Implantable capsule for enhancing cell electric signals
First Claim
1. A method of making a capsule for surrounding an implantable living cell mass in a medium, to improve the detectability of an electrical signal produced between at least a first pole on the cell mass and at least a second pole on the cell mass, the capsule comprising a low-conductivity membrane portion for preventing a short circuit and increasing the electrical resistance between the poles to facilitate detection of the electrical signal, and a semi-permeable membrane portion being sufficiently porous to enable nutrients and waste materials to flow to and from the cell mass, comprising a method selected from one of methods (a), (b) and (c):
- a) forming the capsule of a low-conductivity material andi) masking the portion of the capsule which is to constitute the low-conductivity membrane; and
ii) forming pores in the unmasked portion of the capsule;
b) forming the capsule of semi-permeable material; and
coating the portion of the capsule constituting the low-conductivity membrane with a low-conductivity material;
orc) providing a low-conductivity cylinder for forming the low-conductivity membrane, andi) providing a semi-permeable material for forming the semi-permeable membrane; and
ii) bonding the low-conductivity cylinder to the semi-permeable material.
1 Assignment
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Accused Products
Abstract
A capsule for encapsulating implantable cells for improving the detectability of electrical signals generated by the cells is provided. The capsule includes a low-conductivity (high electrical resistance) membrane and a semi-permeable (low electrical resistance) membrane. The low-conductivity membrane seals around the circumference of the cell mass between the electrical poles of the capsule, and further extends for increasing the electrical resistance between the poles. The semi-permeable membrane enables nutrients and waste materials to flow to and from the cell mass. The semi-permeable membrane enclosed at least one of the poles of the cell mass, and cooperates with the low-conductivity membrane to completely enclose the cell mass. The low-conductivity membrane may enclose one of the poles, if desired. Electrodes are used to detect the electrical signals from the cell mass. Various methods of making the capsule are disclosed.
35 Citations
4 Claims
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1. A method of making a capsule for surrounding an implantable living cell mass in a medium, to improve the detectability of an electrical signal produced between at least a first pole on the cell mass and at least a second pole on the cell mass, the capsule comprising a low-conductivity membrane portion for preventing a short circuit and increasing the electrical resistance between the poles to facilitate detection of the electrical signal, and a semi-permeable membrane portion being sufficiently porous to enable nutrients and waste materials to flow to and from the cell mass, comprising a method selected from one of methods (a), (b) and (c):
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a) forming the capsule of a low-conductivity material and i) masking the portion of the capsule which is to constitute the low-conductivity membrane; and ii) forming pores in the unmasked portion of the capsule; b) forming the capsule of semi-permeable material; and
coating the portion of the capsule constituting the low-conductivity membrane with a low-conductivity material;
orc) providing a low-conductivity cylinder for forming the low-conductivity membrane, and i) providing a semi-permeable material for forming the semi-permeable membrane; and ii) bonding the low-conductivity cylinder to the semi-permeable material. - View Dependent Claims (2, 3, 4)
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Specification