Described herein are compositions that comprise one or more Babesia microti antigens, one or more Babesia microti nucleic acid molecules, or one or more anti-Babesia microti antibodies and uses thereof in methods for the prophylaxis of babesiosis, the treatment of babesiosis and the monitoring of individuals undergoing prophylactic or therapeutic administration of the compositions of the invention.

Described herein are compositions that comprise one or more Babesia microti antigens, one or more Babesia microti nucleic acid molecules, or one or more anti-Babesia microti antibodies and uses thereof in methods for the prophylaxis of babesiosis, the treatment of babesiosis and the monitoring of individuals undergoing prophylactic or therapeutic administration of the compositions of the invention.

The invention describes a method of generating antibodies to a mixture of peptidogenic proteins wherein the peptidogenic protein has altered conformational dynamics as compared to a starting protein and wherein the peptidogenic protein has a similar conformation to the starting protein. The peptidogenic proteins can be used to induce an immune response, which can lead to the generation of antibodies and/or can be used to vaccinate a mammal.

An automated system that can be used for prosthetic heart valve manufacturing or suturing procedures. The system can include a first automated fixture that includes an articulating arm and a target device holder. The system can also include one or more additional automated fixtures, which can be configured as one or more suturing arms that include another articulating arm and a needle holder. The first automated fixture can be configured to rotate a target device held by the holder to allow the one or more additional automated fixtures to perform operations such as form sutures on the target device without intervention of a human operator. The system can include a targeting system configured to provide positioning feedback to the system.

The present invention describes methods of identifying high-risk populations or individuals who have positive serology for T. gondii. These methods include obtaining a biological sample from a subject; determining the level of T. gondii cyst antigen antibody in the biological sample; and characterizing the biological sample in at least one of three categories.

The present invention describes methods of identifying high-risk populations or individuals who have positive serology for T. gondii. These methods include obtaining a biological sample from a subject; determining the level of T. gondii cyst antigen antibody in the biological sample; and characterizing the biological sample in at least one of three categories.

The present invention provides antibodies targeting Plasmodium sporozoites, in particular plasmodium circumsporozoite protein. The invention also provides nucleic acids that encode such antibodies. In addition, the invention provides the use of the antibodies of the invention in prophylaxis and treatment malaria.

The present disclosure relates to the field of immunology, in particular to a B-cell epitope of Trichinella spiralis cysteine protease inhibitor, a hybridoma cell line, a monoclonal antibody and uses thereof. The present disclosure provides a hybridoma cell line that can generate anti-WN10 antibody, and identifies the specific B-cell epitope of WN10 protein recognized by the monoclonal antibody. These are of great significance for the diagnosis of trichinellosis, for the establishment of competitive ELISA for detecting antibodies and sandwich ELSIA for detecting circulating antigens, for the detection of Trichinella spiralis in different hosts and for the development of subunit vaccines.

The present disclosure relates to the field of immunology, in particular to a B-cell epitope of Trichinella spiralis cysteine protease inhibitor, a hybridoma cell line, a monoclonal antibody and uses thereof. The present disclosure provides a hybridoma cell line that can generate anti-WN10 antibody, and identifies the specific B-cell epitope of WN10 protein recognized by the monoclonal antibody. These are of great significance for the diagnosis of trichinellosis, for the establishment of competitive ELISA for detecting antibodies and sandwich ELSIA for detecting circulating antigens, for the detection of Trichinella spiralis in different hosts and for the development of subunit vaccines.

A method of generating an antibody and cellular immune response against a Plasmodium in a primate, comprising administering at least 10.sup.3 genetically modified live Plasmodium to the primate, wherein the genetically modified live Plasmodium is a species selected from Plasmodium falciparum, Plasmodium vivax, Plasmodium ovale, Plasmodium malariae, Plasmodium knowlesi, Plasmodium coatneyi, Plasmodium cynomolgi, and Plasmodium simium, and wherein the genetically modified live Plasmodium does not produce functional histamine releasing factor (HRF) protein, to thereby induce an antibody and cellular immune response against the Plasmodium in the primate. In some embodiments at least 10.sup.4 genetically modified live Plasmodium is administered to the primate. An immunogenic composition for administration to a primate, comprising a at least 10.sup.3 genetically modified live Plasmodium wherein the genetically modified live Plasmodium is a species selected from Plasmodium falciparum, Plasmodium vivax, Plasmodium ovale, Plasmodium malariae, Plasmodium knowlesi, Plasmodium coatneyi, Plasmodium cynomolgi, and Plasmodium simium, and wherein the genetically modified live Plasmodium does not produce functional histamine releasing factor (HRF) protein; and at least one pharmaceutically acceptable excipient and/or support. In some embodiments the immunogenic composition comprises at least 10.sup.3 genetically a modified live Plasmodium.