Abstract: Various methods and systems are provided for a current trap. In one example, the current trap has a flat core made of a nonconductive material, a coiled wire having a plurality of turns winding around the flat spiral core, and one or more tuning capacitors physically attached to the flat core and electrically connected to the coiled wire to form a resonant circuit with the coiled wire.

Abstract: Various methods and systems are provided for radio frequency coil units for magnetic resonance imaging. In one example, a radio frequency (RF) coil unit for magnetic resonance imaging (MM) includes an outer layer forming an exterior of the RF coil unit, a pressure reservoir enclosed by the outer layer, wherein the pressure reservoir forms a sealed chamber, and an array of RF coil elements enclosed by the outer layer, wherein the array of RF coil elements is disposed outside of the sealed chamber of the pressure reservoir.

Abstract: Various methods and systems are provided for a current trap. In one example, the current trap has a flat core made of a nonconductive material, a coiled wire having a plurality of turns winding around the flat spiral core, and one or more tuning capacitors physically attached to the flat core and electrically connected to the coiled wire to form a resonant circuit with the coiled wire.

Abstract: Various methods and systems are provided for a current trap. In one example, the current trap has a spiral core made of a nonconductive material, a coiled wire having a plurality of turns wound around the spiral core, and one or more tuning capacitors physically attached to the spiral core and electrically connected to the coiled wire to form a resonance circuitry with the coiled wire.

Abstract: A method of producing an antibody fragment for a target antigen includes administering an immunizing mixture containing the target antigen to a cartilaginous fish for at least two times; collecting a blood sample from the cartilaginous fish; extracting RNAs from the blood sample; subjecting said RNAs to reverse transcription to obtain a complementary DNA, and optionally amplifying the cDNA to obtain a mixture of amplified cDNAs followed by purification. Also covered are methods of producing an antibody fragment from a shark; antibody fragments obtained from the method; a kit comprising antibody fragments; and methods of determining the presence and/or amount of a target antigen in a sample.

Abstract: Various methods and systems are provided for a current trap. In one example, the current trap has a spiral core made of a nonconductive material, a coiled wire having a plurality of turns wound around the spiral core, and one or more tuning capacitors physically attached to the spiral core and electrically connected to the coiled wire to form a resonance circuitry with the coiled wire.

Abstract: Various methods and systems are provided for radio frequency coil units for magnetic resonance imaging. In one example, a radio frequency (RF) coil unit for magnetic resonance imaging (MM) includes an outer layer forming an exterior of the RF coil unit, a pressure reservoir enclosed by the outer layer, wherein the pressure reservoir forms a sealed chamber, and an array of RF coil elements enclosed by the outer layer, wherein the array of RF coil elements is disposed outside of the sealed chamber of the pressure reservoir.

Abstract: An apparatus for decoupling a receive coil from a transmit coil includes a tuning circuit connected electrically with the receive coil and a MEMS switch connected electrically in parallel with the tuning circuit, and operable to line up or to bypass the tuning circuit by opening or closing the MEMS switch. The apparatus further includes a control circuit operatively connected with the MEMS switch and operable to open or to close the MEMS within a window of time responsive to energization of the transmit coil to transmit a signal.

Abstract: A method of producing an antibody fragment for a target antigen includes administering an immunizing mixture containing the target antigen to a cartilaginous fish for at least two times; collecting a blood sample from the cartilaginous fish; extracting RNAs from the blood sample; subjecting said RNAs to reverse transcription to obtain a complementary DNA, and optionally amplifying the cDNA to obtain a mixture of amplified cDNAs followed by purification. Also covered are methods of producing an antibody fragment from a shark; antibody fragments obtained from the method; a kit comprising antibody fragments; and methods of determining the presence and/or amount of a target antigen in a sample.

Abstract: The invention discloses a kelp-containing sponge biscuit and a manufacturing method thereof. The kelp-containing sponge biscuit comprises following raw materials in parts by weight: 100 parts of high-gluten flour; 10˜18 parts of white sugar; 30˜40 parts of beaten eggs; 0.5˜0.8 part of ammonium bicarbonate; 0.1˜0.3 part of sodium bicarbonate; 5˜15 parts of kelp powder and 12˜15 parts of water. The kelp-containing sponge biscuit further contains 0˜0.3 part of salt and 0˜5 parts of cream. Main steps of the manufacturing method of the kelp-containing sponge biscuit are as follows: weighing the high-gluten flour, the white sugar, the beaten eggs, the ammonium bicarbonate, the sodium bicarbonate, the kelp powder and the fresh water separately in parts by weight; mixing in order, stirring evenly to form a dough; tablet compressing boiling, cooling, draining and baking the dough, and obtaining the kelp-containing sponge biscuit with marine flavor and rich nutrients.

Abstract: An apparatus for decoupling a receive coil from a transmit coil includes a tuning circuit connected electrically with the receive coil and a MEMS switch connected electrically in parallel with the tuning circuit, and operable to line up or to bypass the tuning circuit by opening or closing the MEMS switch. The apparatus further includes a control circuit operatively connected with the MEMS switch and operable to open or to close the MEMS within a window of time responsive to energization of the transmit coil to transmit a signal.

Abstract: Systems and devices for transmitting radio frequency signals to and from radio frequency coils in magnetic resonance imaging systems are provided. In one embodiment, a balun for blocking induced radio frequency current on ground conductors of a multi-layer signal carrier includes first and second insulative elements disposed on first and second sides of the signal carrier, respectively, a conductive layer partially surrounding ends of each insulative element with a central region of each insulative element not surrounded by the respective conductive layer, first and second capacitive circuits coupled to the conductive layers of each respective insulative element in the central region thereof, vias extending through the signal carrier, and conductive material disposed in the vias electrically coupling a conductive layer on respective ends of the first and second elements with one another and with the ground conductors.

Abstract: Systems and devices for transmitting radio frequency signals to and from radio frequency coils in magnetic resonance imaging systems are provided. In one embodiment, a balun for blocking induced radio frequency current on ground conductors of a multi-layer signal carrier includes first and second insulative elements disposed on first and second sides of the signal carrier, respectively, a conductive layer partially surrounding ends of each insulative element with a central region of each insulative element not surrounded by the respective conductive layer, first and second capacitive circuits coupled to the conductive layers of each respective insulative element in the central region thereof, vias extending through the signal carrier, and conductive material disposed in the vias electrically coupling a conductive layer on respective ends of the first and second elements with one another and with the ground conductors.

Abstract: A phased array coil for a Magnetic Resonance Imaging (MRI) system is provided that includes a first coil, a second coil adjacent the first coil, and a third coil adjacent the second coil. The first, second and third coils are configured in a parallel arrangement in a left-right direction of the MRI system.

Abstract: A phased array coil for a Magnetic Resonance Imaging (MRI) system is provided that includes a first coil and a second coil adjacent the first coil. The first and second coils are configured in a shifted arrangement from a center of examination of the MRI system.

Abstract: A phased array coil for a Magnetic Resonance Imaging (MRI) system is provided that includes a first coil and a second coil adjacent the first coil. The first and second coils are configured in a shifted arrangement from a center of examination of the MRI system.

Abstract: A phased array coil for a Magnetic Resonance Imaging (MRI) system is provided that includes a first coil, a second coil adjacent the first coil, and a third coil adjacent the second coil. The first, second and third coils are configured in a parallel arrangement in a left-right direction of the MRI system.