Magnetic resonance imaging coated assembly
First Claim
1. A magnetic resonance imaging tracking assembly that comprises a medical device having a magnetic shield comprised of a layer of nanomagnetic material, means for contacting said magnetic shield with a first high frequency electromagnetic wave, means for modifying said first high frequency electromagnetic wave with said magnetic shield to produce a second high frequency electromagnetic wave, and means for transmitting said second high frequency electromagnetic wave from said layer of nanomagnetic material, wherein:
- said medical device is disposed within a biological organism,said nanomagnetic material has an average particle size of less than about 100 nanometers,said layer of nanomagnetic material has a saturation magnetization of from about 200 to about 26,000 Gauss,said layer of nanomagnetic material is disposed between said first high frequency electromagnetic wave and said medical device,said layer of nanomagnetic material has a thickness of less than about 2 microns,said first high frequency electromagnetic wave has a frequency of from at least 21 megahertz to about 128 megahertz.
1 Assignment
0 Petitions
Accused Products
Abstract
An assembly for shielding an implanted medical device from the effects of high-frequency radiation and for emitting magnetic resonance signals during magnetic resonance imaging. The assembly includes an implanted medical device and a magnetic shield comprised of nanomagnetic material disposed between the medical device and the high-frequency radiation. In one embodiment, the magnetic resonance signals are detected by a receiver, which is thus able to locate the implanted medical device within a biological organism.
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Citations
11 Claims
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1. A magnetic resonance imaging tracking assembly that comprises a medical device having a magnetic shield comprised of a layer of nanomagnetic material, means for contacting said magnetic shield with a first high frequency electromagnetic wave, means for modifying said first high frequency electromagnetic wave with said magnetic shield to produce a second high frequency electromagnetic wave, and means for transmitting said second high frequency electromagnetic wave from said layer of nanomagnetic material, wherein:
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said medical device is disposed within a biological organism, said nanomagnetic material has an average particle size of less than about 100 nanometers, said layer of nanomagnetic material has a saturation magnetization of from about 200 to about 26,000 Gauss, said layer of nanomagnetic material is disposed between said first high frequency electromagnetic wave and said medical device, said layer of nanomagnetic material has a thickness of less than about 2 microns, said first high frequency electromagnetic wave has a frequency of from at least 21 megahertz to about 128 megahertz.
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2. A magnetic resonance imaging tracking assembly that comprises a medical device having a magnetic shield, means for contacting said magnetic shield with a first electromagnetic wave, means for modifying said first electromagnetic wave with said magnetic shield to produce a second electromagnetic wave, and means for sensing said second electromagnetic wave wherein:
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said medical device is disposed with a biological organism, said magnetic shield is comprised of a layer of said nanomagnetic material, wherein; said layer of nanomagnetic material is disposed between said first electromagnetic wave and said medical device, said nanomagnetic material has an average particle size of less than about 100 nanometers, and said layer of nanomagnetic material has a saturation magnetization of from about 200 to about 26,000 Gauss and a thickness of less than about 10 microns. - View Dependent Claims (3, 4, 5, 6)
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7. A magnetic resonance imaging tracking assembly comprising:
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a medical device having a magnetic shield comprised of nanomagnetic material; means for contacting said magnetic shield with a first electromagnetic wave; means for modifying said first electromagnetic wave to produce a second electromagnetic wave; means for transmitting said second electromagnetic wave from the nanomagnetic material, and means for sensing said second electromagnetic wave; said layer of nanomagnetic material having a saturation magnetization of from about 200 to about 26,000 Gauss; said first electromagnetic wave having a frequency of from at least about 21 megahertz to about 128 megahertz. - View Dependent Claims (8, 9, 10, 11)
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Specification