Abstract: The invention provides a vaccine composition in the form of a kit, comprising a first container containing an antigenic preparation comprising influenza antigen or antigens; and a second container containing an effective adjuvant amount of a chitosan which is a deacetylated chitin which is at least 80% deacetylated. The antigenic preparation in the first container preferably comprises haemagglutinin and neuraminidase influenza antigens.

Abstract: This invention provides means and methods of inactivating viruses and other organisms in cell-containing or biopolymer-containing compositions without significant alteration of proteins or other biopolymers by contacting such compositions with selective ethyleneimine oligomer inactivating agents, such as the trimer or tetramer.

Abstract: The present invention is concerned with Infectious bursitis virus (IBDV) vaccines containing IBDV antigen material which is derived from a mammalian cell line infected with IBDV.

Abstract: The means and methods of inactivating viruses and other organisms in cell-containing or biopolymer-containing compositions comprising contacting such compositions with selective ethyleneimine oligomer inactivating agents are disclosed. The means and methods of this invention selectively modify functional nucleic acids in a cell-containing or biopolymer-containing composition using selective ethyleneimine oligomer inactivating agents, such as the trimer or tetramer without significant alteration of proteins or other biopolymers.

Abstract: The present invention provides a vaccine which protects pigs from a virus and/or an infectious agent causing a porcine respiratory and reproductive disease, a method of protecting a pig from a disease caused by a virus and/or an infectious agent which causes a respiratory and reproductive disease, a method of producing a vaccine against a virus and/or an infectious agent causing a porcine reproductive and respiratory disease, and a biologically pure sample of a virus and/or infectious agent associated with a porcine respiratory and reproductive disease, particularly the Iowa strain of porcine reproductive and respiratory syndrome virus (PRRSV), and an isolated polynucleotide which is at least 90% homologous with a polynucleotide obtained from the genome of a virus and/or infectious agent which causes a porcine respiratory and reproductive disease.

Abstract: The invention includes a vaccine and sera for treatment of Mystery Swine Disease (MSD), a method for producing the vaccine, methods for diagnosis of MSD, a viral agent that will mimic "mystery swine disease" and antibodies to the viral agent useful in diagnosis and treatment of MSD. The serum contains mammalian antibodies which are effective in treating MSD.

Abstract: The present invention provides, inter alia, recombinant chimeric nucleic acids encoding a Gag-fs-fusion partner fusion protein; a pseudovirion comprising a retroviral Gag protein and a fusion partner, wherein the fusion partner is present in a Gag-fs-fusion partner fusion protein; an immunogenic composition comprising a pseudovirion; a Gag-fs-fusion partner fusion protein; and a method of making the pseudovirions of the present invention.

Abstract: Methods and compositions for selectively modifying nucleic acid molecules in biological compositions, including contacting the composition with an inactivating agent having the formula: ##STR1## where each of R.sub.1, R.sub.2, R.sub.3, R.sub.4, R.sub.6, R.sub.7, and R.sub.8 is, independently, H or a monovalent hydrocarbon moiety containing between 1 and 4 carbon atoms, inclusive, provided that R.sub.1, R.sub.2, R.sub.3, R.sub.4, R.sub.6, R.sub.7, and R.sub.8 cannot all be H; R.sub.5 is a divalent hydrocarbon moiety containing between 2 and 4 carbon atoms, inclusive; X is a pharmaceutically acceptable counter-ion; and n is an integer between 1 and 10, inclusive are disclosed.

Abstract: A method is disclosed for using tubular material to replace a semilunar heart valve (i.e., an aortic or pulmonary valve). To create such a replacement valve, the native valve cusps are removed from inside an aorta or pulmonary artery, and the inlet end of a tubular segment is sutured to the valve annulus. The outlet (distal) end of the tube is either "tacked" at three points distally, or sutured longitudinally along three lines; either method will allow the flaps of tissue between the suture lines to function as movable cusps. This approach generates flow patterns that reduce turbulence and closely duplicate the flow patterns of native semilunar valves. An article of manufacture is also disclosed, including a sterile biocompatible synthetic material which has been manufactured in tubular form, by methods such as extrusion or coating a cylindrical molding device, to avoid a need for a suture line or other seam to convert a flat sheet of material into a tubular shape.

Abstract: This invention is directed to a method for inactivating pathogenic contaminants, such as viruses, bacteria, parasites and leukocytes, frequently found in whole blood or blood components, such as red blood cells or plasma, which comprises treating whole blood or blood components with an amphiphilic phenothiazin-5-ium dye and light. Preferred amphiphilic phenothiazin-5-ium dyes are those having the formula ##STR1## wherein each of R.sub.1, R.sub.1 ', R.sub.2, and R.sub.2 ' is independently selected from the group consisting of an alkyl group, an alkenyl group, an alkynyl group, a nitrile, an aralkyl group, a hydroxy group, an alkoxy group, an amine group, and a hydrogen atom, each of R.sub.3, R.sub.3 ', R.sub.4, R.sub.4 ', R.sub.5 and R.sub.

Abstract: Psoralen compounds are synthesized which have substitutions on the 4, 4', 5', and 8 positions of the psoralen, which permit enhanced binding to nucleic acid of pathogens. Higher psoralen binding levels and lower mutagenicity are described, resulting in safer, more efficient, and reliable inactivation of pathogens in blood products. The invention contemplates inactivation methods using the new psoralens which do not compromise the function of blood products for transfusion.

Abstract: Psoralen compounds are synthesized which have substitutions on the 4, 4', 5', and 8 positions of the psoralen, which permit enhanced binding to nucleic acid of pathogens. Higher psoralen binding levels and lower mutagenicity are described, resulting in safer, more efficient, and reliable inactivation of pathogens in blood products. The invention contemplates inactivation methods using the new psoralens which do not compromise the function of blood products for transfusion. In particular, 4' and 5' primary aminoalkyl psoralens are photoactivated in platelet preparations to inactivate pathogens.

Abstract: Psoralen compounds are synthesized which have substitutions on the 4, 4', 5', and 8 positions of the psoralen, which permit enhanced binding to nucleic add of pathogens. Higher psoralen binding levels and lower mutagenicity are described, resulting in safer, more efficient, and reliable inactivation of pathogens in blood products. The invention contemplates inactivation methods using the new psoralens which do not compromise the function of blood products for transfusion. In particular compounds with primary aminoalkyl substitutions on the 4' or 5' positions of psoralen are used to inactivate pathogens in blood products such as platelets.

Abstract: This invention is directed toward a new type of herpesvirus particle (e.g., HSV-1), herein designated pre-viral DNA replication enveloped particles (PREPS), and methods of preparing said particles. These particles are non-infectious and can be prepared reliably to a high ratio of HSV-1 PREPS to infectious virus of at least 10.sup.7 :1. PREPS can be produced under conditions wherein viral DNA replication is blocked through the use of suitable drugs (e.g., acyclovir [ACV]; cytosine-.beta.-D-arabinofuranoside [ara C]) or by using an HSV mutant defective in viral DNA synthesis.

Abstract: Psoralen compound compositions are synthesized which have substitutions on the 4, 4', 5', and 8 positions of the psoralen, which yet permit their binding to nucleic acid of pathogens. Reaction conditions that photoactivate these bound psoralens result in covalent crosslinking to nucleic acid, thereby inactivating the pathogen. Higher psoralen binding levels and lower mutagenicity results in safer, more efficient, and reliable inactivation of pathogens. In addition to the psoralen compositions, the invention contemplates inactivating methods using the new psoralens.

Abstract: The present invention is concerned with an Influenza surface antigen vaccine obtainable by production from Influenza Viruses propagated on animal cell culture and having a host cell DNA content equal to or less than 25 pg per dose. The present invention is also concerned with a method for the preparation of surface antigen proteins from Influenza Viruses propagated on an animal cell culture comprising the subsequent steps of:a. treatment of the whole virus containing fluid obtained from the cell culture with a DNA digesting enzyme, andb. adding a cationic detergent,followed by isolation of the surface antigen proteins.

Abstract: Disclosed is a method for the inhibition of binding of a ligand to an RNA, the inhibition being mediated by a small organic molecule that binds to the RNA, thereby inhibiting ligand binding. A preferred class of small organic molecules are compounds exemplified by 2,5-Bis?4-(2-N,N-dimethylaminopropylamidino)phenyl!furan.

Abstract: An efficient industrial method, by incubation at extreme (alkaline) pH in a stabilized medium, of inactivating viruses in general (with or without a lipid envelope) in media containing proteins for therapeutic use, without denaturing or significant loss of biological activity.

Abstract: The present invention is concerned with European strains of the Porcine Reproductive Respiratory Syndrome (PRRS) virus, having as a unique feature that they are non-infectious to macrophages, and to methods for the production of such strains. The invention also provides vaccines for the protection of pigs against PRRS, based on these strains, as well as methods for the production of such vaccines.

Abstract: A process for the preparation of factor IX from a biological source by chromatography involves prior treatment with ammonium sulfate as a protein precipitant at a concentration of from 1.5-2.3 mol/l.

Abstract: An Infectious Bursal Disease Virus of the Delaware Variant E type having the characteristics of being able to grow on both VERO cells and CEF cells, reacting with monoclonal antibody BK9 produced by the cell line having ATCC deposit number HB-10157, not causing bursal atrophy after vaccination and not spreading to birds in physical proximity to immunized birds, said virus being identified as Delaware Variant E 89-03.

Abstract: A method for preventing canine coronavirus in dogs is disclosed which comprises administering to a dog a live or inactivated vaccine prepared from transmissible gastroenteritis virus of swine (a TGEV vaccine). An inactivated vaccine composition for use in such a method and a process for the manufacture of the inactivated vaccine composition are described.

Abstract: The present invention concerns a method for inactivating a virus for use in e.g. a vaccine, by treating the virus with an ethyleneimine at a pH of less than 7.0, and methods of treatment with the inactivated virus.

Abstract: The present invention provides vaccine compositions of attenuated respiratory syncytial virus (RSV). More particularly, the attenuated virus may be a derivative of RSV which has been incompletely attenuated by cold-passage or introduction of mutations which produce virus having a temperature sensitive (ts) or cold adapted (ca) phenotype. The invention also provides methods for stimulating the immune system of an individual to induce protection against respiratory syncytial virus by administration of attenuated RSV. The invention also provides pure cultures of attenuated RS virus, wherein the virus has been more completely attenuated by the further derivatization of previously identified incompletely attenuated ts or cp mutants.

Abstract: The invention involves the use of supercritical or near-critical fluids for the inactivation of viruses, especially enveloped or lipid protected viruses, and nonenveloped, protein encased viruses, viral-like particles and other pathogens in any matrix, but preferably in solutions containing biologically active proteinaceous products of natural or genetic engineering origin or in semi-solid or solid support matrices which are thermally labile or sensitive to conventional viral inactivation techniques. Novel apparatus also are provided.

Abstract: Viral morphogenesis, production, release or uncoating can be inhibited by effecting inhibition of prenylation of, or inhibition of post-prenylation reactions of, at least one viral protein. The use of inhibitors of prenylation, and post-prenylation reactions, for example, inhibitors of the mevalonate and prenyl group synthesis pathways, inhibitors of prenyl group transferases and mimics of the prenylation target CXXX box are disclosed.

Abstract: The invention features the use of a purified first targeted oligonucleotide in combination with either 1) a subtargeted oligonucleotide, 2) second targeted oligonucleotide, or 3) a non-targeted phosphorothioate oligonucleotide, to inhibit protein production of a targeted nucleic acid sequence, cell proliferation, and/or the multiplication of a foreign organism. The subtargeted oligonucleotide contains a truncated version of the targeted oligonucleotide.

Abstract: Psoralen compounds are synthesized which have substitutions on the 4, 4', 5', and 8 positions of the psoralen, which permit enhanced binding to nucleic acid of pathogens. Higher psoralen binding levels and lower mutagenicity are described, resulting in safer, more efficient, and reliable inactivation of pathogens in blood products. The invention compemplates inactivation methods using the new psoralens which do not compromise the function of blood products for transfusion. In particular, 5'-primary amino psoralens are photoactivated in order to inactivate pathogens in biological fluids.

Abstract: A system for the generation of live Birnavirus such as infectious bursal disease virus (IBDV), a segmented double-stranded (ds)RNA virus of the Birnavirdae family, using synthetic transcripts derived from cloned DNA has been developed. Independent full-length cDNA clones were constructed which contained the entire coding and non-coding regions of RNA segments A and B of IBDV, respectively. Synthetic RNAs of both segments were produced by in vitro transcription of linearized plasmids with T7 RNA polymerase. Transfection of Vero cells with combined plus-sense transcripts of both segments generated infectious virus as early as 36 hours post-transfection. The development of a reverse genetics system for dsRNA viruses will greatly facilitate studies of the regulation of viral gene expression pathogenesis, and design of a new generation of live and inactivated vaccines.

Abstract: Methods and compositions are provided for facilitating gene therapy procedures involving the transduction of target cells with retroviral vector particles in the presence of complement containing body fluids. The reduction of levels of galactose alpha (1,3) galactosyl epitopes on the retroviral vector particles and/or the blockade of antibody binding to such epitopes have been found to render the particles less sensitive to inactivation by complement mediated mechanisms, and to thus allow transduction in the presence of complement containing body fluids. Means are provided for obtaining such reductions.

Abstract: In a process for the inactivation of enveloped viruses in a biological fluid buckminsterfullerene (C.sub.60) is used as a photosensitizer. In a photodynamic processes singlet oxygen is generated which is the active agent for the inactivation of viruses present in the fluid. The process comprises the steps of (a) contacting of a solution or dispersion of material derived from the human body or from the bodies of animals with buckminsterfullerene as a photosensitizer, of (b) saturating the solution or dispersion with oxygen; and of (c) irradiating the solution or dispersion with visible or invisible light for activating the oxygen into the singlet state until viruses contained in the solution or dispersion are inactivated. This virus inactivation is specially suitable for protein solutions, e.g. bovine serum albumin, BSA or plasma products of human origin.

Abstract: A Marek's disease vaccine comprising an attenuated revertant virus derived as a clone of Md11/75/R2 or an antigenic component of the virus is characterized by a markedly reduced pathogenicity compared to the parent virus, without a comparable loss in immunogenicity. Attenuated revertants of the invention are exemplified by Md11/75/R2/23 and Md11/75/R2/29. These viruses or immunogenic components thereof can be formulated into monovalent and polyvalent vaccines.

Abstract: The invention includes a vaccine and sera for treatment of Mystery Swine Disease (MSD), a method for producing the vaccine, methods for diagnosis of MSD, a viral agent that will mimic "mystery swine disease" and antibodies to the viral agent useful in diagnosis and treatment of MSD. The serum contains mammalian antibodies which are effective in treating MSD.

Abstract: Oligonucleotides that inhibit Epstein-Barr virus functions, pharmaceutical compositions containing such oligonucleotides, and methods of using these compositions to treat Epstein-Barr virus-associated diseases.

Abstract: A method for using thiazine dyes, especially methylene blue, alone or in combination with low levels of light, to selectively inactivate or inhibit intracellular replication of specific viruses, especially human immunodeficiency virus. Examples of useful thiazine dyes are methylene blue, azure A, azure C, toluidine blue O, and thionine. The preferred dye at this time is methylene blue. Methylene blue is FDA approved for topical, i.v., and oral administration, and has minimal side effects. Since methylene blue absorbs in the red wavelengths, i.e., approximately 670 nm, which penetrates tissue much better than other lower wavelengths, light penetrating the skin to the capillaries at the surface can be used to enhance the activity of the dye.

Abstract: This invention comprises a method of using tubular material to replace an atrioventricular (AV) heart valve (i.e., a mitral or tricuspid valve, positioned between an atrial chamber and a ventricular chamber) during cardiac surgery. Preferably, the tubular material should be inherently tubular; i.e., it should be created in tubular form from its inception, rather than by using a longitudinal suture line or other seam to convert a flat sheet of material into a tubular shape. Suitable tubular materials include (1) biocompatible synthetic materials which are manufactured in tubular form, by methods such as extrusion or coating a cylindrical molding device, using material which is sufficiently thin and flexible to serve as leaflets in AV heart valves; and (2) a segment of submucosal tissue harvested from a small intestine, either from the patient who is undergoing the cardiac surgery, or from an animal or human cadaver if the harvested tissue is properly treated to reduce antigenicity.

Abstract: A product and process for animal feed ingredients free of biologically active proteins as well as bacteria and viruses. The process comprises the steps of: treating a proteinaceous mixture with alkali to cause the pH of the mixture to be raised to where proteins in the proteinaceous mixture will be solubilized to form a gel; maintaining the proteinaceous mixture at a temperature in a range between about 50.degree. to 55.degree. C.

Abstract: A series of 5,5-disubstituted Hydantoin derivatives synthesized by alkylating 5,5-bis(thiomethyl)-2,4-imidazolidinedione with halomethyl aromatic or halomethyl heteroaromatic precursors or by using the Buchener-Berg procedure on the required ketone. This series of 5,5-disubstituted Hydantoin derivatives are biologically active in their ability to inhibit HIV-induced death and virus production in mammalian (human) cells.

Abstract: This invention relates to a method and composition for inhibiting or destroying viruses or retroviruses in a mammalian host. The method comprises contacting the viruses or retroviruses with a composition. The composition comprises an active ingredient capable of inhibiting or destroying viruses or retroviruses, for example, a surfactant, and an activating ingredient capable of inhibiting or destroying one or more enzymes associated with viruses or retroviruses, for example, a fluorinated compound capable of releasing fluoride anions, and an excipient.

Abstract: It has been discovered that it is possible to treat solutions of connective tissue material for the inactivation of prions in a manner such that connective tissue molecules are not adversely affected by the inactivation treatment. For example, solubilized atelopeptide collagen can be treated with sodium hydroxide for the inactivation of prions and other infectious agents without affecting the ability of the solubilized collagen to form stable fibers.

Abstract: The present invention relates to new and useful nucleoside thiophosphoroamidites and polynucleotide phosphorodithioate compounds as well as the processes whereby these compounds may be used for synthesizing new mononucleotides and polynucleotides having phosphorothioate and phosphorodithioate internucleotide linkages.

Abstract: This invention provides a vaccine which contains, per dose, an effective immunizing amount of an inactivated feline enteric coronavirus and a suitable carrier. The vaccine of this invention may also contain an adjuvant, an effective immunizing amount of a second inactivated virus and a an effective immunizing amount of an inactivated bacteria. Additionally provided by this invention is a method of immunizing a dog against disease caused by canine coronavirus involving administering to the dog a dose of the vaccine of this invention. The method of this invention may also involve administering one or more additional doses of vaccine to the dog, immunizing the dog against disease caused by a second virus and immunizing the dog against disease caused by a bacteria.

Abstract: The use, when preparing a vaccine composition containing a standard influenza virus vaccine, of an additive which consists of a core or core fraction of at least one influenza virus, especially a fraction containing protein M; and a vaccine composition thereby obtained. The use of said additive improves the vaccine's effectiveness.

Abstract: This invention provides for a composition base and method of formulation to allow for oral vaccine delivery. The composition base is mixed with the oral vaccine and includes a carbohydrate composition having a dextrose equivalency value within the approximate range of 35-50. The buffer composition includes an electrolyte composition blended with the carbohydrate composition and the blended carbohydrate and electrolyte compositions are mixed each with respect to the other and then with the vaccine for oral ingestion by a user.

Abstract: In a method of producing a virus-safe biological preparation by heating while preserving a least 50% of its biologic activity, a biologially compatible tenside is added to the preparation before heating and heating is carried out in the presence of the same, whereupon the tenside, preferably, is eliminated.

Abstract: The present invention provides a live and inactivated Chicken Anaemia Agent vaccine capable of evoking an immune response in a vaccinated chicken. The CAA virus of the vaccine is attenuated by serial passages in embryonated eggs.

Abstract: This invention comprises a method of using tubular material to replace a heart valve during cardiac surgery. To create a replacement atrioventricular (mitral or tricuspid) valve, the tube inlet is sutured to a valve annulus from which the native leaflets have been removed, and the tube outlet is sutured to papillary muscles in the ventricle. To create a semilunar (aortic or pulmonary) valve, the tube inlet is sutured to an annulus from which the native cusps have been removed, and the tube is either "tacked" at three points distally inside the artery, or sutured longitudinally along three lines; this allows the flaps of tissue between the three fixation points at the valve outlet to function as movable cusps. These approaches generate flow patterns that closely duplicate the flow patterns of native valves.

Abstract: Psoralen compounds are synthesized which have substitutions on the 4,4',5', and 8 positions of the psoralen, which permit enhanced binding to nucleic acid of pathogens. Higher psoralen binding levels and lower mutagenicity are described, resulting in safer, more efficient, and reliable inactivation of pathogens in blood products. The invention contemplates inactivation methods using the new psoralens which do not compromise the function of blood products for transfusion. Also disclosed are compositions comprising 4' or 5'-primary amino substituted psoralens in a synthetic media.

Abstract: A novel formulation having anti-viral and spermicidal properties has been developed. The formulation contains lipid vesicles having an outer bilayer formed of a non-ionic amphiphile, a surfactant such as having spermicidal and/or anti-viral activity, an oil and a sterol. The selection of the components making the vesicle is such that the formulation provides rapid spermicidal or anti-viral activity. The formulation and methods of the invention are particularly useful in the mucous membranes such as the vaginal tract and has been tested against viruses such as HIV and Vaccinia.

Abstract: A method of producing a vaccine comprising providing a quantity of the disease-causing entity, treating the quantity to remove or disrupt a majority of the nucleic acid present in the quantity sufficient to render the quantity non-infective while maintaining the structure of the proteins and glycoproteins on the surface of the entity to render the vaccine protective. A method of producing a vaccine to human pathogenic retroviruses comprising the steps of partially solubilizing a quantity of the virus to produce a suspension, adding a proteinase to the suspension to release viral nucleic acids from the viral coat proteins, treating the suspension to disrupt or remove sufficient viral nucleic acids to render the suspension substantially or completely non-infective and verifying the sufficient disruption or removal of viral nucleic acids from the suspension.