Abstract: A cervical cell collection device, kit and method for the collection of cervical cells is provided. In some embodiments, the cervical cell collection device comprises an outer guide assembly having a distal end section with an aperture there through; an inner assembly positioned within the outer guide assembly, the inner assembly having a distal end with a collapsible collection pad secured thereto by a flexible collection support, wherein the inner assembly is movable from a first position where the collection pad is folded inside distal end section of the outer guide assembly to a second position where the collection pad is pushed through the aperture in the distal end of the outer guide assembly where it expands to contact and collect cervical cells.
Abstract: A cervical cell collection device, kit and method for the collection of cervical cells is provided. In some embodiments, the cervical cell collection device comprises an outer guide assembly having a distal end section with an aperture there through; an inner assembly positioned within the outer guide assembly, the inner assembly having a distal end with a collapsible collection pad secured thereto by a flexible collection support, wherein the inner assembly is movable from a first position where the collection pad is folded inside distal end section of the outer guide assembly to a second position where the collection pad is pushed through the aperture in the distal end of the outer guide assembly where it expands to contact and collect cervical cells.
Abstract: Systems and methods for detection of analytes by production of electrochemical species are provided. Some embodiments of this invention relate generally to carbon biosensors for detecting an analyte in a biological sample. More specifically, this invention relates generally to immunoassays for detection of analytes utilizing electroactive compounds, and more particularly, relates to diagnostic assays based on signals from electroactive chemical undergoing redox cycling on electrosensor consisting of carbon, to detect analytes wherein a precomplex mixture is formed and a multi-step, or single-step, assay is performed, resulting in greater signal.
Type:
Grant
Filed:
May 26, 2016
Date of Patent:
June 2, 2020
Assignee:
OncoGenesis, Inc.
Inventors:
Peter P. Gombrich, Nam W. Kim, Christopher E. Todd