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Применить Всего найдено 6. Отображено 6.
15-09-2016 дата публикации

Nanoporous Bioelectrochemical Sensors for Measuring Redox Potential in Biological Samples

Номер: US20160266090A1
Автор: Rodney C. Daniels, Kevin R. Ward, Maryanne M. Collinson, DANIELS RODNEY C, WARD KEVIN R, COLLINSON MARYANNE M, Daniels Rodney C., Ward Kevin R., Collinson Maryanne M.
Принадлежит: THE REGENTS OF THE UNIVERSITY OF MICHIGAN

A bioelectrochemical sensor utilizing a nanoporous gold electrode. The bioelectrochemical sensor is suitable for measuring redox in biologic media while having increased resistance to biofouling as compared to conventional electrodes such as planar gold electrodes, due to greater exposed surface area of the three-dimentional ligature structure defining the nanopores. The nanopores have a pore size of 5-100 nm, preferably with an average pore size of less than 50 nm, and more preferably with an average pore size of less than 20 nm. 1. A bioelectrochemical sensor , comprising:a first electrode including a nanoporous precious metal; anda reference electrode.2. The bioelectrochemical sensor of claim 1 , the nanoporous precious metal of the first electrode being nanoporous gold.3. The bioelectrochemical sensor of claim 1 , the pores of the nanoporous precious metal of the first electrode having a pore size of 100 nm or less.4. The bioelectrochemical sensor of claim 3 , the nanoporous precious metal of the first electrode having an average pore size of less than 50 nm.5. The bioelectrochemical sensor of claim 3 , the nanoporous precious metal of the first electrode having an average pore size of less than 20 nm.6. The bioelectrochemical sensor of claim 1 , further comprising a counter electrode.7. The bioelectrochemical sensor of claim 1 , the reference electrode being a silver/silver chloride electrode.8. The bioelectrochemical sensor of claim 6 , the counter electrode being platinum.9. The bioelectrochemical sensor of claim 1 , in combination with a block having a microfluidic channel therein claim 1 , the microfluidic channel including a portion aligned with an exposed nanoporous region of the first electrode.10. A method for manufacturing a bioelectrochemical sensor comprising:providing a gold leaf;etching the gold leaf in an etching solution to impart a nanoporous region to the gold leaf;forming a nanoporous gold electrode from the etched gold leaf; andproviding a ...

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Номер записи: 1
02-01-2020 дата публикации

NANOPOROUS BIOELECTROCHEMICAL SENSORS FOR MEASURING REDOX POTENTIAL IN BIOLOGICAL SAMPLES

Номер: US20200003754A1
Автор: Collinson Maryanne M., Daniels Rodney C., Ward Kevin R.
Принадлежит:

A bioelectrochemical sensor utilizing a nanoporous gold electrode. The bioelectrochemical sensor is suitable for measuring redox in biologic media while having increased resistance to biofouling as compared to conventional electrodes such as planar gold electrodes, due to greater exposed surface area of the three-dimensional ligature structure defining the nanopores. The nanopores have a pore size of 5-100 nm, preferably with an average pore size of less than 50 nm, and more preferably with an average pore size of less than 20 nm. 1. A bioelectrochemical sensor , comprising: a plurality of gold coated strips;', 'an etched gold leaf disposed over a surface of the plurality of gold coated strips;', 'a strip of TEFLON tape disposed over the etched gold leaf, the TEFLON tape having a hole therethrough positioned over the etched gold leaf; and, 'a first electrode including a nanoporous precious metal, the nanoporous precious metal of the first electrode being nanoporous gold, the first electrode including'}a reference electrode.2. (canceled)3. The bioelectrochemical sensor of claim 1 , the pores of the nanoporous precious metal of the first electrode having a pore size of 100 nm or less.4. The bioelectrochemical sensor of claim 3 , the nanoporous precious metal of the first electrode having an average pore size of less than 50 nm.5. The bioelectrochemical sensor of claim 3 , the nanoporous precious metal of the first electrode having an average pore size of less than 20 nm.6. The bioelectrochemical sensor of claim 1 , further comprising a counter electrode.7. The bioelectrochemical sensor of claim 1 , the reference electrode being a silver/silver chloride electrode.8. The bioelectrochemical sensor of claim 6 , the counter electrode being platinum.9. The bioelectrochemical sensor of claim 1 , in combination with a block having a microfluidic channel therein claim 1 , the microfluidic channel including a portion aligned with an exposed nanoporous region of the first ...

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Номер записи: 2
29-10-2015 дата публикации

Miniature piezoelectric cardiovascular monitoring system

Номер: US20150305632A1
Автор: Ashwin Belle, Daniel Slavin, Kayvan Najarian, Kenn Oldham, Kevin R. Ward, Rodney C. Daniels, Sardar Ansari
Принадлежит: University of Michigan

The invention is a passive, wearable sensor that uses a thin piezoelectric material to produce a time history of blood pressure of the patient, with signal processing algorithms to extract physiological information. The sensor consists of a piezoelectric transducer set in a polymer laminate that can be applied to the finger or wrist of the patient. During use, a combination of compressive and bending deformation in the piezoelectric layer in response to blood pressure in the finger or wrist as a voltage output. Using signal processing techniques, the raw signal is filtered and decomposed to obtain a information to form derivative signals such as blood pressure, pulse pressure, pulse pressure variability, heart rate, heart rate variability, and respiratory rate which can be very important pre-cursors in the monitoring of the patient's physiological conditions.

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Номер записи: 3
24-09-2020 дата публикации

DIGITAL EXTERNAL VENTRICULAR DRAIN WITH INTEGRATED INTRACRANIAL PRESSURE MONITOR AND CEREBRAL SPINAL FLUID MONITOR/PRESSURE REGULATOR

Номер: US20200297982A1
Автор: Belle Ashwin, Daniels Rodney C.
Принадлежит:

A dependent closed pressure vessel is fluidly coupled to an independent closed pressure vessel. A pressure sensor monitors pressure in the vessels to generate raw pressure measurement data. A flow meter monitors multidirectional rate of flow of fluid between the vessels and the volume of fluid flowing from the independent closed pressure vessel to generate raw rate of flow and raw volume measurement data. A pressure/flow regulator valve adjusts pressure in the dependent closed pressure vessel in response to a pressure set point signal generated in response to the raw pressure data, adjusts the rate of flow of fluid between the vessels in response to a rate of flow set point signal generated in response to the raw rate of flow data, and adjusts the rate of flow of fluid between the vessels in response to a volume set point signal generated in response to the raw volume data. 1. A device comprising:a dependent closed pressure vessel fluidly coupled to an independent closed pressure vessel and adapted to collect fluid from the independent closed pressure vessel;a computing device;a pressure sensor operatively coupled to the computing device and adapted to monitor pressure in the independent closed pressure vessel and in the dependent closed pressure vessel, adapted to generate raw pressure measurement data from the monitored pressure and adapted to provide the raw pressure measurement data to the computing device; anda flow meter operatively coupled to the computing device and adapted to monitor multidirectional rate of flow of fluid between the independent closed pressure vessel and the dependent closed pressure vessel, adapted to measure the volume of fluid flowing from the independent closed pressure vessel, adapted to generate raw rate of flow and raw volume measurement data, and adapted to provide the raw rate of flow and volume measurement data to the computing device;wherein the computing device is adapted to generate a pressure set point signal in response to ...

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Номер записи: 4
06-04-2021 дата публикации

Nanoporous bioelectrochemical sensors for measuring redox potential in biological samples

Номер: US10969379B2
Автор: Kevin R. Ward, Maryanne M. Collinson, Rodney C. Daniels
Принадлежит: University of Michigan, Virginia Commonwealth University

A bioelectrochemical sensor utilizing a nanoporous gold electrode. The bioelectrochemical sensor is suitable for measuring redox in biologic media while having increased resistance to biofouling as compared to conventional electrodes such as planar gold electrodes, due to greater exposed surface area of the three-dimensional ligature structure defining the nanopores. The nanopores have a pore size of 5-100 nm, preferably with an average pore size of less than 50 nm, and more preferably with an average pore size of less than 20 nm.

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Номер записи: 5
08-10-2024 дата публикации

Digital external ventricular drain with integrated intracranial pressure monitor and cerebral spinal fluid monitor/pressure regulator

Номер: US12109378B2
Автор: Ashwin Belle, Rodney C. Daniels
Принадлежит: University of Michigan Medical School

A dependent closed pressure vessel is fluidly coupled to an independent closed pressure vessel. A pressure sensor monitors pressure in the vessels to generate raw pressure measurement data. A flow meter monitors multidirectional rate of flow of fluid between the vessels and the volume of fluid flowing from the independent closed pressure vessel to generate raw rate of flow and raw volume measurement data. A pressure/flow regulator valve adjusts pressure in the dependent closed pressure vessel in response to a pressure set point signal generated in response to the raw pressure data, adjusts the rate of flow of fluid between the vessels in response to a rate of flow set point signal generated in response to the raw rate of flow data, and adjusts the rate of flow of fluid between the vessels in response to a volume set point signal generated in response to the raw volume data.

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Номер записи: 6