Patents Assigned to Immunovative Therapies, Ltd.
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Publication number: 20110177596Abstract: 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.Type: ApplicationFiled: March 31, 2011Publication date: July 21, 2011Applicant: Immunovative Therapies Ltd.Inventor: Michael Har-Noy
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Patent number: 7972594Abstract: The invention disclosed herein relates generally to immunotherapy and, more specifically, to the use of immunotherapy for treating tumors and pathogen infected tissues by first priming patients with allogeneic cells designed to be rejected by a Th1 mediated mechanism, then inducing necrosis or apoptosis in a tumor or pathogen infected lesion 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, and then delivering one or more doses of allogeneic cells (e.g., Th1 cells) 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.Type: GrantFiled: November 8, 2007Date of Patent: July 5, 2011Assignee: Immunovative Therapies Ltd.Inventor: Michael Har-Noy
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Publication number: 20110142887Abstract: This invention relates to compositions and methods for immunotherapy of cancer. Specifically, a method of cancer immunotherapy is described which results in the systemic liquidation of both solid and metastatic tumors whereever they reside in the body. The compositions include activated allogeneic Th1 cells that when administered appropriately lead to liquidation of tumors. The method includes administering priming doses of the therapeutic composition, ablation of a selected tumor lesion along with intratumoral injection of the composition and then infusion of the therapeutic composition. These steps enable the systemic liquidation of tumors secondary to immune cell infiltration and leads to immune-mediated tumor eradication.Type: ApplicationFiled: December 14, 2010Publication date: June 16, 2011Applicant: Immunovative Therapies Ltd.Inventor: Michael Har-Noy
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Patent number: 7956164Abstract: 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.Type: GrantFiled: January 14, 2010Date of Patent: June 7, 2011Assignee: Immunovative Therapies Ltd.Inventor: Michael Har-Noy
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Patent number: 7943180Abstract: A method of manipulating allogeneic cells for use in allogeneic cell therapy protocols is described. The method provides a composition of highly activated allogeneic T-cells which are infused into immunocompetent cancer patients to elicit a novel anti-tumor immune mechanism called the “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 effectiveness and widespread application of the anti-tumor GVT effect is limited by the severe toxicity of the GVH effect. In the present invention, the anti-tumor HVT effect occurs in conjunction with a non-toxic HVG rejection effect.Type: GrantFiled: July 14, 2008Date of Patent: May 17, 2011Assignee: Immunovative Therapies, Ltd.Inventor: Michael Har-Noy
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Publication number: 20110040259Abstract: A method of manipulating allogeneic cells for use in allogeneic cell therapy protocols is described. The method provides a composition of highly activated allogeneic T-cells which are infused into immunocompetent cancer patients to elicit a novel anti-tumor immune mechanism called the “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 effectiveness and widespread application of the anti-tumor GVT effect is limited by the severe toxicity of the GVH effect. In the present invention, the anti-tumor HVT effect occurs in conjunction with a non-toxic HVG rejection effect.Type: ApplicationFiled: October 21, 2010Publication date: February 17, 2011Applicant: Immunovative Therapies, Ltd.Inventor: Michael Har-Noy
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Publication number: 20110033435Abstract: The composition of activated CD4 cells is derived from a healthy human donor. The composition from the healthy human donor is suspended in an infusion media and packaged in a vehicle for administration to a subject to treat disease.Type: ApplicationFiled: September 21, 2010Publication date: February 10, 2011Applicant: Immunovative Therapies Ltd.Inventor: Michael Har-Noy
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Publication number: 20110028912Abstract: A method for formulating T-cells for use as a medicant comprises activating the T-cells by incubating the T-cells in a nutrient culture media with an activating agent. The T-cells together with the activating agent are suspended in a media suitable for infusion. The activated T-cells are packaged together with the activating agent in a container suitable for administration to a patient.Type: ApplicationFiled: September 21, 2010Publication date: February 3, 2011Applicant: Immunovative Therapies Ltd.Inventor: Michael Har-Noy
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Publication number: 20100322966Abstract: A method of manipulating allogeneic cells for use in allogeneic cell therapy protocols is described. The method provides a composition of highly activated allogeneic T-cells which are infused into immunocompetent cancer patients to elicit a novel anti-tumor immune mechanism called the “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 effectiveness and widespread application of the anti-tumor GVT effect is limited by the severe toxicity of the GVH effect. In the present invention, the anti-tumor HVT effect occurs in conjunction with a non-toxic HVG rejection effect.Type: ApplicationFiled: August 26, 2010Publication date: December 23, 2010Applicant: Immunovative Therapies, Ltd.Inventor: Michael Har-Noy
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Publication number: 20100255043Abstract: 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.Type: ApplicationFiled: June 17, 2010Publication date: October 7, 2010Applicant: Immunovative Therapies Ltd.Inventor: Michael Har-Noy
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Publication number: 20100113753Abstract: 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.Type: ApplicationFiled: January 14, 2010Publication date: May 6, 2010Applicant: Immunovative Therapies Ltd.Inventor: Michael Har-Noy
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Publication number: 20100086561Abstract: 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.Type: ApplicationFiled: September 30, 2009Publication date: April 8, 2010Applicant: Immunovative Therapies Ltd.Inventor: Michael Har-Noy
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Patent number: 7678572Abstract: 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.Type: GrantFiled: February 24, 2005Date of Patent: March 16, 2010Assignee: Immunovative Therapies, Ltd.Inventor: Michael Har-Noy
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Publication number: 20090291498Abstract: A biodegradable device for activating T-cells includes a biodegradable support and a binder attached to the biodegradable support, the binder having reactivity to one or more agents capable of binding to a T-cell surface antigen.Type: ApplicationFiled: July 31, 2009Publication date: November 26, 2009Applicant: Immunovative Therapies Ltd.Inventor: Michael Har-Noy
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Patent number: 7592431Abstract: A biodegradable device for activating T-cells includes a biodegradable support and a binder attached to the biodegradable support, the binder having reactivity to one or more agents capable of binding to a T-cell surface antigen.Type: GrantFiled: November 17, 2006Date of Patent: September 22, 2009Assignee: Immunovative Therapies, Ltd.Inventor: Michael Har-Noy
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Publication number: 20080279861Abstract: A method of manipulating allogeneic cells for use in allogeneic cell therapy protocols is described. The method provides a composition of highly activated allogeneic T-cells which are infused into immunocompetent cancer patients to elicit a novel anti-tumor immune mechanism called the “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 effectiveness and widespread application of the anti-tumor GVT effect is limited by the severe toxicity of the GVH effect. In the present invention, the anti-tumor HVT effect occurs in conjunction with a non-toxic HVG rejection effect.Type: ApplicationFiled: July 14, 2008Publication date: November 13, 2008Applicant: Immunovative Therapies Ltd.Inventor: Michael Har-Noy
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Publication number: 20080279836Abstract: Ex-vivo prepared T-cells are harvested from cell culture conditions and formulated in medium suitable for infusion. The formulation is made by labeling the cells with one or more agents which have reactivity for T-cell surface moieties capable of delivery activation signals upon cross-linking and mixing the labeled cells with biodegradable nanospheres or microspheres coated with a material capable of cross-linking the agents attached to the T-cell surface moieties. Alternatively, the formulation may be made by mixing a population of T-cells with biodegradable nanospheres or microspheres coated with a first material and one or more second materials. The first material binds the second material and the second material has reactivity for surface moieties on the T-cells and the interaction of the second materials with the T-cells causes the activation of the T-cells.Type: ApplicationFiled: July 15, 2008Publication date: November 13, 2008Applicant: Immunovative Therapies Ltd.Inventor: Michael Har-Noy
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Patent number: 7435592Abstract: A method of manipulating allogeneic cells for use in allogeneic cell therapy protocols is described. The method provides a composition of highly activated allogeneic T-cells which are infused into immunocompetent cancer patients to elicit a novel anti-tumor immune mechanism called the “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 effectiveness and widespread application of the anti-tumor GVT effect is limited by the severe toxicity of the GVH effect. In the present invention, the anti-tumor HVT effect occurs in conjunction with a non-toxic HVG rejection effect.Type: GrantFiled: May 4, 2004Date of Patent: October 14, 2008Assignee: Immunovative Therapies, Ltd.Inventor: Michael Har-Noy
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Patent number: 7402431Abstract: Ex-vivo prepared T-cells are harvested from cell culture conditions and formulated in medium suitable for infusion. The formulation is made by labeling the cells with one or more agents which have reactivity for T-cell surface moieties capable of delivery activation signals upon cross-linking and mixing the labeled cells with biodegradable nanospheres or microspheres coated with a material capable of cross-linking the agents attached to the T-cell surface moieties. Alternatively, the formulation may be made by mixing a population of T-cells with biodegradable nanospheres or microspheres coated with a first material and one or more second materials. The first material binds the second material and the second material has reactivity for surface moieties on the T-cells and the interaction of the second materials with the T-cells causes the activation of the T-cells.Type: GrantFiled: March 1, 2005Date of Patent: July 22, 2008Assignee: Immunovative Therapies, Ltd.Inventor: Michael Har-Noy
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Publication number: 20080112963Abstract: The invention disclosed herein relates generally to immunotherapy and, more specifically, to the use of immunotherapy for treating tumors and pathogen infected tissues by first priming patients with allogeneic cells designed to be rejected by a Th1 mediated mechanism, then inducing necrosis or apoptosis in a tumor or pathogen infected lesion 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, and then delivering one or more doses of allogeneic cells (e.g., Th1 cells) 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.Type: ApplicationFiled: November 7, 2007Publication date: May 15, 2008Applicant: Immunovative Therapies, Ltd.Inventor: Michael Har-Noy