摘要:
The invention features methods for detecting the hydration state or vascular volume of a subject using a device capable of nuclear magnetic resonance (NMR) measurement. The methods involve exposing a portion of a tissue of the subject in vivo to a magnetic field and RF pulse from the device to excite hydrogen nuclei of water within the tissue portion, and measuring a relaxation parameter of the hydrogen nuclei in the tissue portion, the relaxation parameter being a quantitative measure of the hydration state or vascular volume of the subject as a whole. The invention also features devices and computer-readable storage media for per forming the methods of the invention.
摘要:
The invention features methods for detecting the hydration state or vascular volume of a subject using a device capable of nuclear magnetic resonance (NMR) measurement. The methods involve exposing a portion of a tissue of the subject in vivo to a magnetic field and RF pulse from the device to excite hydrogen nuclei of water within the tissue portion, and measuring a relaxation parameter of the hydrogen nuclei in the tissue portion, the relaxation parameter being a quantitative measure of the hydration state or vascular volume of the subject as a whole. The invention also features devices and computer-readable storage media for performing the methods of the invention.
摘要:
Systems, devices, and methods are provided for delivering chemical and electrical stimulation across one or more neural circuits. The systems, devices, and methods can also be used for sensing and recording specific neural activity. In certain embodiments, a system includes first and second fluid reservoirs, a manifold, and a delivery tube. The manifold may include first and second chambers therein. The first chamber may be in fluid communication with the first reservoir, and the second chamber may be in fluid communication with the second reservoir. The delivery tube may include a first conduit in fluid communication with the first chamber, a second conduit in fluid communication with the second chamber, and a third conduit configured to house an electrode therein. In this manner, a distal tip of the delivery tube is configured to be positionable adjacent to the one or more neural circuits for providing chemical and electrical stimulation thereto.