In one aspect, the invention relates to a composition including a first polypeptide having the sequence set forth in SEQ ID NO: 1 and a second polypeptide having the sequence set forth in SEQ ID NO: 2. In one embodiment, the composition includes about 120 μg/ml of a first polypeptide including the amino acid sequence set forth in SEQ ID NO: 1, 120 μg/ml of a second polypeptide including the amino acid sequence set forth in SEQ ID NO: 2, about 2.8 molar ratio polysorbate-80 to the first polypeptide, about 2.8 molar ratio polysorbate-80 to the second polypeptide, about 0.5 mg/ml aluminum, about 10 mM histidine, and about 150 mM sodium chloride. In one embodiment, a dose of the composition is about 0.5 ml in total volume. In one embodiment, two-doses of the composition induce a bactericidal titer against diverse heterologous subfamily A and subfamily B strains in a human.

The invention is directed to a vaccine comprising: i) coxsackie B virus CBV1 and CBV2, and ii) at least one coxsackie B virus selected from CBV3, CBV4, CBV5 and CBV6. The CBVs are present in the vaccine in inactivated form, in the form of a component of the virus or as an antibody against the virus. The vaccine is effective in preventing and treating type 1 diabetes. So is an anti-coxsackie B virus composition provided.

The invention is directed to a vaccine comprising: i) coxsackie B virus CBV1 and CBV2, and ii) at least one coxsackie B virus selected from CBV3, CBV4, CBV5 and CBV6. The CBVs are present in the vaccine in inactivated form, in the form of a component of the virus or as an antibody against the virus. The vaccine is effective in preventing and treating type 1 diabetes. So is an anti-coxsackie B virus composition provided.

Methods of testing tumor samples for mutational burden and/or for expression profiles permit the prediction of responsiveness of an individual to immunotherapy comprising PVSRIPO. Those predicted to respond are treated with PVSRIPO and those predicted not to respond are treated with other agents.

Methods of testing tumor samples for mutational burden and/or for expression profiles permit the prediction of responsiveness of an individual to immunotherapy comprising PVSRIPO. Those predicted to respond are treated with PVSRIPO and those predicted not to respond are treated with other agents.

Stable, immunogenic combination vaccine(s) comprising a mixture of antigens for prevention and prophylaxis of infections caused by Rotavirus, Poliomyelitis virus, Haemophilus influenzae, Corynebacterium diphtheriae, Clostridium tetani, Bordetella pertussis and Hepatitis B virus. A multivalent combination vaccine comprises i) significantly dose-reduced Salk-IPV or Sabin-IPV (IPV) antigens prepared by methods of formaldehyde inactivation and alum hydroxide adsorption resulting in maximum D-antigen recovery; ii) Injectable heat inactivated Rotavirus antigen(s) providing broad cross-protective immunity among human rotavirus strains; iii) Hib PRP-carrier protein conjugate having improved stability and immunogenicity; iv) whole cell pertussis antigen with improved immunogenicity and stability; and v) Homogenous fractions of Diphtheria and Tetanus toxoids. Such stable and immunogenic vaccine compositions are made by i) individually adsorbing dose reduced IPV, IRV antigens on alum hydroxide and keeping other antigen(s) unadsorbed or adsorbed on alum phosphate, alum hydroxide, or a combination thereof; and ii) using an order of addition of antigens during blending.

Stable, immunogenic combination vaccine(s) comprising a mixture of antigens for prevention and prophylaxis of infections caused by Rotavirus, Poliomyelitis virus, Haemophilus influenzae, Corynebacterium diphtheriae, Clostridium tetani, Bordetella pertussis and Hepatitis B virus. A multivalent combination vaccine comprises i) significantly dose-reduced Salk-IPV or Sabin-IPV (IPV) antigens prepared by methods of formaldehyde inactivation and alum hydroxide adsorption resulting in maximum D-antigen recovery; ii) Injectable heat inactivated Rotavirus antigen(s) providing broad cross-protective immunity among human rotavirus strains; iii) Hib PRP-carrier protein conjugate having improved stability and immunogenicity; iv) whole cell pertussis antigen with improved immunogenicity and stability; and v) Homogenous fractions of Diphtheria and Tetanus toxoids. Such stable and immunogenic vaccine compositions are made by i) individually adsorbing dose reduced IPV, IRV antigens on alum hydroxide and keeping other antigen(s) unadsorbed or adsorbed on alum phosphate, alum hydroxide, or a combination thereof; and ii) using an order of addition of antigens during blending.

Provided herein is a method for preventing a person from an infection by a Coronaviridae virus with a poliomyelitis vaccine. Also provided herein is a method of inducing a protective immune response against a Coronaviridae virus with a poliomyelitis vaccine.

Provided herein is a method for preventing a person from an infection by a Coronaviridae virus with a poliomyelitis vaccine. Also provided herein is a method of inducing a protective immune response against a Coronaviridae virus with a poliomyelitis vaccine.

The present invention relates to methods and vaccine compositions for inducing a safe immune response against polio virus in a human subject in need thereof, comprising administering to the subject a composition comprising inactivated Sabin poliovirus (sIPV) strains, wherein the sIPV strains have been produced on PER.C6® cells.