skin biopsy (5) and minimal quantities of plasma with platelets (2), which being enriched with cytokines and platelet growth factors, strengthens the proliferation of the cells seeded, both inside and on the surface. The artificial skin (7) obtained can be used to treat major burn treatments, chronic skin ulcers, etc., or be used, by employing genetically altered cells, as a vehicle for gene therapy.

Abstract: The present invention features methods for transplanting organs, tissues and individual cells. Also featured are methods for maintaining cells in vitro and for enhancing survival and/or function of cells following transplantation. The methods include the administration of carbon monoxide in an amount sufficient to enhance cell survival and/or function.

Abstract: The present invention is directed to nanoparticle compositions for maintaining organ, tissue and cellular viability when such are separated from normal physiological supports. Compositions containing the nanoparticle compositions and methods of preserving organs such as kidneys, both in vivo and ex vivo, are also disclosed.

Abstract: Primate embryoid bodies are formed from primate ES cells. The ES cells form clumps. One then removes the clumps, as clumps, and permits incubation under non-adherent conditions. The development of embryoid bodies from primate ES cells is dependent on maintaining the aggregation of cells, as individualized cells will rapidly die.

Abstract: The present invention provides a method of cryopreserving sperm that have been selected for a specific characteristic. In a preferred embodiment, the method is employed to freeze sex-selected sperm. Although the cryopreservation method of the invention can be used to freeze sperm selected by any number of selection methods, selection using flow cytometry is preferred. The present invention also provides a frozen sperm sample that has been selected for a particular characteristic, such as sex-type. In preferred embodiments, the frozen sperm sample includes mammalian sperm, such as, for example, human, bovine, equine, porcine, ovine, elk, or bison sperm. The frozen selected sperm sample can be used in a variety of applications. In particular, the sample can be thawed and used for fertilization. Accordingly, the invention also includes a method of using the frozen selected sperm sample for artificial insemination or in vitro fertilization.

Abstract: The present invention provides both a method and means for regulating I?B? degradation, NF?B activity, and NF?B-dependent gene expression within living cells, tissues, and organs in-situ. The selective regulation is performed using native PR-39 peptide or one of its shorter-length homologs, for interaction with such I?B? and proteasomes as are present in the cytoplasm of viable cells. The result of PR-39 peptide interaction with I?B? is a selective alteration in the intracellular proteolytic activity of proteasomes, which in turn, causes a reduction of I?B?, a decrease of NF?B activity, and a down-regulation of NF?B-dependent gene expression.

Abstract: The present invention provides methods and pharmaceutical compositions of the human glycoprotein fetuin, or ?2-HS glycoprotein, or fragments thereof to mitigate tissue damage associated with ischemia, particularly in stroke or in myocardial infarction.

Abstract: The invention relates to a preserved, deantigenated tissue matrix of an animal or human hollow organ, e.g. of a blood vessel, of the ureter or urinary bladder, which matrix is autologous, allogenic or xenogenic with respect to a recipient and whose biomechanical properties are not or only slightly impaired by such preservation, which does not include any infectious particles from the donor and is excellently suited for coating with recipient endothelial, epithelial, fibroblast, or muscle cells in order to produce autologous grafts for said recipient. The invention is also directed to a method of producing said tissue matrix and to the use thereof, as well as to the autologous graft produced therefrom, and to the production and use thereof.

Abstract: The invention relates to a method for preserving an organ or tissue comprising contacting the organ or tissue with an effective amount of a kallikrein inhibitor and solutions useful for such a method. Also provided is a method for reducing reperfusion injury of an organ during surgery and/or following removal of the organ from a subject comprising placing the organ in an organ storage and preservative solution, wherein the solution comprises a kallikrein inhibitor.

Abstract: A method of preparing a sample of muscle tissue and of assaying the prepared sample to determine the presence of prions in the sample is disclosed. The muscle tissue is homogenized and mixed with a complexing agent which forms a complex with a higher specific gravity than PrPSc, the complexing agent or other components of the homogenate. Gravity is then used (e.g. ultra centrifugation) to concentrate the complex and the concentrate is assayed to detect prions. The muscle tissue is preferably extracted from a muscle or group of muscles such as hind limb muscle which have a higher or more preferably the highest concentration of prions as compared to other muscle in the mammal.

Abstract: The disclosure provides methods and systems for tissue engineering including an apparatus and methods for the growth, maintenance, and use of robust tissue sheets using tissue manipulation devices. The tissue manipulation devices provide a method of anchoring the tissue sheets to the cell culture substrate to promote prolonged maturation and subsequent increased mechanical strength. The tissue manipulation devices also provide a technique to facilitate removal of the sheet from the culture container and subsequent production steps to assemble more complex three dimensional organs from the robust sheet. The tissue manipulation devices also facilitate automated handling of the sheets in the assembly processes. The disclosure provides methods and composition derived from robust human sheets to build tissue engineered blood vessels, heart valves, stents, and endarterectomy patches and the like.

Abstract: A process for hydrolyzing products with enzymatic activity remaining in peptone solutions after mucosa hydrolysis is provided along with a process for preserving mucosa tissue. Broadly, the processes are carried out by hydrolyzing mucosa tissue according to conventional heparin manufacturing processes wherein an excess quantity of proteolytic enzymes is used. The resulting peptone solution is then contacted with proteins or protein-containing materials in order to hydrolyze the proteins. In another embodiment, mucosa tissue is preserved by mixing it with a preserving agent selected from the group consisting of hydrogen peroxide and phosphoric acid. The product preserved by hydrogen peroxide is low in ash, stable for at least a week, and has a reduced odor.

Abstract: The present invention provides a non-mouse, including human, pluripotential embryonic stem cell which can: (a) be maintained on feeder layers for at least 20 passages; and (b) give rise to embryoid bodies and multiple differentiated cell phenotypes in monolayer culture. The invention further provides a method of making a pluripotential embryonic stem cell comprising culturing germ cells and germ cell progenitors in a composition comprising a growth enhancing amount of basic fibroblast growth factor, leukemia inhibitory factor, membrane associated steel factor, and soluble steel factor to primordial germ cells under cell growth conditions, thereby making a pluripotential embryonic stem cell. Also provided are compositions useful to produce the pluripotent embryonic stem cells and methods of screening associated with the method of making the embryonic stem cell.

Abstract: The present invention provides an improved kit for the collection of umbilical cord blood and placental blood, and collection of the placenta from which such blood is obtained. The kit improves upon existing kits in that it provides for improved user convenience, provides for the collection of the placenta itself, and better maintains the internal temperature of the container in which the collected blood and placenta are shipped to a blood bank or registry. The invention further provides a method of collecting umbilical cord and placental blood, and the placenta from which such blood is obtained, comprising using the kit described herein.

Abstract: A solution for preservation and/or storage of a cell or tissue is described. This simple nonaqueous composition can have 10% polyethylene glycol and 90% methanol. It can be used at room temperature. Special chemicals, equipment, and techniques are not needed. Tissue preserved with and/or stored in the solution can be processed for cytology or histology, including chemical staining and/or antibody binding, by a variety of methods; antigen, DNA, and RNA can be extracted from processed tissue in high yield and with minimal or no degradation. Advantages of the solution include: economy and safety, easy access to archival material, and compatibility with both cellular and genetic analyses. The use and manufacture of the solution are also described.

Abstract: A method is described for generating a clinically significant volume of neural progenitor cells from whole bone marrow. A mass of bone marrow cells may be grown in a culture supplemented with fibroblast growth factor-2 (FGF-2) and epidermal growth factor (EGF). Further methods of the present invention are directed to utilizing the neural progenitor cells cultured in this fashion in the treatment of various neuropathological conditions, and in targeting delivery of cells transfected with a particular gene to diseased or damaged tissue.

Abstract: This invention relates to the sterilization and preservation of tissue for storage. More specifically, the invention relates to a method of using a solution to form a preserved tissue. The solution includes a radical scavenger at a concentration believed to reduce the damage to the tissue that could otherwise occur during sterilization with ionizing radiation.

Abstract: This invention discloses a substantially pure population of human Müllerian duct-derived epithelial cells and methods of isolating and culturing the Müllerian duct-derived epithelial cells. By carefully manipulating the microenvironment in which the Müllerian duct-derived epithelial cells are grown, multiple passages are attainable wherein the Müllerian duct-derived epithelial cells are capable of becoming uterine, cervical, vaginal, and oviductal cells. In addition, several uses of human Müllerian duct-derived epithelial cells and cells differentiating therefrom are disclosed herein.

Abstract: The present invention provides a preparation of undifferentiated embryonic stem (ES) cells sustainable for a prolonged period in an undifferentiated state which will undergo stem cell renewal or somatic differentiation. Preferably the cells are capable of somatic differentiation in vitro and are inclined to differentiate away from an extraembryonic lineage. The present invention also provides method of culturing embryonic stem (ES) cells to improve stem cell maintenance and persistence in culture. The method also provides a culture of ES cells prepared by the method as well as differentiated cells derived from the embryonic cells resulting from directed differentiation procedures provided by the present invention.

Abstract: Methods of fixing and processing tissue and samples on a membrane by using ultrasound radiation as a part of the method are presented. Ultrasound of a frequency in the range of 0.1–50 MHz is used and the sample or tissue receives 0.1–200 W/cm2 of ultrasound intensity. The use of ultrasound allows much shorter times in the methods. Also presented are apparati comprising transducers of one or of multiple heads for producing the ultrasound radiation and further comprising a central processing unit and optionally comprising one or more sensors. Sensors can include those to measure and monitor ultrasound and temperature. This monitoring system allows one to achieve accurate and optimum tissue fixation and processing without overfixation and tissue damage. The system also allows the performance of antigen-antibody reactions or nucleic acid hybridizations to be completed in a very short time while being highly specific and with a very low or no background.