KR101204219B1 - Arm and probe fixing apparatus for measuring blood vessel diameter - Google Patents

Abstract

The arm for endoscopic measurement and the ultrasonic probe fixing device according to the present invention include a support unit including a main plate, a support seated on the main plate, and a guide bar movably fixed to the support, and a straight line on the main plate. And a probe holding unit movably disposed.
The present invention enables the precise measurement of the measurement site during the vascular diameter measurement by using a guide bar arranged in the longitudinal direction of the arm requiring measurement and a pressurizing unit for pressurizing to prevent rocking of the arm seated on the guide bar. Let's do it.

Description

Arm and probe fixing apparatus for measuring blood vessel diameter

The present invention relates to an arm and an ultrasonic probe fixing device for measuring the endoscopic diameter, and in particular, even if there is an overall movement of the arm requiring the endoscopic measurement, the sensor module or the probe module coincides with the endoscopic measurement site and the fixed site. The present invention relates to an arm and an ultrasonic probe fixing device for measuring an inner diameter of a blood vessel to enable accurate measurement without departing from a portion set as a blood vessel measuring portion.

Arteriosclerosis is a cause of heart disease such as angina pectoris and myocardial infarction or brain-disease such as cerebral infarction or hemorrhage. On the other hand, in recent years as a progress of the study of the mechanism of the development of atherosclerosis, endothelial dysfunction of blood vessels is known to be involved in atherosclerosis and vascular aging at all stages of atherosclerosis, and monoxide, a bioactive substance released from endothelial cells of blood vessels Nitrogen (NO) is known to function to inhibit and regulate arteriosclerosis, such as expanding smooth muscle, inhibiting platelet aggregation and inhibiting monocyte adhesion to endothelial cells. Among these, the release function of nitric oxide is one of the most important blood vessel regulating functions of endothelial cells. The release of nitric oxide is controlled by sensing shear stress in endothelial cells.

As a method of non-invasive evaluation of endothelial function using the release function of the nitric oxide of these endothelial cells, a blood mediated dilation reaction (FMD) method using an ultrasonic diagnostic apparatus is known. Blood flow-dependent vasodilation reactions artificially give ischemic stimulation to peripheral tissues for a certain period of time, and then, immediately after stimulation is eliminated, blood flow increases compensatively. The method of determining endothelial cell function by measuring the extent of expansion of blood vessel diameter caused by an increase in the shear stress of the blood vessel wall and the increase of nitric oxide (NO), a vasodilation factor, from the vascular endothelial cells. to be.

Therefore, in order to accurately measure endothelial cell function through blood flow-dependent vasodilation, the arm of the human body should be firmly and comfortably fixed to the site designated as the measurement site for a certain period of time. However, conventionally, when using the arm of the human body as a measurement site, there was a method of fixing the entire arm. However, this method may have the disadvantage that the actual measurement site may not move because the actual measurement site and the fixed site do not coincide, and may affect the angiography by pressing the blood vessels of the arm because the arm is fixed as a whole. In addition, the average expansion of the vasodilator response increases by about 10% compared to the baseline, and the pulse beats, so the need for a firm fixation of the measurement site is absolute, given that the vessel diameter changes in the systolic and diastolic organs. . In addition, since the measuring part is the human body, it should be fixed comfortably.

Hereinafter, Japanese Patent Laid-Open No. 2007-268302 as a prior art will be described with reference to FIG. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a diagram schematically showing the configuration of a blood vessel measuring device. An FM image of a subject is measured by capturing an echo image of a blood vessel of a subject and measuring the diameter of the blood vessel based on the echo image. As a measurement, it is a mechanism which aims at adding a cuff pressure to the 1st site | part Af in the arm part of a subject, and hematopoietically smelting the 1st site, The cuff part 11 which becomes a hematopoietic cuff and the said cuff The cuff pressure control part 12 which controls the pressure in the part 11, and the base part 14 which mounted the 1st part Af of the arm part of a subject to be measured are provided.

Looking at the Japanese Laid-Open Patent, it can be seen that the cuff portion 11 is formed in a structure surrounding the arm portion that requires measurement as a whole, so that the state of blood vessels inside the arm can be measured through the echo probe and the ultrasonic launch unit. However, since the measurement is performed in the state where the cuff portion 11 covers most of the first portion Af of the arm, the measurement target portion may be relatively narrowed.

In addition, since the error of measurement data may occur even in the fine movement of the arm in the process of vascular diameter measurement, it is necessary to respond to this.

In order to solve the above problems, the present invention is in progress by using a guide bar arranged in the longitudinal direction of the arm requiring measurement and a pressurizing unit for pressurizing the arm to prevent rocking of the arm seated on the guide bar. An object of the present invention is to provide an arm and an ultrasonic probe fixing device for measuring an internal diameter of a blood vessel, which enables precise measurement of a measurement site.

In order to achieve the above object, the arm and the ultrasonic probe fixing device for endoscopic measurement according to the present invention include a main plate; A support unit including a support part seated on the main plate and a guide bar movably fixed to the support part; A probe fixing unit disposed on the main plate in a linear motion; And a plurality of pressurizing units rotatably mounted on the support.

The probe fixing unit may include a horizontal moving bar moving horizontally on the main plate, a vertical moving bar fixed to the horizontal moving bar so as to be movable vertically, and a probe holder fixed to the vertical moving bar.

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The support unit may further include a length adjusting unit connecting the support and the guide bar, and the length adjusting unit may be positioned to be parallel or inclined with respect to the main plate.

Preferably, the length adjusting part includes a hollow bush fixed to the support part, a length adjusting rod which is slidable through the inside of the bush, and one side is fixed to the guide bar, and a fixing screw fixing the length adjusting rod to the bush. can do.

The guide bar may be disposed on a pair of pairs at predetermined intervals, and a shock absorbing pad may be attached.

The pressure unit may include a pressure rod holder that is pivotally coupled to the support unit, a pressure rod that is linearly movable along a fastener formed in the pressure rod holder, and a pressure pad attached to an end of the pressure rod. can do.

As described above, the arm and the ultrasonic probe fixing device according to the present invention are pressurized to pressurize the guide bar disposed in the longitudinal direction of the arm requiring measurement and to prevent rocking of the arm seated on the guide bar. The use of the unit allows precise measurement of the measurement site during the endoscopic measurement.

In addition, the present invention has the advantage that even when the arm is fixed using the guide bar and the pressure unit can be measured without being limited to a portion of the inner vessel of the arm.

1 is a perspective view showing a blood vessel measuring device according to the prior art, and
Figure 2 is a perspective view showing the arm and ultrasonic probe fixing device for measuring the endoscopic diameter according to the present invention.

These and other objects, features and other advantages of the present invention will become more apparent by describing in detail preferred embodiments of the present invention with reference to the accompanying drawings. Hereinafter, with reference to the accompanying drawings will be described in detail the arm and the ultrasonic probe fixing device for measuring the endoscopic diameter according to an embodiment of the present invention.

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

Referring to Figure 2 looks at the overall configuration of the arm and ultrasonic probe fixing device 100 for measuring the endoscopic diameter according to the present invention.

The arm and the ultrasonic probe fixing device 100 for measuring the endoscopic diameter are disposed on the main plate 101 and the probe fixing unit 110 and the main plate 101 which are arranged to be linearly movable on the main plate 101. It includes a support unit 120 is mounted, and the pressing unit 130 is rotatably mounted on the support unit 120.

The probe fixing unit 110 may include a horizontal moving bar 112 moving horizontally on the main plate 101, a vertical moving bar 114 fixed to the horizontal moving bar 112 so as to be movable vertically, and a vertical moving bar ( And a probe holder 115 fixed to 14).

The horizontal movement bar 112 may linearly move on the main plate 101 by allowing the slide block 111 fixed at one end thereof to be horizontally moved along the slide rod 103 installed on the main plate 101. Both ends of the slide bar 103 are fixed to the support bar 102 installed vertically on one side of the main plate 101. Preferably, the slide bar 103 is used to prevent rotation of the slide block 111. It may be arranged in plurality in the vertical or horizontal direction.

The horizontal moving bar 112 and the vertical moving bar 114 are coupled through the fastening block 113. The fastening block 113 into which one side of the vertical moving bar 114 is inserted and fixed is used to move the horizontal moving bar 112. Along the vertical direction. Here, the first fastening portion 113a stops the movement between the horizontal moving bar 112 and the fastening block 113 at an arbitrary position. Meanwhile, the vertical moving bar 114 and the probe holder 115 are coupled through the second fastening part 117.

The probe holder 115 is a member in which a probe fastening hole 119 is formed, and a door 116 is disposed at one side thereof. The locking device 118 mounted on the probe holder 115 allows a measurement probe (not shown) installed in the probe fastening hole 119 to be fixed in a stable state through a through hole 116a formed at one side of the door 116. do.

The support unit 120 includes a support part 121 fixedly disposed on the main plate 101, a guide bar 122 movably fixed to an upper side of the support part 121, and the support part 121 and the guide bar. And a length adjusting part 123 connecting the 122.

The support part 121 has an upper end surface in an arc shape for seating of the measuring arm, and a plurality of supports 121 may be disposed at predetermined intervals along the length direction of the arm. As an example, as shown in FIG. 2, the support part 121 may have a structure in which a pair is disposed on both sides of the main plate 101.

A plurality of guide bars 122 may be disposed at predetermined intervals on the upper side of the support part 121. In an embodiment of the guide bar 122 arrangement, a pair may be installed to correspond to each other on the support part 121. That is, the guide bar 122 includes a first guide bar 122a disposed at one side and a second guide bar 122b disposed at the other side with respect to the center of the support part 121.

The guide bar 122 is a member in which the arm requiring measurement is directly seated, and a shock absorbing pad (not shown) may be attached to the inside of the guide bar 122 to mitigate an impact applied to the arm.

The length adjusting part 123 is a hollow bush 125 rotatably fixed to the support part 121, a length adjusting rod which is slidable through the inside of the bush 125, and one side of which is fixed to the guide bar 122 ( 124, and a set screw 126.

The guide bar 122 may be changed in position by the length adjusting part 123. For example, the first guide bar 122a is described below. The pair of length adjusting rods 124 extending and fixed from both sides of the first guide bar 122a respectively slide through the bush 125 individually. That is, the first guide bar 122a may be disposed in a state parallel to the main plate 101 or in an inclined state. The above structure is characterized in that the arm requiring measurement can be adjusted so as not to inconvenience to the subject while meeting the various arm shapes in the process of seating on the support unit 120. On the other hand, the fixing screw 126 is installed to penetrate through the side wall of the bush 125 and to be fixed by pressing the length adjusting rod 124 at a position where the fixing of the guide bar 122 is required.

The pressurizing unit 130 is a pressurizing rod cradle 131 which is pivotally coupled to the end of the support part 121, and a pressurizing rod arranged to be linearly movable along a fastener 131a formed at the pressurizing rod cradle 131. 133, a pressure pad 132 attached to the end of the pressure bar 133, and a stopper 134 to prevent the pressure rod 133 from shaking through the fastener 131a. The pressing rod holder 131 forms a structure that is disposed at both ends of the pair of support portions 121 as an embodiment has a structure in which four pressing units 130 are arranged on the main plate 101.

The operation principle of the pressurizing unit 130 is as follows. First, the pressure rod holder 131 can be set only to allow a reciprocating rotational movement only a predetermined section, the pressure unit 130 is guided to enable the movement of the arm into the arm and the ultrasonic probe fixing device 100 for measuring the vessel diameter The pressure unit 130 of the guide bar 122 is set in a state where the position of the bar 122 is set outside to the first position, and the arm is seated in the arm for measuring the vessel diameter and the ultrasonic probe fixing device 100. The state arrange | positioned inside can be set to a 2nd position.

After the arm requiring the measurement is seated on the guide bar 122 of the support unit 120, the pressure bar holder 131 is rotated around the end of the support 121 to move the pressure unit 130 in the first position. Change to the second position. Thereafter, as the pressure bar 133 moves along the fastener 131a formed on the pressure bar holder 131, the distance between the pressure pad 132 and the measurement part is adjusted. After the above gap adjustment is made, the stopper 134 is used to fix the position of the pressure bar 133.

As described above, the inventors of the present invention have an arm for measuring a blood vessel diameter and an ultrasonic probe fixing device 100 that pressurize a pressure bar to prevent rocking of a guide bar disposed in a length direction of an arm requiring measurement and an arm seated on the guide bar. And precisely measuring the measurement site during the vascular diameter measurement by using the pressure pad. In addition, the present invention reduces the restriction of the measurement site through pressurization of the minimum site against the arm seated through the pressure pad.

While preferred embodiments of the present invention have been described above, the present invention is not limited to the above-described specific embodiments. It will be apparent to those skilled in the art that numerous modifications and variations can be made in the present invention without departing from the spirit or scope of the appended claims. And equivalents should also be considered to be within the scope of the present invention.

100: arm and ultrasonic probe fixing device for measuring the endoscopic diameter
101: main plate
102: support bar
103: slide rod
110: probe holding unit
111: slide block
112: horizontal moving bar
113: fastening block
113a: first fastening portion
114: vertical moving bar
115: probe holder
116: door
117: second fastening portion
118: lock
119: probe fastening hole
120: support unit
121: support part
122: guide bar
122a: first guide bar
122b: second guide bar
123: length adjusting unit
124: length adjustment rod
125: bush
126: set screw
130: pressurization unit
131: pressure rod holder
131a: Fastener
132: pressure pad
133: pressure rod
134: Stopper

Claims (7)

A main plate;
A support unit including a support part seated on the main plate and a guide bar movably fixed to the support part;
A probe fixing unit disposed on the main plate in a linear motion; And
A plurality of pressing units rotatably mounted on the support
Including,
Arm and ultrasonic probe fixture for endoscopic measurement.
delete The method of claim 1,
The probe fixing unit,
A horizontal moving bar moving horizontally on the main plate, a vertical moving bar fixed to the horizontal moving bar so as to be movable vertically, and a probe holder fixed to the vertical moving bar,
Arm and ultrasonic probe fixture for endoscopic measurement.
The method of claim 1,
The support unit further comprises a length adjusting portion connecting the support and the guide bar, characterized in that the length adjusting portion to position the guide bar in a parallel or inclined state with respect to the main plate,
Arm and ultrasonic probe fixture for endoscopic measurement.
The method of claim 4, wherein
The length adjusting part includes a hollow bush rotatably fixed to the support part, a length adjusting rod which is slidable through the inside of the bush, and one side is fixed to the guide bar, and a fixing screw fixing the length adjusting rod to the bush. Characterized by
Arm and ultrasonic probe fixture for endoscopic measurement.
The method of claim 4, wherein
The guide bar is disposed on a pair at a predetermined interval on the support, characterized in that the buffer pad is attached,
Arm and ultrasonic probe fixture for endoscopic measurement.
The method of claim 1,
The pressurizing unit includes a pressurizing rod holder pivotally coupled to the support unit, a pressurizing rod arranged to be linearly movable along a fastener formed in the pressurizing rod holder, and a pressing pad attached to an end of the pressing rod. Made,
Arm and ultrasonic probe fixture for endoscopic measurement.

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