Method and apparatus for the control and monitoring of shape change in tissue
First Claim
1. An apparatus of electroforming tissue to reshape the tissue comprising:
- means for creating stress in the tissue to temporarily define and maintain a predetermined shape of the tissue;
means for monitoring the stresses in the tissue comprises a means for monitoring the color of the tissue as caused by electroplating a material thereon;
means for causing a direct current of a predetermined polarity to flow in the tissue to mediate the tissue while the created stress is present to permanently change shape of the tissue or material parameters of the tissue without necrosis or ablation; and
means for controlling the direct current flowing in the tissue according to the stresses therein.
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Accused Products
Abstract
A method of electroforming tissue comprises creating stress in the tissue; and causing a direct current to flow in the tissue to change the stress, strain, or intrinsic mechanical properties including shape of the tissue. Force is mechanically applied to the tissue to create external stresses or material parameters of the tissue are used to create internal stresses in the tissue by causing a current to flow in the tissue. The method further comprises the step of monitoring the stresses in the tissue and controlling the current flowing in the tissue according to the stresses therein by monitoring impedance, the optical properties, the pH, acoustic properties of the tissue, the gas formation in the tissue, the color of the tissue as caused by a chemical dye disposed therein or as caused by electroplating a material thereon.
71 Citations
3 Claims
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1. An apparatus of electroforming tissue to reshape the tissue comprising:
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means for creating stress in the tissue to temporarily define and maintain a predetermined shape of the tissue; means for monitoring the stresses in the tissue comprises a means for monitoring the color of the tissue as caused by electroplating a material thereon; means for causing a direct current of a predetermined polarity to flow in the tissue to mediate the tissue while the created stress is present to permanently change shape of the tissue or material parameters of the tissue without necrosis or ablation; and means for controlling the direct current flowing in the tissue according to the stresses therein.
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2. An apparatus of electroforming tissue to reshape the tissue comprising:
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means for creating stress in the tissue to temporarily define and maintain a predetermined shape of the tissue; means for causing a direct current of a predetermined polarity to flow in the tissue comprises means for applying voltage pulses of the same polarity to form a DC pulse train to mediate the tissue while the created stress is present to permanently change shape of the tissue or material parameters of the tissue without necrosis or ablation; and means for applying a voltage of predetermined polarity to obtain a predetermined bioeffect comprises means for applying a first sequence of voltage pulses of the same polarity and means for applying a second sequence of voltage pulses of the opposite polarity to form a complex DC pulse train.
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3. An apparatus of electroforming tissue to reshape the tissue comprising:
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means for creating stress in the tissue to temporarily define and maintain a predetermined shape of the tissue; means for causing a direct current of a predetermined polarity to flow in the tissue comprises means for applying voltage pulses of the same polarity to form a DC pulse train to mediate the tissue while the created stress is present to permanently change shape of the tissue or material parameters of the tissue without necrosis or ablation; means for applying a voltage of predetermined polarity to obtain a predetermined bioeffect comprises means for applying a first sequence of voltage pulses of the same polarity and means for applying a second sequence of voltage pulses of the opposite polarity to form a complex DC pulse train; and means for applying a first sequence and means for applying a second sequence of voltage pulses provide a net charge cancellation when integrated over an application time.
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Specification