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Novel Small Molecule Antimalarials for Elimination of Malaria Transmission
The transmission of malaria begins with injection of sporozoites into a human from the bite of a female anopheles mosquito, which initiates the malarial life cycle in humans. When a mosquito bites an infected human, the ingested male and female malaria gametocytes fuse to form a zygote that eventually becomes an oocyst. Each oocyst produces thousands...
Published: 7/25/2024   |   Inventor(s): Wei Zheng, Seameen Dehdashti, Noel Southall, Wenwei Huang, Wei Sun, Takeshi Tanaka, John McKew
Keywords(s): compounds, DB2XXX, Gametocytocidal, Identification, Malaria, Novel, VOXXXX, WKXXXX, XHXXXX, YAXXXX, YBXXXX, YCXXXX
Category(s): Collaboration Sought > Licensing, ResearchProducts > Research Equipment, Application > Therapeutics, TherapeuticArea > Infectious Disease, Application > Consumer Products
Entangling/Entrapping Synthetic Setae for Control of Insects and Other Pests
In nature, some beetle larvae possess specialized barbed hastate setae that serve as an entanglement defense mechanism and incapacitate other insects. CDC researchers have developed synthetic setae for control and entrapment of insects and other pests. While smaller synthetic setae can trap mosquitoes and small insects, larger “macro” setae can be...
Published: 7/25/2024   |   Inventor(s): Robert Wirtz
Keywords(s): AE2BXX, AE2XXX, AEXXXX, AFXXXX, AXXXXX, CDC Docket Import, CDC Docket Import CDC Prosecuting, CGH-DPDM, CONTROL, DB2XXX, DB4XXX, DBXXXX, DEVICE, Devices, DEXXXX, DXXXXX, Entangling, Entrapment, insect, Insects, Mosquito, Mosquitoes, Net, Pest, Pests, population sampling, PXXXXX, Setae, TRAP, UBXXXX, UXXXXX, Vector-borne, Vector-borne diseases, VJXXXX, VKXXXX, VLXXXX, VOXXXX, WCXXXX, WDXXXX, WFXXXX, WIXXXX, WMXXXX, XDXXXX, XIXXXX, YFXXXX, Zoo
Category(s): Collaboration Sought > Licensing, Application > Diagnostics, Application > Medical Devices, TherapeuticArea > Rare / Neglected Diseases, Application > Research Materials, Application > Occupational Safety and Health, Application > Non-Medical Devices, Application > Therapeutics, Application > Consumer Products, TherapeuticArea > Infectious Disease
Intranasal Nebulizer with Disposable Drug Cartridge for Improved Delivery of Vaccines and Therapeutics
Intranasal delivery is a simple, inexpensive and needle-free route for administration of vaccines and therapeutics. This intranasal delivery technology, developed with Creare LLC., includes low-cost, disposable drug cartridges (DDCs) that mate with a durable hand-held device. The rechargeable-battery-powered device transmits ultrasonic energy to the...
Published: 7/25/2024   |   Inventor(s): James Barry, Nabil Elkouh, Mark Bagley, Darin Knaus, Robert Trabka, Eric Friets, James Norris, Mark Papania
Keywords(s): AB1XXX, AB3FXX, AB3GXX, AB3XXX, AB4XXX, Able, ABXXXX, AC1XXX, ACXXXX, AEROSOL, AEROSOL-GENERATING, AEROSOLIZATION, Aerosolized, AEROSOLS, AXXXXX, BACTERIA, Bacterial, BACTERIAL VACCINES, CARTRIDGE, CDC, CDC Docket Import, CDC Docket Import CDC Prosecuting, Chamber, COOLING, DB1XXX, DB2XXX, DB3XXX, DB4XXX, DB5XXX, DBXXXX, DC1XXX, DC2XXX, DC3XXX, DC4XXX, DC5BXX, DC5XXX, DC6XXX, DCXXXX, Delivery, DEVICE, Devices, Disposable, DRUG, Drug Delivery, DXXXXX, FUNGAL, HAND, Having, INSERT, Intranasal, Methods, NASAL, NEBULIZER, NIOSH-PRL, OID-NCIRD-DVD, PLATFORM, Platforms, Pulmonary, respiratory, Respiratory Diseases, respiratory INFECTION, System, SYSTEMS, therapeutic, therapeutic delivery, Vaccine, VACCINE DELIVERY, Vaccine Design, VACCINE DEVELOPMENT, VBXXXX, viral, viral vaccine, VJXXXX, VKXXXX, VLXXXX, VOXXXX, VPXXXX, WAXXXX, WFXXXX, WJXXXX, WKXXXX, WMXXXX, XDXXXX, YBXXXX, YCXXXX, YFXXXX
Category(s): Collaboration Sought > Licensing, Application > Occupational Safety and Health, Application > Medical Devices, Application > Diagnostics, Application > Vaccines, Application > Therapeutics, TherapeuticArea > Dental, TherapeuticArea > Infectious Disease, TherapeuticArea > Endocrinology, TherapeuticArea > Cardiology, Application > Non-Medical Devices, TherapeuticArea > Ophthalmology, Application > Consumer Products, TherapeuticArea > Oncology
Intranasal Dry Powder Inhaler for Improved Delivery of Vaccines and Therapeutics
This Intranasal Dry Powder Inhaler (DPI), developed with Creare, Inc., allows low-cost delivery of powder vaccines. Nasal delivery has numerous advantages compared to traditional injected vaccines, including: 1) safe, needle-less administration by minimally-trained staff or patient; 2) better protection due to mucosal and cross-protection; and 3) decreased...
Published: 7/25/2024   |   Inventor(s): James Barry, Darin Knaus, Edward Moynihan, Eric Friets, Mark Bagley, Mark Papania
Keywords(s): AB1XXX, AB3FXX, AB3GXX, ABXXXX, Agents, AXXXXX, BACTERIA, Bacterial, BACTERIAL VACCINES, Biodefense, biosecurity, bioterrorism, Bioterrorist, CDC Docket Import, CDC Docket Import CDC Prosecuting, Child safety device, CHILDHOOD, Children, DB1XXX, DB2XXX, DB3XXX, DB4AXX, DB4BXX, DB4XXX, DB5XXX, DBXXXX, DC1XXX, DC2XXX, DC3XXX, DC4XXX, DC5XXX, DC6XXX, DCXXXX, Delivery, delivery system, DEVELOPED, DEVELOPING, DEVICE, Devices, Disposable, DISPOSAL, Dry, DXXXXX, Field, Field-usable, FUNGAL, Intranasal, MEASLES, NASAL, Needle, OID-NCIRD-DVD, Portable, POWDER, Prevention, respiratory, SAFETY, SELF-ADMINISTRATION, Single-use, System, therapeutic delivery, treatment, VACCINATION, Vaccinations, VACCINE DELIVERY, vaccines, VBXXXX, viral vaccine, VJXXXX, VKXXXX, VLXXXX, VOXXXX, WAXXXX, WKXXXX, WMXXXX, XDXXXX, YBXXXX, YFXXXX
Category(s): Collaboration Sought > Licensing, Application > Diagnostics, Application > Medical Devices, Application > Vaccines, TherapeuticArea > Infectious Disease, Application > Non-Medical Devices, Application > Consumer Products, Application > Therapeutics
T24 Antigen for Diagnosing or Treating Taenia solium Cysticercosis
In order to develop a simple detection assay for field use, CDC researchers cloned and sequenced the Taenia solium T24 diagnostic protein. The T24 sequences can be used to detect and diagnose T. solium infection or can be formulated into a pharmaceutical composition. T. solium is a species of tapeworm. Intestinal infection with T. solium is referred...
Published: 7/25/2024   |   Inventor(s): Fatima Williams, Melinda Yushak, Sowmya Pattabhi, Victor Tsang, Kathy Hancock
Keywords(s): AFXXXX, ANTIGEN, CDC Docket Import, CDC Docket Import CDC Prosecuting, CGH-DPDM, Cysticercosis, DA2XXX, DAXXXX, DB2XXX, DBXXXX, DC2XXX, DCXXXX, Immunodiagnosis, SOLIUM, T24, TAENIA, UBXXXX, UXXXXX
Category(s): Collaboration Sought > Licensing, TherapeuticArea > Infectious Disease, Application > Therapeutics, Application > Vaccines, TherapeuticArea > Rare / Neglected Diseases, Application > Diagnostics
Transmission-Blocking Malaria Vaccine
There is no vaccine for malaria, and there is growing resistance to existing anti-malarial drugs. Sexual stage-specific antigens are of interest as vaccine candidates because disruption of these antigens would reduce the fertility and, thus, the infectivity of the parasite. This invention claims methods and compositions for delivering a Plasmodium...
Published: 7/25/2024   |   Inventor(s): Alvaro Molina-Cruz, Carolina Barillas-Mury
Keywords(s): Anopheles, Critical, DA2XXX, DA5XXX, DAXXXX, DB2XXX, DB5XXX, DBXXXX, DC2XXX, DCXXXX, DD1XXX, DDXXXX, DEXXXX, DXXXXX, FALCIPARUM, Gambiae, Gene, Human, Malaria, Mosquitoes, Pfs47, PLASMODIUM, TRANSMISSION
Category(s): Collaboration Sought > Collaboration, Application > Therapeutics, Application > Vaccines, TherapeuticArea > Infectious Disease, Application > Diagnostics, Application > Research Materials
Methods of Treating Giardiasis Using FDA-Approved Compounds
This technology includes a group of at least twenty-nine, diverse, commercially available compounds that are newly identified for activity against Giardia lamblia parasites. At least six of the candidate compounds, Bortezomib, Decitabine, Hydroxocobalamin, Amlexanox, Idarubicin, and Auranofin have preexisting FDA approval for human use for other (non-Giardia)...
Published: 7/25/2024   |   Inventor(s): Catherine Chen, Juan Marugan, Noel Southall, Christopher Austin, Osnat Herzberg, Andrey Galkin, Wei Zheng
Keywords(s): compounds, DB2XXX, DBXXXX, DXXXXX, Giardiasis, NCTT, Novel, treatment
Category(s): Collaboration Sought > Collaboration, Application > Therapeutics, TherapeuticArea > Infectious Disease
Compounds That Treat Malaria and Prevent Malaria Transmission
Malaria is the single leading cause of death, especially among children, in the developing world. Malaria is caused by infection with parasites of the genus Plasmodium, transmitted by mosquitos. In addition to transmission, vital steps in the parasite lifecycle occur in the mosquito host. The invention offered for licensing relates to therapeutic compounds...
Published: 7/25/2024   |   Inventor(s): Jing Yuan, Sittiporn Pattaradilokrat, Ruili Huang, Ronald Johnson, Dipak Raj, Xin-zhuan Su
Keywords(s): ANTIMALARIAL, DB2XXX, DBXXXX, Discovery, DRUGS, DXXXXX, Malaria (Plasmodium sp.), Potential, UBXXXX, UXXXXX
Category(s): Collaboration Sought > Collaboration, Collaboration Sought > Licensing, Application > Therapeutics, TherapeuticArea > Infectious Disease, TherapeuticArea > Rare / Neglected Diseases
A Novel Treatment for Malarial Infections
The inventions described herein are antimalarial small molecule inhibitors of the plasmodial surface anion channel (PSAC), an essential nutrient acquisition ion channel expressed on human erythrocytes infected with malaria parasites. These inhibitors were discovered by high-throughput screening of chemical libraries and analysis of their ability to...
Published: 7/25/2024   |   Inventor(s): Sanjay Desai
Keywords(s): Anion, ANTAGONISTS, ANTIMALARIAL, BBXXXX, BCXXXX, CHANNEL, DB2XXX, DBXXXX, Development, DRUG, DXXXXX, LEAD, Malaria, Malaria (Plasmodium sp.), MOLECULES, Plasmodial, Surface
Category(s): Collaboration Sought > Collaboration, Application > Therapeutics, TherapeuticArea > Infectious Disease
Anti-Plasmodium Compositions and Methods of Use
This invention describes methods and compositions of peptides that inhibit the binding of Plasmodium falciparum (P. falciparum) to erythrocytes. Malarial parasites enter the red blood cell through several erythrocyte receptors, each being specific for a given species of Plasmodia. For P. falciparum, the erythrocyte binding antigen (EBA-175) is the...
Published: 7/25/2024   |   Inventor(s): David Narum
Keywords(s): DA2XXX, DAXXXX, DB2XXX, DBXXXX, DC2XXX, DCXXXX, DXXXXX, Malaria, Malaria (Plasmodium sp.)
Category(s): Collaboration Sought > Licensing, Application > Diagnostics, Application > Therapeutics, TherapeuticArea > Infectious Disease, Application > Vaccines
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