Implantable, intracranial-pressure sensor
First Claim
1. An implantable intracranial pressure sensor comprising a unitary body member (1) having a central deformable diaphragm portion (3) supported at its periphery by an integral, essentially undeformable guard ring portion (2), said body member being of a non-magnetic material and said guard ring portion being of a greater thickness than said diaphragm portion, so as to define a cavity bounded by said guard-ring portion and said diaphragm portion, said body having a continuous transducing side defined by said diaphragm portion and said guard-ring portioncover means secured to said body member for sealing said cavity opposite said diaphragm portion,a deformation detector (5) within said cavity and associated with said diaphragm for emitting an electrical signal as a function of the deformation of said diaphragm,a plurality of leads connected to said detector for transmitting said electrical signal,said non-magnetic material having mechanical properties of elasticity matched with the dimensional properties of said diaphragm portion such that in each sectional plane of said diaphragm portion, the maximum deflection of said diaphragm portion relative to the length thereof in said plane upon application of a uniform relative pressure of 30 kilopascals is between 0.01 and 0.03, andsaid deformation detector comprising a strain gauge (5) applied against said diaphragm and within said cavity.
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Accused Products
Abstract
The invention relates to a pressure sensor implanted into the skull to emit an electrical signal representing the intra-cranial pressure; this sensor is of the type which includes on one hand a test body (1) comprising a deforming diaphragm (3) and of an undeforming guard ring (2), and on the other hand a deformation detector (5) associated with the diaphragm; the test body (1) is made of an integral piece, in particular plastic, and has a continuous front side (1a) which preferably is planar; the mechanical and dimensional properties of the constituent plastic are matched in such a manner that under the maximum pressure of 30 kilopascals, the diaphragm deflection is within a predetermined range; within this range, the dura mater pressed by the sensor transmits faithfully the intracranial pressure with adequate sensitivity to employ a resistive type transducer which simultaneously is simple, rugged compact and economical.
101 Citations
8 Claims
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1. An implantable intracranial pressure sensor comprising a unitary body member (1) having a central deformable diaphragm portion (3) supported at its periphery by an integral, essentially undeformable guard ring portion (2), said body member being of a non-magnetic material and said guard ring portion being of a greater thickness than said diaphragm portion, so as to define a cavity bounded by said guard-ring portion and said diaphragm portion, said body having a continuous transducing side defined by said diaphragm portion and said guard-ring portion
cover means secured to said body member for sealing said cavity opposite said diaphragm portion, a deformation detector (5) within said cavity and associated with said diaphragm for emitting an electrical signal as a function of the deformation of said diaphragm, a plurality of leads connected to said detector for transmitting said electrical signal, said non-magnetic material having mechanical properties of elasticity matched with the dimensional properties of said diaphragm portion such that in each sectional plane of said diaphragm portion, the maximum deflection of said diaphragm portion relative to the length thereof in said plane upon application of a uniform relative pressure of 30 kilopascals is between 0.01 and 0.03, and said deformation detector comprising a strain gauge (5) applied against said diaphragm and within said cavity.
Specification