KR102344039B1 - Radiofrequency coil device for functional magnetic resonance imaging - Google Patents

Abstract

The present invention relates to a radio frequency coil device for performing functional magnetic resonance imaging in both a supine position (face-up position) and a prone position (face-down position) of a patient in functional MR imaging. , A coil housing ( 310; A bracket 321 for mounting an inspection mechanism provided in the coil housing 310; A base 330 on which the coil housing 310 is seated to horizontally support the coil housing 310; The base It is provided on the 330 and includes a fixing fixture 340 to wrap and fix the patient's head.

Description

Radiofrequency coil device for functional magnetic resonance imaging

The present invention relates to a radio frequency coil device capable of performing functional MR imaging in both a supine position (face-up position) and a prone position (face-down position) in functional MR imaging.

Functional magnetic resonance imaging (fMRI) is a technique that indirectly measures brain activity. When nerve cells are active, they consume more oxygen than when they are at rest. By measuring the amount (saturation) of oxygen transported through it, it can be confirmed which part is actively processing the signal, which is called 'Blood-Oxygen-Level Dependent contrast'. fMRI detects this bold signal, allowing us to determine which brain regions are more active under which conditions (experimental conditions).

By using the contrast by blood oxygen level, that is, the bold contrast technique, it is possible to know which brain parts are involved in which cognitive process, and this kind of research is called 'mapping' research. To this end, the experimenter lays down in the fMRI equipment and performs the cognitive task (stimulation task) given in the experiment. For example, the experiment participant memorizes and memorizes the numbers presented in sequence through a monitor installed in the fMRI, and the researcher takes pictures of the brain through the fMRI device while the participant performs these actions, and analyzes the bold data obtained during this process. Therefore, research on cognitive processes is conducted with which part of the brain consumed a lot of oxygen while performing a given task.

In general, when taking functional magnetic resonance imaging, the subject (patient) is in a supine position looking up, and the blood flow to the head (CBF, Cerebral Blood Flow) that changes due to external stimuli, A case in which a stimulus such as oxygen consumption (CMRO2, Cerebral Metabolic rate of Oxygen) and a blood flow volume (Cerebral Blood Volume) is present (Onset) and when a stimulus is not present (Offset) is relatively compared.

On the other hand, when functional MR imaging is performed in a prone position (prone position), a difference in blood flow due to gravity is brought about. It is expected that information on the difference can be utilized by performing

However, radio frequency coils for general magnetic resonance imaging are designed to be performed in a lying position, so it is very inconvenient to retake the image after changing the position to a prone position.

US Patent No. US6.316.941 (Patent date: 2011.11.13.)

An object of the present invention is to provide a radio frequency coil device that allows a patient to perform functional magnetic resonance imaging in both a supine position and a prone position.

A radio frequency coil according to an aspect of the present invention for achieving this object, a pair of first and second end rings disposed side by side spaced apart; In the radio frequency coil device comprising a plurality of legs connected to the first and second end rings provided with a capacitor to have a resonant frequency, any one of the first and second end rings has an end of each of the legs A radio frequency coil, characterized in that it is provided with a fitting portion to which the fitting assembly is made so that each of the legs can be separated from any one of the first and second end rings.

A radio frequency coil according to another aspect of the present invention, a pair of first and second end rings disposed side by side spaced apart; A plurality of closed-loop coils are arranged to have a cylindrical structure of a certain radius to have a resonant frequency, and each closed-loop coil is fitted with each other so that left and right separations are possible with respect to the central axis (z) of the cylinder.

Next, a radio frequency coil device according to an embodiment of the present invention,

a radio frequency coil having a cylindrical structure having a central axis (z) in the direction of the main magnetic field and capable of separating left and right in the central axis direction; a coil housing having a cylindrical shape in which the radio frequency coil is accommodated, and capable of being separated from left and right with respect to the central axis of the cylinder (z); a bracket for mounting an inspection mechanism provided in the coil housing; a base on which the coil housing is seated to horizontally support the coil housing; It is provided on the base and includes a fixing jig to wrap and fix the patient's head.

The radio frequency coil device according to the present invention is configured such that the radio frequency coil having a cylindrical structure can be separated left and right in the central axis direction. There is an effect that the filming of the video can be made.

1 and 2 are perspective views of a radio frequency coil according to a first embodiment of the present invention;
3 and 4 are a perspective configuration diagram of a radio frequency coil according to a second embodiment of the present invention;
5 is an exploded perspective view of a radio frequency coil device according to an embodiment of the present invention;
6 and 7 are views showing an example of use of a radio frequency coil device according to an embodiment of the present invention.

Specific structural or functional descriptions presented in the embodiments of the present invention are only exemplified for the purpose of describing embodiments according to the concept of the present invention, and the embodiments according to the concept of the present invention may be implemented in various forms. In addition, it should not be construed as being limited to the embodiments described herein, and it should be understood to include all modifications, equivalents and substitutes included in the spirit and scope of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 and 2 are perspective diagrams of a radio frequency coil according to a first embodiment of the present invention, and FIGS. 1 and 2 show the radio frequency coil in a separate state and an assembled state, respectively.

Referring to FIG. 1 , the radio frequency coil of this embodiment is connected between a pair of first and second end rings 110 and 120 and the first end ring 110 and the second end ring 120 . It has the same structure as a general cage-type coil including a plurality of legs 130 . In particular, in the present invention, each leg 130 is characterized in that it is detachably assembled to the first end ring 110 or the second end ring 120, and in FIG. 1, the second end ring 120 is a leg ( It shows that the fitting part 121 is provided at the position where 130) is assembled.

The first and second end rings 110 and 120 are spaced apart from each other and arranged side by side, and a plurality of legs ( 130) is attached to both ends. The two end rings 110 and 120 and each leg 130 are provided with capacitors to have a resonant frequency.

In this embodiment, the second end ring 120 is provided with a fitting portion 121 at a position where each leg 130 is attached, so that the end of each leg 130 is assembled by being fitted with the fitting portion 121 , thus The second end ring 120 and each leg 130 can be separated left and right with respect to the cylindrical central axis (z).

It is also assembled so that it can be easily disassembled. 2 shows a state in which the second end ring 120 and each leg 130 are assembled.

As described above, the cage-type coil from which the second end ring 120 is detachable is provided as a quadrature driving coil by connecting a current application cable to the first end ring 110 at a position spaced apart by 90° from each other. It can be used as a coil for transmitting (Tx) and receiving (Rx).

3 and 4 is a perspective configuration diagram of a radio frequency coil according to a second embodiment of the present invention, and FIGS. 3 and 4 show the radio frequency coil in a separated state and an assembled state, respectively.

As shown in FIG. 3 , in the radio frequency coil of this embodiment, a plurality of closed loop coils 210 having the same shape are arranged to have a cylindrical structure of a certain radius, and each closed loop coil 210 has a cylindrical shape. It is characterized in that it is fitted with each other so that left and right separation is possible with respect to the central axis (z).

Each closed loop coil 210 has a substantially rectangular shape as a whole, and each closed loop coil 210 includes a first segment coil 211 and a second segment coil 212 , and a first segment coil 211 . And the second segment coil 212 is provided with connector terminal portions 211a and 212a capable of male and female coupling at each end, and the corresponding connector terminals 211a and 212a are fitted and assembled to form one closed loop coil 210. make up

The closed loop coils 210 are arranged to have a cylindrical structure at equal intervals from each other, and each may be arranged in an overlapping form with a predetermined interval in order to minimize mutual inductance of spatially existing magnetic fields. A cable is connected to the output of each closed loop coil 210, and a preamplifier having a low input impedance is connected to the final end of the cable, so that it can be used as a multi-channel receive-only coil. 4 shows a state in which the first segment coil 211 and the second segment coil 212 constituting each closed loop coil 210 are coupled.

5 is an exploded perspective view of a radio frequency coil device according to an embodiment of the present invention.

Referring to FIG. 5 , the radio frequency coil device of this embodiment includes a coil housing 310 in which the radio frequency coil illustrated in the previous embodiments is accommodated, and a bracket 321 for mounting an inspection mechanism provided in the coil housing 310 . ), a base 330 for horizontally supporting the coil housing 310, and a fixing fixture 340 provided on the base 330 to wrap and fix the patient's head.

The coil housing 310 has an overall cylindrical shape and accommodates the radio frequency coil of the previous embodiment, and as described above, the coil housing 310 is separated from left and right with respect to the cylindrical central axis (z) together with the coil accommodated therein. is possible For example, the coil housing 310 may have a structure in which the second end ring housing 312 can be separated separately, and a protrusion for male and female assembly may be provided at the detachable portion.

The coil housing 310 is provided with an inspection instrument mounting bracket 321 at one end, and the inspection instrument mounting bracket 321 is a mirror or eyeball for generating optic nerve stimulation to the patient during a functional magnetic resonance imaging process. An eye tracker is installed. The inspection instrument mounting bracket 321 can be bent or manipulated according to the eye level or posture of the patient. Reference numeral 322 denotes a mirror fixing bracket fixed to the coil housing 310 for stimulation of the optic nerve, and a mirror fixing bracket may be provided separately from the inspection instrument mounting bracket.

The base 330 is inclined to be in close contact with the outer peripheral surface of the coil housing 310 for firmly supporting the coil housing 310 in a cylindrical shape, preferably, the coil housing 310 is seated thereon to fix the coil housing 310 . A fixing block 331 having a support surface may be provided.

The fixing fixture 340 is provided on the base 330 to cover and fix the patient's head, and the patient's head is fixed in an appropriate position when taking images of the prone and supine positions. Preferably, the fixing jig 340 has a semi-circular arc-shaped seating portion 341a formed thereon and includes a movable plate 341 provided on the base 330 to be movable in the front-rear direction (z), and the movable plate 342 . It includes a head fixing plate 342 that is fixed vertically to surround the patient's head.

The movable plate 341 is provided with a seating portion 341a having a semi-circular arc shape at an upper end thereof, and the seating portion 341a fixes the forehead or the back of the head according to the posture of the patient.

6 and 7 are views showing an example of use of a radio frequency coil device according to a third embodiment of the present invention, and FIGS. 6 and 7 show the radio frequency coil device in a lying position and a prone position, respectively.

6 and 7 , the experiment is performed in a state in which the patient's head is positioned in the coil housing 310 seated on the base 330 and fixed by the fixing fixture 340 . On the other hand, when changing to a supine position or a prone position, the position or direction of the mirror or eye tracking device must be changed according to the change of posture. It is possible to easily change the posture, and after that, the separated coil can be recombined to proceed with the next experiment.

The present invention described above is not limited by the above-described embodiments and the accompanying drawings, and it is common in the technical field to which the present invention pertains that various substitutions, modifications and changes are possible within the scope without departing from the technical spirit of the present invention. It will be clear to those who have the knowledge of

110: first end ring 120: second end ring
130: leg 310: coil housing
321: Bracket for mounting inspection equipment
322: bracket for fixing mirror
330: base 340: fixed fixture

Claims (5)

a radio frequency coil having a cylindrical structure having a central axis (z) in the direction of the main magnetic field and capable of separating left and right in the central axis direction;
a coil housing having a cylindrical shape in which the radio frequency coil is accommodated, and capable of being separated from left and right with respect to a cylindrical central axis (z);
a bracket for mounting an inspection mechanism provided in the coil housing;
a base on which the coil housing is seated to horizontally support the coil housing;
It includes a fixing fixture provided on the base to wrap and fix the patient's head,
The radio frequency coil may include a pair of first and second end rings spaced apart from each other in parallel; A capacitor is provided so as to have a resonant frequency and includes a plurality of legs connecting the first and second end rings, wherein any one of the first and second end rings has a fitting portion in which each end of the leg is fitted and assembled. It is provided so that each of the legs is a radio frequency coil device, characterized in that the detachable from any one of the first and second end rings. a radio frequency coil having a cylindrical structure having a central axis (z) in the direction of the main magnetic field and capable of separating left and right in the central axis direction;
a coil housing having a cylindrical shape in which the radio frequency coil is accommodated, and capable of being separated from left and right with respect to a cylindrical central axis (z);
a bracket for mounting an inspection mechanism provided in the coil housing;
a base on which the coil housing is seated to horizontally support the coil housing;
It includes a fixing fixture provided on the base to wrap and fix the patient's head,
wherein the radio frequency coil is arranged so that a plurality of closed loop coils have a cylindrical structure with a certain radius, and each closed loop coil is fitted with each other so that left and right separation is possible with respect to the central axis (z) of the cylinder radio frequency coil device. 3. The method of claim 2, wherein the closed loop coil has a rectangular shape as a whole, and each closed loop coil is composed of a first segment coil and a second segment coil, and the first segment coil and the second segment coil are at each end. A radio frequency coil device, characterized in that male and female connector terminals are provided, and connector terminals corresponding to each other are fitted between each segment coil to form one closed loop coil. delete According to claim 1 or 2, The fixing fixture,
a movable plate having a semi-circular arc-shaped seating portion formed on the upper end and movable in the front-rear direction on the base;
A radio frequency coil device comprising a head fixing plate that is vertically fixed to the movable plate and surrounds the patient's head.

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