Patents by Inventor Ashok Khandkar
Ashok Khandkar has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).
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Patent number: 11369696Abstract: A radio-opaque composition is formulated to enable a clinician to apply custom markings to a surface, such as a patient's skin or a surgical drape on the patient. More specifically, the radio-opaque composition may be used to write on the surface. The markings may be well-defined and contrast with the surface to which they are applied. Such a composition may include a liquid radio-opaque component that includes one or more radio-opaque materials that have been dissolved in a solvent, as well as a solid radio-opaque component with particles of one or more radio-opaque materials dispersed throughout a carrier, such as the solvent of the liquid radio-opaque component. Marking apparatuses that may be used to write with the radio-opaque composition are also disclosed, as are methods for using the radio-opaque composition.Type: GrantFiled: July 14, 2020Date of Patent: June 28, 2022Inventors: Prataprai R. Chowdhary, Ashok Khandkar
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Patent number: 10709800Abstract: A radio-opaque composition is formulated to enable a clinician to apply custom markings to a surface, such as a patient's skin or a surgical drape on the patient. More specifically, the radio-opaque composition may be used to write on the surface. The markings may be well-defined and contrast with the surface to which they are applied. Such a composition may include a liquid radio-opaque component that includes one or more radio-opaque materials that have been dissolved in a solvent, as well as a solid radio-opaque component with particles of one or more radio-opaque materials dispersed throughout a carrier, such as the solvent of the liquid radio-opaque component. Marking apparatuses that may be used to write with the radio-opaque composition are also disclosed, as are methods for using the radio-opaque composition.Type: GrantFiled: August 14, 2018Date of Patent: July 14, 2020Inventors: Prataprai R. Chowdhary, Ashok Khandkar
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Publication number: 20190046666Abstract: A radio-opaque composition is formulated to enable a clinician to apply custom markings to a surface, such as a patient's skin or a surgical drape on the patient. More specifically, the radio-opaque composition may be used to write on the surface. The markings may be well-defined and contrast with the surface to which they are applied. Such a composition may include a liquid radio-opaque component that includes one or more radio-opaque materials that have been dissolved in a solvent, as well as a solid radio-opaque component with particles of one or more radio-opaque materials dispersed throughout a carrier, such as the solvent of the liquid radio-opaque component. Marking apparatuses that may be used to write with the radio-opaque composition are also disclosed, as are methods for using the radio-opaque composition.Type: ApplicationFiled: August 14, 2018Publication date: February 14, 2019Inventors: Prataprai R. Chowdhary, Ashok Khandkar
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Patent number: 8754389Abstract: Radiation shields and radiation shielding systems for attenuating ionizing radiation include two or more attenuating elements, such as layers. The two or more attenuating elements may include different attenuating materials. The two or more attenuating elements may be configured to attenuate ionizing radiation differently than one another. In some embodiments, different attenuating elements may be configured for use with different energies or ranges of energies of ionizing radiation. The concurrent use of two or more layers or other attenuating elements may optimize the ability of a radiation shield to attenuating ionizing radiation. Systems and methods for attenuating ionizing radiation are also disclosed.Type: GrantFiled: December 10, 2012Date of Patent: June 17, 2014Assignee: BLOXR CorporationInventors: Ashok Khandkar, Prataprai R. Chowdhary
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Publication number: 20080033563Abstract: A total disc implant (TDI) is provided for total replacement of a spinal disc or discs in a human patient or other mammal, wherein the TDI is designed to maintain a substantially full range of natural motion (ROM) following implantation. The TDI generally comprises, in one preferred form, upper and lower end plates for affixation to adjacent vertebral bodies, with an intervening insert disposed therebetween. The end plates each include elongated part-cylindrical surfaces oriented generally perpendicular to each other, with one of said surfaces extending in an anterior-posterior direction and the other extending in a medial-lateral direction. The intervening insert defines concave upper and lower part-cylindrical seats oriented for respectively engaging these part-cylindrical surfaces, wherein these part-cylindrical seats are defined by offset radii to include a somewhat flattened central base region merging smoothly with upwardly curving radiused sides.Type: ApplicationFiled: September 19, 2007Publication date: February 7, 2008Applicant: AMEDICA CORPORATIONInventors: Ashok Khandkar, Darrel Brodke, Ramaswamy Lakshminarayanan
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Publication number: 20060276788Abstract: An improved spinal fixation system is provided for human implantation, including a set of screws with interconnecting rods for implantation into the pedicle and between two adjacent vertebrae or a plate with screws for fixating two adjacent vertebrae. The screws, rods, and plates include a substrate portion of high strength biocompatible material and a controlled porosity analogous to natural bone. The substrate portion may be coated with a bio-active surface coating material such as hydroxyapatite or a calcium phosphate to promote bone ingrowth and enhanced bone fusion. Upon implantation, the fixation system provides a desired combination of mechanical strength together with osteoconductivity and bio-activity to promote bone ingrowth and fusion, as well as radiolucency for facilitated post-operative monitoring. The fixation system may additionally carry one or more natural or synthetic therapeutic agents for further promoting bone ingrowth and fusion.Type: ApplicationFiled: May 26, 2005Publication date: December 7, 2006Inventors: Bret Berry, Ashok Khandkar, Ramaswamy Lakshminarayanan
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Publication number: 20050273176Abstract: An improved hip prosthesis includes an acetabular cup bearing component constructed from a relatively hard and high strength ceramic material for articulation with a ball-shaped femoral head component which may be constructed from a compatible ceramic or metal material. In one form, the acetabular cup further includes a ceramic porous bone ingrowth surface adhered thereto for secure ingrowth attachment to natural patient bone.Type: ApplicationFiled: August 12, 2005Publication date: December 8, 2005Inventors: K. Ely, Ashok Khandkar, Ramaswamy Lakshminarayanan, Aaron Hofmann
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Publication number: 20050177238Abstract: An improved bone graft is provided for human implantation, bone graft includes a substrate block of high strength biocompatible material having a selected size and shape to fit the anatomical space, and a controlled porosity analogous to natural bone. The substrate block may be coated with a bio-active surface coating material such as hydroxyapatite or a calcium phosphate to promote bone ingrowth and enhanced bone fusion. Upon implantation, the bone graft provides a spacer element having a desired combination of mechanical strength together with osteoconductivity and osteoinductivity to promote bone ingrowth and fusion, as well as radiolucency for facilitated post-operative monitoring. The bone graft may additionally carry one or more natural or synthetic therapeutic agents for further promoting bone ingrowth and fusion.Type: ApplicationFiled: January 20, 2005Publication date: August 11, 2005Inventors: Ashok Khandkar, Bret Berry, Darrel Brodke, Ramaswamy Lakshminarayanan, Mahendra Rao
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Publication number: 20050107888Abstract: A ceramic-metal composite articulation is provided with substantial elimination of wear debris, wherein a ceramic material is provided with superior mechanical properties tailored for articulating with ceramic articulations having high flexural strength (greater than about 700 MPa), high fracture toughness (greater than about 7 MPam1/2) and a high Weibull modulus (greater than about 20), in comparison with presently available bio-ceramics such as alumina or zirconia. The mechanical property enhancement enables ceramic materials with greater reliability and significantly reduced in-vivo fracture risk to be obtained. Preliminary in-vitro wear performance, to several million cycles using established test protocols, of head/cup components in a prosthetic hip joint made from these ceramics also demonstrates the ultra low wear characteristics.Type: ApplicationFiled: December 21, 2004Publication date: May 19, 2005Inventors: Ashok Khandkar, Aaron Hofmann, Ramaswamy Lakshminarayanan
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Publication number: 20050090903Abstract: A ceramic-metal composite articulation is provided with substantial elimination of wear debris, wherein a ceramic material is provided with superior mechanical properties tailored for articulating with ceramic articulations having high flexural strength (greater than about 700 MPa), high fracture toughness (greater than about 7 MPam1/2) and a high Weibull modulus (greater than about 20), in comparison with presently available bio-ceramics such as alumina or zirconia. The mechanical property enhancement enables ceramic materials with greater reliability and significantly reduced in-vivo fracture risk to be obtained. Preliminary in-vitro wear performance, to several million cycles using established test protocols, of head/cup components in a prosthetic hip joint made from these ceramics also demonstrates the ultra low wear characteristics.Type: ApplicationFiled: November 12, 2004Publication date: April 28, 2005Inventors: Ashok Khandkar, Aaron Hofmann, Ramaswamy Lakshminarayanan
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Publication number: 20050049706Abstract: An improved bone graft is provided for human implantation, particularly such as a spinal fusion cage for implantation into the inter-vertebral space between two adjacent vertebrae. The improved spinal fusion cage includes a substrate block of high strength biocompatible material having a selected size and shape to fit the anatomical space, and a controlled porosity analogous to natural bone. The substrate block may be coated with a bio-active surface coating material such as hydroxyapatite or a calcium phosphate to promote bone in growth and enhanced bone fusion. Upon implantation, the fusion cage provides a spacer element having a desired combination of mechanical strength together with osteoconductivity and osteoinductivity to promote bone ingrowth and fusion, as well as radiolucency for facilitated post-operative monitoring. The fusion cage may additionally carry one or more natural or synthetic therapeutic agents for further promoting bone ingrowth and fusion.Type: ApplicationFiled: September 14, 2004Publication date: March 3, 2005Inventors: Darrel Brodke, Bret Berry, Ashok Khandkar, Ramaswamy Lakshminarayanan, Mahendra Rao