Patents Assigned to The University of Cincinnati
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Patent number: 10386628Abstract: A method for manufacturing an electrofluidic device comprising the steps of providing a first plate with features for holding a first fluid, filling a first fluid into features on a first plate; providing a second plate and sealing a second plate onto the first plate forming stacked plates with at least one cavity between the plates, and leaving at least one fill port for a second fluid. Thereafter, the stacked plates are cooled to increase the viscosity of the first fluid so that the first fluid maintains a fixed position as a second fluid is filled into the cavity. Methods are disclosed.Type: GrantFiled: February 28, 2017Date of Patent: August 20, 2019Assignee: University Of CincinnatiInventors: Kenneth A. Dean, Jason Charles Heikenfeld, Kaichang Zhou, Hari Mukunda Atkuri, Wyatt Austin Black Rodgers
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Patent number: 10368847Abstract: A sweat sensing device includes a plurality of sweat collection pads communicating with a sensor. Each of the pads is activated by a timing circuit which allows one or more of the pads to be activated at a selected time and subsequent deactivated after a defined period of time. This allows for selective collection of sweat from a plurality of pads over a prolonged period of time. An impedance measuring circuit can be employed to determine if one or more of the pads becomes disconnected, in order to avoid irritation. Further, the devices can use a common microfluidic device which both transports sweat activating substance, such as pilocarpine, to the surface of the skin and directs sweat away from the skin to a sensing device.Type: GrantFiled: March 29, 2018Date of Patent: August 6, 2019Assignee: University of CincinnatiInventors: Jason Charles Heikenfeld, Zachary Cole Sonner
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Publication number: 20190192000Abstract: The invention addresses confounding difficulties involving continuous sweat analyte measurement. Specifically, the present invention provides: at least one component capable of monitoring whether a sweat sensing device is in sufficient contact with a wearer's skin to allow proper device operation; at least one component capable of monitoring whether the device is operating on a wearer's skin; at least one means of determining whether the device wearer is a target individual within a probability range; at least one component capable of generating and communicating alert messages to the device user(s) related to: wearer safety, wearer physiological condition, compliance with a requirement to wear a device, device operation; compliance with a behavior requirement, or other purposes that may be derived from sweat sensor data; and the ability to utilize aggregated sweat sensor data that may be correlated with information external to the device to enhance the predictive capabilities of the device.Type: ApplicationFiled: February 24, 2019Publication date: June 27, 2019Applicant: University of Cincinnati, a University of the State of OhioInventors: Jason Heikenfeld, Daniel P. Rose, Ian Papautsky, Wenjing Kang, Xiao Wang, Michael Ratterman
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Publication number: 20190191998Abstract: The invention addresses confounding difficulties involving continuous sweat analyte measurement. Specifically, the present invention provides: at least one component capable of monitoring whether a sweat sensing device is in sufficient contact with a wearer's skin to allow proper device operation; at least one component capable of monitoring whether the device is operating on a wearer's skin; at least one means of determining whether the device wearer is a target individual within a probability range; at least one component capable of generating and communicating alert messages to the device user(s) related to: wearer safety, wearer physiological condition, compliance with a requirement to wear a device, device operation; compliance with a behavior requirement, or other purposes that may be derived from sweat sensor data; and the ability to utilize aggregated sweat sensor data that may be correlated with information external to the device to enhance the predictive capabilities of the device.Type: ApplicationFiled: February 24, 2019Publication date: June 27, 2019Applicant: University of Cincinnati, a University of the State of OhioInventors: Jason Heikenfeld, Daniel P. Rose, Ian Papautsky, Wenjing Kang, Xiao Wang, Michael Ratterman
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Publication number: 20190191999Abstract: The invention addresses confounding difficulties involving continuous sweat analyte measurement. Specifically, the present invention provides: at least one component capable of monitoring whether a sweat sensing device is in sufficient contact with a wearer's skin to allow proper device operation; at least one component capable of monitoring whether the device is operating on a wearer's skin; at least one means of determining whether the device wearer is a target individual within a probability range; at least one component capable of generating and communicating alert messages to the device user(s) related to: wearer safety, wearer physiological condition, compliance with a requirement to wear a device, device operation; compliance with a behavior requirement, or other purposes that may be derived from sweat sensor data; and the ability to utilize aggregated sweat sensor data that may be correlated with information external to the device to enhance the predictive capabilities of the device.Type: ApplicationFiled: February 24, 2019Publication date: June 27, 2019Applicant: University of Cincinnati, a University of the Stat e of OhioInventors: Jason Heikenfeld, Daniel P. Rose, Ian Papautsky, Wenjing Kang, Xiao Wang, Michael Ratterman
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Publication number: 20190192001Abstract: The invention addresses confounding difficulties involving continuous sweat analyte measurement. Specifically, the present invention provides: at least one component capable of monitoring whether a sweat sensing device is in sufficient contact with a wearer's skin to allow proper device operation; at least one component capable of monitoring whether the device is operating on a wearer's skin; at least one means of determining whether the device wearer is a target individual within a probability range; at least one component capable of generating and communicating alert messages to the device user(s) related to: wearer safety, wearer physiological condition, compliance with a requirement to wear a device, device operation; compliance with a behavior requirement, or other purposes that may be derived from sweat sensor data; and the ability to utilize aggregated sweat sensor data that may be correlated with information external to the device to enhance the predictive capabilities of the device.Type: ApplicationFiled: February 24, 2019Publication date: June 27, 2019Applicant: University of Cincinnati, a University of the State of OhioInventors: Jason Heikenfeld, Daniel P. Rose, Ian Papautsky, Wenjing Kang, Xiao Wang, Michael Ratterman
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Publication number: 20190183904Abstract: Provided herein is a method of diagnosing and treating a subject suffering from atopic dermatitis (AD), the method comprising: (a) obtaining a skin biopsy from a subject suspected of suffering from AD; (b) determining a level of RNA expression in the skin biopsy of genes selected from the 89ADGES gene panel; (c) comparing the determined level of RNA expression of the selected genes to the level of RNA expression of the selected genes in a reference sample comprising RNA expression products from normal healthy skin cells; (d) diagnosing the subject as suffering from AD when specific genes are up-regulated compared to the reference sample and when specific genes are down-regulated compared to the reference sample; and (e) treating the subject with a therapy effective for the treatment of AD. Methods of managing treatment of a subject suffering from AD are also provided.Type: ApplicationFiled: December 18, 2018Publication date: June 20, 2019Applicants: University of Cincinnati, Cincinnati Children's Hospital Medical CenterInventors: Debajyoti Ghosh, Tesfaye Mersha, Jonathan A. Bernstein
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Publication number: 20190175094Abstract: A sweat sampling and sensing device for sensing sweat on skin includes an analyte-specific sensor for sensing a first analyte in sweat; a sweat collector placed on or adjacent to skin with a plurality of pores or pathways for entry of sweat from skin into said sweat collector, said sweat collector at least partly defining a sweat volume between said analyte-specific sensor and the skin; and a pressure element capable of holding said sweat collector against the skin with a pressure and reducing the sweat volume between said sweat collector and the skin.Type: ApplicationFiled: July 3, 2017Publication date: June 13, 2019Applicants: University Of Cincinnati, Eccrine Systems, Inc.Inventors: Mark S. Ortiz, Kyle N. Stewart, Robert Roth, Jason Charles Heikenfeld
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Patent number: 10308942Abstract: Synthesis and pharmaceutical compositions of antibody-functionalized nanovesicles encapsulating ion channel knockout siRNA, and methods of treating autoimmune diseases associated with increased expression and/or hyperactivity of T cells by selectively targeting memory T cells with the nanoparticles, which deliver their siRNA cargo into the cytosol of the TM cell thus reducing ion channel expression and decreasing Ca2+ influx.Type: GrantFiled: August 22, 2017Date of Patent: June 4, 2019Assignees: University of Cincinnati, North Carolina Agricultural and Technical State UniversityInventors: Laura Conforti, Yeoheung Yun
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Publication number: 20190162805Abstract: A method and system for optimizing a magnetic resonance imaging (MRI) protocols to improve MRI value are described herein. An example method includes selecting an imaging sequence, selecting at least one objective function from a plurality of objective functions, simulating a relationship between controllable acquisition variables and the objective functions, trade-offing the influence of the controllable acquisition variables for MRI value in whole k-space acquisition to determine optimal acquisition condition, acquiring at least one MR image using the optimal acquisition condition, receiving or estimating outcomes related to the at least one MR image, and evaluating an MR image value for the MR image based on the outcomes.Type: ApplicationFiled: November 27, 2018Publication date: May 30, 2019Applicant: University of CincinnatiInventor: Jinghua Wang
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Patent number: 10301355Abstract: Short tri- and tetrapeptides according to the following Formula I Ar(CH2)mX1—X2—CO—X3—X4—X5-(Trp)n-NX6R are potent, selective agonists of melanocortin 1 receptor (MC1R). Provided herein are pharmaceutical compositions including Formula I peptide agonists of MC1R and methods of treating skin diseases and disorders that include administering to an individual in need thereof a therapeutic amount of a Formula I peptide. The peptides, pharmaceutical compositions, and methods described herein are useful in the treatment of diseases and disorders that benefit from agonism of MC1R, including melanoma, basal cell carcinoma, squamous cell carcinoma, porphyria, polymorphous light eruption, vitiligo, and solar urticaria.Type: GrantFiled: October 26, 2017Date of Patent: May 28, 2019Assignee: University of CincinnatiInventors: Zalfa A. Abdel-Malek, Leonid Koikov, James J. Knittel
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Publication number: 20190142309Abstract: The disclosed invention provides a biofluid collection device configured with an open microfluidic network, which facilitates nanoliter-scale biofluid collection and transport for biosensing applications. In one embodiment, a biofluid sensing device placed on the skin for measuring a characteristic of an analyte in sweat includes one or more biofluid sensors and a hexagonal open microfluidic network biofluid collector. The disclosed collector provides a volume-reduced pathway for sweat biofluid between the one or more sensors and sweat glands when the device is positioned on the skin. In another embodiment, a biofluid collector includes a network of microchannels comprising three or more repeatedly intersecting channels that provide redundant pathways for biofluid transport. Embodiments of the disclosed invention are also directed to highly stable peptide-based self-assembled monolayers (SAM) and methods of making the SAMs.Type: ApplicationFiled: November 30, 2018Publication date: May 16, 2019Applicants: Eccrine Systems, Inc., University of CincinnatiInventors: Jason Heikenfeld, Ryan Michael Norton, Nicholas Twine, Michael Charles Brothers
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Publication number: 20190127776Abstract: A high through-put screening method for identifying agents effective for inhibiting biofilm formation and/or killing established biofilm are disclosed. The method includes three tiers, and each tier includes three specific biological process assays. The tier levels are a primary screen, a confirmation screen, and a dose-response screen, and the biological process assays include assays for total bacterial growth, bacterial metabolic activity, and biofilm formation. The series of assays may be run once or more than once at each tier. A library of compounds is subject to tier A and only compounds meeting a primary parameter advance to tier B, and only tier B compounds meeting a confirmation parameter advance to tier C, and only tier C compounds meeting a dose-response parameter are identified as putative agents effective for inhibiting and/or eradicating a biofilm, further wherein the assays are conducted for each compound subject to the respective tier.Type: ApplicationFiled: December 18, 2018Publication date: May 2, 2019Applicants: University of Cincinnati, Government of the United States as Represented by the Secretary of the Air ForceInventors: Daniel J. Hassett, Thomas J. Lamkin, Warunya Panmanee, Deborah E. Taylor, Chloe J.A. Shea
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Patent number: 10265205Abstract: Methods for making a magnesium biodegradable stent for medical implant applications, using magnesium foil or pure magnesium or magnesium alloys that are biodegradable and performing a lithographic technique to configure the features and dimensions of the magnesium foil, and rolling the magnesium foil to form a cylinder.Type: GrantFiled: April 25, 2017Date of Patent: April 23, 2019Assignee: UNIVERSITY OF CINCINNATIInventors: Vesselin N. Shanov, Prabir Roy-Chaudhury, Mark J. Schulz, Zhangzhang Yin, Begona Campos-Naciff, Yang Wang
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Publication number: 20190111161Abstract: Compositions that include a phenol group conjugated to a lipid group to form a phenolic lipid. The lipid group may include a fluorophore and at least one lipid anchor. The lipid anchor may have a carbon number that ranges between 7 carbon atoms and 22 carbon atoms. Also, included are methods of making and using such phenolic lipids. Further included are methods of iodinating hydrophobic compounds such as phenolic lipids in aqueous based iodination protocols. Cosolvent formulations for use in such methods are also described.Type: ApplicationFiled: March 31, 2017Publication date: April 18, 2019Applicant: University Of CincinnatiInventors: Xiaoyang Qi, Koon Yan Pak, Brian D. Gray
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Publication number: 20190110778Abstract: A sweat sensing device includes a plurality of sweat collection pads communicating with a sensor. Each of the pads is activated by a timing circuit which allows one or more of the pads to be activated at a selected time and subsequent deactivated after a defined period of time. This allows for selective collection of sweat from a plurality of pads over a prolonged period of time. An impedance measuring circuit can be employed to determine if one or more of the pads becomes disconnected, in order to avoid irritation. Further, the devices can use a common microfluidic device which both transports sweat activating substance, such as pilocarpine, to the surface of the skin and directs sweat away from the skin to a sensing device.Type: ApplicationFiled: December 13, 2018Publication date: April 18, 2019Applicant: University Of CincinnatiInventors: Jason Charles Heikenfeld, Zachary Cole Sonner
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Patent number: 10258262Abstract: The invention addresses confounding difficulties involving continuous sweat analyte measurement. Specifically, the present invention provides: at least one component capable of monitoring whether a sweat sensing device is in sufficient contact with a wearer's skin to allow proper device operation; at least one component capable of monitoring whether the device is operating on a wearer's skin; at least one means of determining whether the device wearer is a target individual within a probability range; at least one component capable of generating and communicating alert messages to the device user(s) related to: wearer safety, wearer physiological condition, compliance with a requirement to wear a device, device operation; compliance with a behavior requirement, or other purposes that may be derived from sweat sensor data; and the ability to utilize aggregated sweat sensor data that may be correlated with information external to the device to enhance the predictive capabilities of the device.Type: GrantFiled: November 28, 2016Date of Patent: April 16, 2019Assignee: University of Cincinnati, A University of the State of OhioInventors: Jason Heikenfeld, Daniel P. Rose, Ian Papautsky, Wenjing Kang, Xiao Wang, Michael Ratterman
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Patent number: 10232019Abstract: Methods for treating hyperglycemia disorders in a subject in need thereof and pharmaceutical compositions for the treatment of hyperglycemia disorders are disclosed. The methods include administering an effective amount of apolipoprotein A-IV to the subject. Also disclosed are methods for substantially restoring glucose tolerance in a subject in need thereof to a normal level and methods for lowering blood glucose levels in a subject having hyperglycemic disorders, including insulin resistant disorders, such as prediabetes, metabolic syndrome, polycystic ovary disease, type A syndrome, gestational diabetes, and endocrine conditions associated with hyperglycemia, including Cushing's Disease, glucagon excess (glucagon secreting tumors) and acromegaly.Type: GrantFiled: November 21, 2012Date of Patent: March 19, 2019Assignee: University of CincinnatiInventors: Patrick Tso, Fei Wang, Sean Davidson, Stephen Woods
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Patent number: 10227897Abstract: The presently disclosed subject matter relates to enhanced dry-cooling systems and methods. More specifically, the presently disclosed subject matter relates to enhanced dry-cooling systems for increasing power plant efficiency and output. One embodiment of the present disclosure is directed to dry-cooling system for increasing power plant efficiency and output. The dry-cooling system comprises an air-cooled condenser and an air cooling system in fluid communication with the air-cooled condenser.Type: GrantFiled: September 25, 2015Date of Patent: March 12, 2019Assignee: University of CincinnatiInventor: Raj M. Manglik
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Publication number: 20190072547Abstract: A sensing device includes a sample loading chamber configured to receive a sample, a detection antibody drying or lyophilization chamber configured to receive a first portion of the sample, one or more substrate drying or lyophilization chambers configured to receive a second portion of the sample, and one or more reaction chambers connected to the detection antibody drying or lyophilization chamber and the one or more substrate drying or lyophilization chambers.Type: ApplicationFiled: August 31, 2018Publication date: March 7, 2019Applicant: University of CincinnatiInventors: Chong H. AHN, Sthitodhi Ghosh, Atreyee Chakraborty