Patents Assigned to Florida A&M University
  • Patent number: 8403172
    Abstract: A collapsible straw assembly. A first component includes a beverage container having a recess formed therein. A second component includes a collapsible straw having a collapsed configuration and expanded configuration. The straw is disposed in the recess when in collapsed configuration and is ready for use in expanded configuration. A third component includes a protective liner disposed in overlying relation to the straw in collapsed configuration. The liner has an outer surface containing protective materials and an inner surface containing sanitizing materials. Adhesives may be disposed on the surface of the recess and on the inner surface of the liner. When in the collapsed configuration, the inner end of the straw can be attached to the container, and the outer end of the straw can be attached to the liner. This allows simultaneous expansion of the straw when the liner is removed to expose the straw.
    Type: Grant
    Filed: March 5, 2012
    Date of Patent: March 26, 2013
    Assignee: Florida A&M University
    Inventors: Malcom Kelley, Nordian Brown, Leitoya Snelling
  • Patent number: 8367121
    Abstract: This invention describes a comprehensive nutraceutical designed to antagonize major mitigating factors to the degenerative process associated with Parkinson's disease. The formulation is comprised of a primary base of pyruvate, succinate, ?-Ketoglutarate and/or oxaloacetate, niacin/NADH, fruit extracts, anthocyanins, further combined with specific macro/micronutrients, trace elements, amino acids, flavonoids and concentrated plant sources. The nutraceutical contains all natural substances that should mitigate many of the neurodegenerative processes known to be associated with PD. Mechanisms addressed are to prevent the loss of ATP/by 1-methyl-4-phenylpyridinium rotenone, scavenge hydrogen peroxide/O2.
    Type: Grant
    Filed: February 6, 2010
    Date of Patent: February 5, 2013
    Assignee: Florida A & M University
    Inventors: Elizabeth Anne Mazzio, Karam F Soliman
  • Patent number: 8314143
    Abstract: A compound, pharmaceutical composition and method for the treatment of mammals wherein the active therapeutic agent is a compound having the structure: wherein: R1 is an electronegative substituent, R2 is R1 or alkyl, R3 is H or O-alkyl, R4 and R5 are the same or different and are alkyl and R6 is H or OH.
    Type: Grant
    Filed: December 31, 2007
    Date of Patent: November 20, 2012
    Assignee: Florida A&M University
    Inventors: Kinfe Redda, Chavonda Janeebra Mills, Nelly Mateeva
  • Publication number: 20120157493
    Abstract: “An indoloquinoline wherein the quarternary N-5 atom is a straight C(1-5) chain, a branched C(1-5) chain, a heteroatom chain, a straight chain substituted terminally by a cycloalkyl or aromatic ring, a branched chain substituted terminally by a cycloalkyl or aromatic ring, a heteroatom chain substituted terminally by a cycloalkyl or aromatic ring; the 10 position is N—R10, O, S, S?O, CH2, or C?O, where R10 is a branched C(1-5) chain, a heteroatom chain, a straight chain substituted terminally by a cycloalkyl or aromatic ring, a branched chain substituted terminally by a cycloalkyl or aromatic ring, a heteroatom chain substituted terminally by a cycloalkyl or aromatic ring. In one embodiment the quarternary N-5 atom is —CH3 and the 10 position is N—(CH2)5-Ph.
    Type: Application
    Filed: February 24, 2012
    Publication date: June 21, 2012
    Applicant: FLORIDA A&M UNIVERSITY
    Inventor: Seth Y. Ablordeppey
  • Patent number: 7700587
    Abstract: Haloperidol analogs that conforms to the structural formulae: wherein: R is H, or —(CH2)n—OH, n is an integer from 0 to 2, and A is a heterocyclic bridging group, consisting essentially of carbon and at least one nitrogen atom, which effectively maintains the distance between the moieties connected thereby such that the compound (1) is incapable of metabolizing to BCPP+ like species, (2) has an affinity for the D2 receptor subtype of 15<D2<250 and (3) functions as a dopamine receptor antagonist, or the structural formulae: wherein: R1 is H, or —(CH2)n—OH, n is an integer from 0 to 2, B is an aza- or diaza-bicyclo group, which effectively maintains the distance between the moieties connected thereby such that the compound is incapable of metabolizing to BCPP+ like species; and Z is —CH— or N; and pharmaceutically acceptable salts, esters, derivatives, metal complexes, conjugates and prodrugs thereof.
    Type: Grant
    Filed: September 7, 2004
    Date of Patent: April 20, 2010
    Assignee: Florida A&M University
    Inventors: Seth Y. Ablordeppey, Donald M. N. Sikazwe