Abstract: The present invention includes vaccine compositions and methods for using these vaccine compositions in active immunotherapy. The vaccine compositions include allogeneic activated Th1 memory cells. The compositions can also include one or more disease-related antigens. The methods include administering the vaccine compositions to provide a Th1 footprint in normal individuals or patients susceptible to disease or having minimal residual disease.

Abstract: Methods of treating a patient with human immunodeficiency virus are disclosed. The method includes a providing intradermal and intravenous doses of a aTh1 composition that can increase the CD4+ cells in a patient that are resistant to HIV. The description includes a method for viral load reduction and a viral purge method. The regimen leads to a spike in the viral load and a then a return to baseline or lower levels of the virus and can lead to reduction and/or elimination of the latent viral reservoirs. Kits configured to provide intradermal doses and intravenous doses according to the regimen are also included.

Abstract: A method for stimulating the immune system in immunocompromised patients in order to treat opportunistic infection. The method involves the infusion of intentionally mismatched allogeneic cells. In order to prevent graft vs. host disease complications, the allogeneic cells can be irradiated prior to infusion.

Abstract: The present invention includes methods for handling live cell compositions in non-nutritive buffer. The cells in the compositions maintain their identity and functional characteristics after being stored in non-nutrititive media up to about 72 hours. The storage method enables the cells to be manufactured at a processing facility and shipped to a point of care site. The invention also includes compositions that have been stored in non-nutritive buffer at storage temperatures while maintaining the functional characteristics.

Abstract: The present disclosure relates to an apparatus for dispensing biologic drug compositions. The apparatus includes an automated device that can store a biologic drug under the desired conditions. When authorized, the automated device can process the stored biologic drug by performing the desired processing steps to prepare the biologic drug for administration to a patient. The automated device may include a computing system to transmit patient information to a remote location and receive authorization from a remote location.

Abstract: A novel cell type has been generated that has both Th1 characteristics and cytolytic activity. These Th1/killer cells are CD4+ cells purified from peripheral blood and manipulated to have Th1 characteristics such as production of IFN-gamma combined with cytolytic activity similar to cytotoxic T-cells (CTL). The CTL activity is targeted toward diseased cells, not normal cells. The cytolytic activity of the Th1/killer cells is mediated by Granzyme B-Perforin mechanism and results in apoptotic death of diseased cells. Methods of producing and using these Th1/killer cells include isolating CD4+ cells from peripheral blood, activating the CD4+ T-cells to form Th1/killer cells and administering these Th1/killer cells with the cytolytic activity to a patient wherein the Th1/killer cells are allogeneic to the patient.

Abstract: The present invention includes methods for handling live cell compositions in non-nutritive buffer. The cells in the compositions maintain their identity and functional characteristics after being stored in non-nutrititive media up to about 72 hours. The storage method enables the cells to be manufactured at a processing facility and shipped to a point of care site. The invention also includes compositions that have been stored in non-nutritive buffer at storage temperatures while maintaining the functional characteristics.

Abstract: An apparatus stores and dispenses biologic drug compositions. The apparatus is an automated device that stores a biologic drug under the desired conditions. When authorized, the automated device processes the stored biologic drug by performing the desired processing steps to prepare the biologic drug for administration to a patient. The automated device includes a computing system to transmit patient information to a remote location and receive authorization from a remote location.

Abstract: Methods of treating a patient with human immunodeficiency virus are disclosed. The method includes a providing intradermal and intravenous doses of a aTh1 composition that can increase the CD4+ cells in a patient that are resistant to HIV. The description includes a method for viral load reduction and a viral purge method. The regimen leads to a spike in the viral load and a then a return to baseline or lower levels of the virus and can lead to reduction and/or elimination of the latent viral reservoirs. Kits configured to provide intradermal doses and intravenous doses according to the regimen are also included.

Abstract: The present invention relates to pharmaceutical vaccine compositions comprising at least one vaccine antigen together with living immune cells. These immune cells include at least a portion of activated T-cells and act as an adjuvant. Methods for using these pharmaceutical compositions to prevent or treat diseases, such as cancer, infectious diseases and autoimmune disease are also included.

Abstract: Methods of treating a patient with human immunodeficiency virus are disclosed. The method includes a providing intradermal and intravenous doses of a aTh1 composition that can increase the CD4+ cells in a patient that are resistant to HIV. The description includes a method for viral load reduction and a viral purge method. The regimen leads to a spike in the viral load and a then a return to baseline or lower levels of the virus and can lead to reduction and/or elimination of the latent viral reservoirs. Kits configured to provide intradermal doses and intravenous doses according to the regimen are also included.

Abstract: A method of manipulating allogeneic cells for use in allogeneic cell therapy providing a composition of highly activated allogeneic T-cells which are infused into immunocompetent cancer patients to elicit a novel anti-tumor immune mechanism, or “Mirror Effect”. In contrast to current allogeneic cell therapy protocols where T-cells in the graft mediate the beneficial graft vs. tumor (GVT) and detrimental graft vs. host (GVH) effects, the allogeneic cells of the present invention stimulate host T-cells to mediate the “mirror” of these effects. The mirror of the GVT effect is the host vs. tumor (HVT) effect. The “mirror” of the GVH effect is the host vs. graft (HVG) effect The anti-tumor HVT effect occurs in conjunction with a non-toxic HVG rejection effect. The highly activated allogeneic cells of the invention can be used to stimulate host immunity in a complete HLA mis-matched setting in a patient.

Abstract: The present invention includes vaccine compositions and methods for using these vaccine compositions in active immunotherapy. The vaccine compositions include allogeneic activated Th1 memory cells. The compositions can also include one or more disease-related antigens. The methods include administering the vaccine compositions to provide a Th1 footprint in normal individuals or patients susceptible to disease or having minimal residual disease.

Abstract: A method of manipulating allogeneic cells for use in allogeneic cell therapy providing a composition of highly activated allogeneic T-cells which are infused into immunocompetent cancer patients to elicit a novel anti-tumor immune mechanism, or “Mirror Effect”. In contrast to current allogeneic cell therapy protocols where T-cells in the graft mediate the beneficial graft vs. tumor (GVT) and detrimental graft vs. host (GVH) effects, the allogeneic cells of the present invention stimulate host T-cells to mediate the “mirror” of these effects. The mirror of the GVT effect is the host vs. tumor (HVT) effect. The “mirror” of the GVH effect is the host vs. graft (HVG) effect The anti-tumor HVT effect occurs in conjunction with a non-toxic HVG rejection effect. The highly activated allogeneic cells of the invention can be used to stimulate host immunity in a complete HLA mis-matched setting in a patient.

Abstract: The present invention includes vaccine compositions and methods for using these vaccine compositions in active immunotherapy. The vaccine compositions include allogeneic activated Th1 memory cells. The compositions can also include one or more disease-related antigens. The methods include administering the vaccine compositions to provide a Th1 footprint in normal individuals or patients susceptible to disease or having minimal residual disease.

Abstract: The present invention includes vaccine compositions and methods for using these vaccine compositions in active immunotherapy. The vaccine compositions include allogeneic activated Th1 memory cells. The compositions can also include one or more disease-related antigens. The methods include administering the vaccine compositions to provide a Th1 footprint in normal individuals or patients susceptible to disease or having minimal residual disease.

Abstract: T-cells are generated with enhanced immunostimulatory capabilities for use in self therapy treatment protocols, by utilizing a biodegradable device with a biodegradable support that has one or more agents that are reactive to T-cell surface moieties. The biodegradable devices are mixed with the T-cells sufficiently so that the one or more agents cross-link with the T-cells' surface moieties and deliver a signal to the T-cells to enhance immunostimulatory capabilities.

Abstract: The present invention relates to methods of suppressing the immune tolerance of a disease or disease antigens in a patient. The method also promotes the activity of the effectore T lymphocytes. The invention includes administering a therapeutic composition that promotes a Th1 environment in the patient while decreasing the immunosuppressive activity of Treg cells that can lead to disease antigen tolerance and immunoavoidance of the disease antigens by the patient. The therapeutic composition includes allogeneic emTh-1 cells. The therapeutic composition can also include disease antigens such as the chaperone-rich cell lysate of the disease antigen.

Abstract: A method for formulating T-cells for use as a medicant comprises suspending T-cells with cross-linked surface moieties in a media suitable for infusion. The cross-linked T-cells are packaged in a container suitable for administration to a patient.

Abstract: The disclosure herein relates generally to immunotherapy and, more specifically, to the use of immunotherapy for treating tumors and pathogen infected tissues. The immunotherapy relates to first priming patients with allogeneic cells designed to be rejected by a Th1 mediated mechanism, then inducing in situ necrosis or apoptosis in a tumor or pathogen infected lesion. Necrosis or apoptosis can be induced by methods such as cryotherapy, irreversible electroporation, chemotherapy, radiation therapy, ultrasound therapy, ethanol chemoablation, microwave thermal ablation, radiofrequency energy or a combination thereof applied against at least a portion of the tumor or pathogen infected tissue. One or more doses of allogeneic cells (e.g., Th1 cells) are then delivered within or proximate to the tumor or pathogen-infected tissue in the primed patient. The present invention provides an immunotherapeutic strategy to develop de-novo systemic (adaptive) immunity to a tumor or pathogen.