KR20240113176A - Invasive blood pressure measurement device - Google Patents

Abstract

The present invention includes a fluid infusion tube, one end of which is formed by invasively entering the patient's interior; A sap supply unit that supplies sap to the sap injection pipe; A blood pressure sensor formed in the fluid infusion pipe and placed at the same location as the patient's heart or at an artery location where measurement is desired to measure the patient's blood pressure; and a fluid supply valve disposed spaced apart from the blood pressure sensor and controlling the supply of fluid supplied from the fluid supply unit.

Description

Invasive blood pressure measurement device}

The present invention relates to an invasive blood pressure measurement device, and more specifically, to an invasive blood pressure measurement device that measures and monitors a patient's blood pressure in real time.

Blood pressure is an important physiological indicator that contains a lot of information about cardiac output, vascular elasticity, and physiological changes of the patient.

There are two major ways to measure blood pressure: invasive and non-invasive. The invasive method is to continuously and accurately measure blood pressure by inserting a catheter into a blood vessel, and the non-invasive method is to mainly use a cuff. This is a method of measuring blood pressure by detecting sound or vibration while applying pressure. The non-invasive blood pressure measurement method cannot continuously monitor blood pressure, and differences may occur depending on the subjectivity of the measurer.

In addition, the difficulty in measuring blood pressure when it decreases below a certain level has emerged as a vulnerability as a monitoring method for critically ill patients. Therefore, when managing high-risk patients in the operating room or intensive care unit, arterial blood pressure can be continuously monitored, and arterial blood pressure can be continuously monitored. For gas analysis, many invasive methods are being used to collect arterial blood from time to time.

Referring to Figures 1 and 2, the conventional invasive blood pressure measurement device includes a zero stop cock (not shown), a blood pressure sensor (Transducer) (S), and a fast flush device (not shown) all in one. .

The blood pressure sensor (S) is installed at the top of the bed, that is, adjacent to the patient's head.

Referring to Figure 1, the patient is placed in a lying position on the bed, and the average arterial pressure measured by the blood pressure sensor (S) is measured to be 65 mmHg. Referring to Figure 2, the patient is placed in a sitting position on the bed. , the average arterial pressure measured by the blood pressure sensor (S) changed from 65 mmHg to 35 mmHg.

Referring to Figures 1 and 2, there is a relatively large change in blood pressure of about 7.6 mmHg for every 10 cm of change in the patient's position, and because of this, the invasive blood pressure measurement device measures the blood pressure, not the blood pressure of the heart, whenever the patient's position changes at the surgical site. Since blood pressure is measured in other body parts, there is a problem in that the position of the blood pressure sensor must be moved to the changed location of the patient's heart (Phlebostatic axis) or the location of the blood vessel that requires blood pressure measurement and remeasured.

In addition, in the case of surgical patients, the patient's position changes several times during the surgery, and most of the patient's body is covered with surgical cloths (disinfection cloths), making it difficult to confirm the position of the patient's right atrium, and the risk of infection during surgery. Because access to the bottom is difficult, it is difficult to accurately relocate the blood pressure sensor to the patient's right atrium.

Most patients who require invasive, real-time monitoring of blood pressure are critically ill or patients scheduled for serious surgery, such as those expected to suffer massive blood loss. These patients frequently undergo auscultation to check heart and lung sounds during surgery or hospitalization. However, in the case of surgical patients, the area is blocked with a surgical cloth, etc. as described above, and in the case of intensive care unit patients, it may be difficult to directly access the patient's chest due to problems such as infection.

Republic of Korea Patent No. 10-2127536 (Title of invention: Method and device for monitoring blood pressure measurement by arterial catheterization of a patient)

The present invention was created to solve the above problems, and its purpose is to provide an invasive blood pressure measurement device that can continuously and consistently monitor blood pressure at the heart location without moving the blood pressure sensor every time the patient's position changes. There is.

In addition, the purpose of the present invention is to enable auscultation of a patient's heart and lung sounds in real time using an auscultator attached to a blood pressure sensor.

The present invention includes a fluid infusion tube, one end of which is formed by invasively entering the patient's interior; A sap supply unit that supplies sap to the sap injection pipe; A blood pressure sensor formed in the fluid infusion pipe and placed at the same location as the patient's heart or at an artery location where measurement is desired to measure the patient's blood pressure; and a fluid supply valve disposed spaced apart from the blood pressure sensor and controlling the supply of fluid supplied from the fluid supply unit.

The blood pressure sensor can measure the patient's blood pressure using the pressure difference between the fluid and blood.

According to the invasive blood pressure measurement device according to the present invention, it may further include a first three-way valve installed in the fluid injection pipe between the patient and the blood pressure sensor.

According to the invasive blood pressure measuring device according to the present invention, it may further include a zeroing stop cock that is disposed adjacent to the blood pressure sensor installed on the patient and adjusts the atmospheric pressure to '0'.

According to the invasive blood pressure measuring device according to the present invention, the patient's arterial blood pressure (ABP: Artery Blood Pressure) can be measured after setting the atmospheric pressure to '0' using the zero stop cock.

The blood pressure sensor may be installed on the patient's chest to measure the patient's blood pressure.

The blood pressure sensor may be installed on a bed corresponding to the height of the patient's heart to measure the patient's blood pressure.

The blood pressure sensor is fixed to the patient's body and can constantly measure arterial pressure at a specific location regardless of changes in the patient's posture.

According to the invasive blood pressure measuring device according to the present invention, it is disposed between the blood pressure sensor and the fluid supply valve and further includes a flush device (Fast Flush Device) including a second three-way valve capable of collecting blood when examining the patient's arterial blood. You can.

The flush device can guide the fluid supplied from the fluid supply unit to the patient and remove blood or air bubbles remaining in the fluid injection tube after the arterial blood test.

According to the invasive blood pressure measurement device according to the present invention, it is connected to the blood pressure sensor and may further include an auscultation unit that auscultates the inside of the patient's body from the attachment surface of the blood pressure sensor disposed on the patient.

The auscultation unit may include an auscultation plate attached to the patient's body, and a connection tube connected to the auscultation plate.

The stethoscope may be attached to the location of the patient's heart or a specific rib cage region to auscultate the patient's heart sounds or lung sounds.

According to the invasive blood pressure measurement device according to the present invention, a blood pressure sensor is mounted at the position of the patient's heart in the preparation stage before a procedure or surgery in an operating room, intensive care unit, or emergency room, and the blood pressure sensor is repositioned even if the patient's position changes during the procedure or surgery. You can get your heart's blood pressure in real time.

In addition, according to the invasive blood pressure measurement device according to the present invention, the blood pressure sensor can be placed not only at the location of the patient's heart but also on the body part where blood pressure is to be measured to continuously measure arterial blood pressure in a specific area without being affected by changes in body position. .

In addition, according to the invasive blood pressure measuring device according to the present invention, the stethoscope can be mounted on the patient's chest area where auscultation is needed to auscultate heart sounds or lung sounds in a specific area.

Figures 1 and 2 are diagrams of a prior art invasive blood pressure measurement device, showing differences in heart blood pressure according to changes in patient position.
Figure 3 is a diagram showing an invasive blood pressure measurement device according to an embodiment of the present invention.
Figure 4 is a diagram showing the blood pressure sensor of Figure 3 installed on the patient's chest.
Figure 5 is a diagram showing the blood pressure sensor of Figure 3 installed on a bed.

The present invention has been described with reference to the embodiments shown in the drawings, but these are merely exemplary, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true scope of technical protection of the present invention should be determined by the technical spirit of the attached claims.

Figure 3 is a diagram showing an invasive blood pressure measurement device 100 according to an embodiment of the present invention.

Hereinafter, with reference to FIG. 3, the structure of the invasive blood pressure measurement device 100 according to an embodiment of the present invention will be described.

The invasive blood pressure measurement device 100 includes a fluid injection tube 110, a fluid supply unit 120, a blood pressure sensor 130, a fluid supply valve 140, a first three-way valve 150, and a zeroing stop cock. cock) (160), a flush device (Fast Flush Device) (170), and a stethoscope (180).

The fluid injection tube 110 is formed by having one end infiltrated into the patient (P) using something such as a catheter or needle.

The fluid supply unit 120 is connected to the fluid injection pipe 110 and supplies fluid to the fluid injection pipe 110.

The blood pressure sensor 130 is formed in the fluid injection pipe 110, and the blood pressure sensor 130 measures the blood pressure of the patient's (P) artery using the pressure difference between the fluid and blood of the fluid supply unit 120. can do. Also, it is placed at the same location as the heart of the patient (P) and can measure the blood pressure of the heart of the patient (P).

In addition, the blood pressure sensor 130 is fixed to the body of the patient (P) and can continuously measure the arterial pressure of a specific area regardless of changes in the patient's (P) posture.

And the arterial pressure measured by the blood pressure sensor 130 can be checked using a monitor (not shown). Since the monitor is located in most operating rooms, intensive care units, and emergency rooms and is around the patient (P), the arterial pressure measured by the blood pressure sensor 130 can be checked in real time.

The fluid supply valve 140 is spaced apart from the blood pressure sensor 130 and regulates the supply of fluid supplied from the fluid supply unit 120.

The first three-way valve 150 is installed in the fluid injection pipe 110 between the patient P and the blood pressure sensor 130. Additionally, the first three-way valve 150 is installed closest to the patient (P).

The zero stop cock 160 may be connected to the patient (P) side of the blood pressure sensor 130 or may be spaced apart. When the zero stopcock 160 is placed at the heart location (or the location of a specific arterial blood vessel where measurement is desired), the patient (P) side of the zero stopcock 160 is closed, the atmospheric side is opened, and zeroing is performed on the monitor, the influence of atmospheric pressure is reduced. It can be set to '0'.

The fast flush device 170 is arranged to be spaced apart between the blood pressure sensor 130 and the fluid supply valve 140, and a second three-way valve ( 171), which makes it possible to collect blood for a patient's arterial blood test.

In addition, the flush device 170 pushes the fluid supplied from the fluid supply unit 120 toward the patient to remove blood remaining in the fluid injection pipe 110 after the arterial blood test or to remove air bubbles that may occur in the fluid injection pipe 110. can be removed.

The auscultation unit 180 is located on the lower surface of the blood pressure sensor 130 and consists of an auscultation plate 181 and a connection tube 182 attached to the body of the patient (P).

The auscultation plate 181 is attached to the heart of the patient (P) or the chest area requiring auscultation, and the connecting tube 182 is connected to a rubber tube (not shown) of an external stethoscope (not shown), Heart sounds or lung sounds can be auscultated on the auscultation plate 181 attached to the patient (P).

FIG. 4 is a diagram showing the blood pressure sensor 130 of the invasive blood pressure measurement device 100 according to an embodiment of the present invention installed on the chest of a patient (P), and FIG. 5 is a view showing the blood pressure sensor 130 of the invasive blood pressure measurement device 100 according to an embodiment of the present invention. This is a diagram showing the blood pressure sensor 130 of the invasive blood pressure measurement device 100 installed on a bed (B).

Hereinafter, with reference to FIGS. 4 and 5, a method of measuring the blood pressure of a patient (P) according to the position of the blood pressure sensor 130 of the invasive blood pressure measurement device 100 according to an embodiment of the present invention will be described. Let's do it.

The blood pressure sensor 130 of FIG. 4 is installed on the chest of the patient (P), and the blood pressure sensor 130 of FIG. 5 is installed on the bed (B) corresponding to the heart height of the patient (P). Measure your blood pressure.

By placing the blood pressure sensor 130 at the same position as the heart of the patient (P), the blood pressure of the heart is constantly monitored without moving the position of the blood pressure sensor 130 even if the posture of the patient (P) changes during surgery or procedures. can do.

In addition, when the fluid from the fluid supply unit 120 must be injected into the patient (P), for example, after collecting blood from the first three-way valve 150 or the second three-way valve 171, Operate the first three-way valve 150 or the second three-way valve 171 to remove blood remaining in the fluid injection pipe 110 or to remove air bubbles generated in the fluid injection pipe 110. Thus, a flow path is formed through which the fluid from the fluid supply unit 120 is supplied to the patient (P) side, and the fluid supply valve 140 and the flush device 170 are opened to inject fluid into the patient (P) side. there is.

For this reason, the blood pressure sensor 130 is attached to the same position as the heart of the patient (P) and is located inside the surgical cloth or disinfection cloth during surgery, thereby maintaining a constant blood pressure even when the position or position of the patient (P) changes. can be measured.

The present invention has been described with reference to the embodiments shown in the drawings, but these are merely illustrative, and those skilled in the art will understand that various modifications and equivalent other embodiments are possible therefrom. Therefore, the true scope of technical protection of the present invention should be determined by the technical spirit of the attached patent claims.

100: Invasive blood pressure measurement device
110: fluid injection pipe 120: fluid supply unit
130: blood pressure sensor 140: fluid supply valve
150: First three-way valve 160: Zero stop cock
170: flush device 171: second three-way valve
180: Auscultation unit 181: Auscultation board
182: Connecting tube P: Patient
B: bed

Claims (13)

A fluid infusion tube formed by one end infiltrating into the patient;
A sap supply unit that supplies sap to the sap injection pipe;
A blood pressure sensor formed in the fluid infusion pipe and placed at the same location as the patient's heart or at an artery location where measurement is desired to measure the patient's blood pressure; and
An invasive blood pressure measuring device comprising a fluid supply valve that is spaced apart from the blood pressure sensor and regulates the supply of fluid supplied from the fluid supply unit. In claim 1,
The blood pressure sensor is,
An invasive blood pressure measurement device that measures a patient's blood pressure using the pressure difference between the fluid and blood. In claim 1,
An invasive blood pressure measuring device further comprising a first three-way valve installed in the fluid infusion tube between the patient and the blood pressure sensor. In claim 3,
An invasive blood pressure measurement device disposed adjacent to the blood pressure sensor installed on the patient and further comprising a zeroing stop cock that adjusts the atmospheric pressure to '0'. In claim 4,
An invasive blood pressure measurement device that measures the patient's arterial blood pressure (ABP) after setting the atmospheric pressure to '0' using the zero stopcock. In claim 1,
The blood pressure sensor is,
An invasive blood pressure measurement device installed on the patient's chest to measure the patient's blood pressure. In claim 1,
The blood pressure sensor is,
An invasive blood pressure measuring device that is installed on a bed corresponding to the height of the patient's heart and measures the patient's blood pressure. In claim 1,
The blood pressure sensor is,
An invasive blood pressure measurement device that is fixed to the patient's body and consistently measures arterial pressure at a specific location regardless of changes in the patient's posture. In claim 1,
An invasive blood pressure measurement device further comprising a fast flush device disposed between the blood pressure sensor and the fluid supply valve and including a second three-way valve capable of collecting blood when examining the patient's arterial blood. In claim 9,
The flush device is,
An invasive blood pressure measurement device that guides the fluid supplied from the fluid supply unit to the patient and removes blood or air bubbles remaining in the fluid injection tube after testing arterial blood. In claim 1,
The invasive blood pressure measurement device is connected to the blood pressure sensor and further includes an auscultator for auscultating the inside of the patient's body from an attachment surface of the blood pressure sensor disposed on the patient. In claim 11,
The stethoscope department,
an auscultation plate attached to the patient's body,
An invasive blood pressure measurement device comprising a connecting tube connected to the auscultation plate. In claim 11,
The stethoscope department,
An invasive blood pressure measuring device that is attached to the location of the patient's heart or a specific rib cage region and auscultates the patient's heart or lung sounds.

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