US2017238986A1PendingUtilityA1

Selective delivery of cryogenic energy to intervertebral disc tissue and related methods of intradiscal hypothermia therapy

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Assignee: CARL ALLENPriority: Oct 30, 2000Filed: Jan 24, 2017Published: Aug 24, 2017
Est. expiryOct 30, 2020(expired)· nominal 20-yr term from priority
Inventors:Allen Carl
A61B 2018/0293A61B 2018/0262A61B 2018/0212A61B 2018/0022A61B 2017/00261A61B 2017/00092A61B 2090/378A61B 2090/374A61B 2018/00821A61B 2018/00714A61B 2018/00642A61B 2018/00339A61B 2018/00791A61B 18/02
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Claims

Abstract

The present invention relates to devices and methods for altering the tissue in and around an intervertebral disc through localised hypothermia therapy to restore function of the disc and reduce pain. Hypothermia therapy is defined as the reduction of tissue temperature to below that of the equilibrium temperature. Target therapeutic temperatures and times are varied according to the desired treatment effect. Intended effects of hypothermia of the intervertebral disc include cellular disruption leading to cell death and or structural and chemical denaturation within the anulus fibrosus, nucleus pulposus, or nerve fibers, temporary or permanent deadening of the nerves within or surrounding the disc, induction of a healing response, angiogenesis, or accelerated degeneration and/or drying of the nucleus pulposus and/or anulus fibrosus. Various effects can be achieved by reaching different temperatures for differing periods of time or by the proximity of the hypothermia therapy device to the treatment target. Accordingly, it is an object of one or more the embodiments of the invention to provide hypothermic therapy to selected locations within an intervertebral disc utilizing a flexible and guidable cryogenic device.

Claims

exact text as granted — not AI-modified
1 . A method for delivering cryogenic energy to an anatomical structure, the method comprising:
 forming a hole within the anatomical structure;   inserting a cryoprobe into said anatomical structure, wherein said cryoprobe comprises a distal tip and a cryogenic energy transmissive region located proximate to said distal tip;   activating said cryogenic energy transmissive region; and   delivering cryogenic energy for one or more time periods, wherein at least one of the quantity and directionality of said cryogenic energy may be regulated.

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