CN213552091U - Pressure-adjustable hepatic portal blocking device - Google Patents

Abstract

The pressure-adjustable hepatic portal occlusion device comprises an air bag A, an air bag B, a one-way air valve and a pressure gauge; the air bag A is strip-shaped, an inflation inlet and a pressure gauge interface are arranged on the air bag A, movable buckles are arranged at two ends of the air bag A, the movable buckles can be mutually connected or separated, and when the movable buckles are in a connected state, the air bag A is encircled into a ring; the air bag B is provided with an air outlet which is communicated with the inflation inlet of the air bag A; the one-way air valve is arranged between the inflation inlet of the air bag A and the air outlet of the air bag B; the pressure gauge is connected to a pressure gauge interface of the air bag A. The utility model discloses can regulate and control the aeration quantity based on the demonstration numerical value of manometer, and then reach the effect that the elasticity degree was blocked in accurate regulation and control.

Description

Pressure-adjustable hepatic portal blocking device

Technical Field

The utility model relates to the technical field of surgical instruments, especially a porta hepatis blocker of adjustable pressure.

Background

Liver surgery is an important branch in surgery, particularly, China is a 'serious disaster area' of hepatitis and cirrhosis, more than half of liver cancer patients and a large number of patients with liver gallstones all over the world exist in China, and therefore the development of liver surgery is particularly important and urgent in China.

As is known, the liver is a blood-rich organ, and the adult liver has the characteristics of high flow rate and high speed, and approximately 1000ml of blood passes through the liver per minute. Hepatobiliary surgery requires a hepatic portal block to reduce bleeding prior to intraoperative manipulation of the liver. Currently, the conventional method for blocking the hepatic portal in the liver laparotomy is the prism method, which can completely block the hepatic artery and portal vein blood flow of the first hepatic portal. The operation method comprises the following steps: bypass the hepatoduodenal ligament with a No. 13 catheter, and tighten the catheter with vascular clamps.

The above-mentioned hepatic portal blocking method has the following disadvantages: 1. the degree of tightness of fixation is completely grasped by the experience and hand feeling of a doctor, great blindness exists, blood vessels, tissues and bile ducts are easily damaged due to over-tight fixation, and large bleeding during operation is easily caused due to over-loose fixation; 2. the risk of not firm fixation exists, an effective real-time monitoring mechanism is lacked, and if the vascular clamp slips and a doctor does not know, blocking failure and heavy bleeding in the operation can be caused.

SUMMERY OF THE UTILITY MODEL

The utility model aims at overcoming the not enough of prior art, and provide a pressure-adjustable's hepatic portal block device, it has solved current hepatic portal block mode and has been difficult to the accurate fixed elasticity degree of mastering, has fixed not firm risk, lacks the problem of effectual monitoring mechanism.

The technical scheme of the utility model is that: the pressure-adjustable hepatic portal occlusion device comprises an air bag A, an air bag B, a one-way air valve and a pressure gauge; the air bag A is strip-shaped, an inflation inlet and a pressure gauge interface are arranged on the air bag A, movable buckles are arranged at two ends of the air bag A, the movable buckles can be mutually connected or separated, and when the movable buckles are in a connected state, the air bag A is encircled into a ring; the air bag B is provided with an air outlet which is communicated with the inflation inlet of the air bag A; the one-way air valve is arranged between the inflation inlet of the air bag A and the air outlet of the air bag B; the pressure gauge is connected to a pressure gauge interface of the air bag A.

The utility model discloses further technical scheme is: the movable buckle comprises an interface and a plug, and the interface and the plug are respectively arranged at two ends of the air bag A.

The utility model discloses still further technical scheme is: when the air bag A is encircled into a circular ring through the connection of the movable buckle, the inner surface and the outer surface of the circular ring are respectively defined as a contact surface and an outer side surface, and the inflation inlet and the pressure gauge interface are both positioned on the outer side surface of one end, close to the interface, of the air bag A.

The utility model discloses a further technical scheme is: the one-way air valve is arranged on the air outlet of the air bag B.

The utility model discloses a further technical scheme is: the length of the air bag A is 9-11 cm, the width is 0.55-0.65 cm and the thickness is 0.2-0.4 cm in a dry and flat state.

The utility model discloses a further technical scheme is: the length of the air bag A is 10cm, the width is 0.6cm, and the thickness is 0.3 cm.

The utility model discloses a further technical scheme is: the length of the air bag A is 9cm, the width is 0.55cm, and the thickness is 0.2 cm.

The utility model discloses a further technical scheme is: the length of the air bag A is 11cm, the width of the air bag A is 0.65cm, and the thickness of the air bag A is 0.4 cm.

Compared with the prior art, the utility model have following advantage:

1. the inflation quantity can be regulated and controlled based on the display value of the pressure gauge, so that the effect of accurately regulating and controlling the tightness degree of the blocked blood vessel is achieved, and the problems that the fixed tightness degree is difficult to accurately master and the great blindness exists in the existing hepatic portal blocking method are solved.

2. Whether the air bag A leaks air or not can be judged based on the display numerical value of the pressure gauge, and then the requirement of monitoring the hepatic portal blocking pressure in the operation process is met.

3. When the hepatic portal is blocked, the damage to organs such as bile ducts in the ligament of the liver, the duodenum and the like can be reduced based on accurate pressure control.

The invention is further described below with reference to the figures and examples.

Drawings

Fig. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the connection state of the movable buckle;

FIG. 3 is a schematic structural view of the airbag A;

fig. 4 is a schematic view of the state of the airbag a when inflated and enclosed into a circular ring.

Detailed Description

Example 1:

as shown in FIGS. 1-4, the adjustable pressure hepatic portal blocking device comprises a balloon A1, a balloon B2, a one-way air valve 3 and a pressure gauge 4.

The air bag A1 is strip-shaped, is provided with an inflation inlet 11 and a pressure gauge port 12, and is provided with movable buckles at two ends, the movable buckles comprise a port 13 and a plug 14, the two are mutually connected or separated, when the two are in a connection state, the air bag A1 is enclosed into a ring, the inner surface and the outer surface of the ring are respectively a contact surface 15 and an outer side surface 16, and the inflation inlet 11 and the pressure gauge port 12 are both positioned on the outer side surface 14 of one end, close to the port 13, of the air bag A1.

The air bag B2 is provided with an air outlet 21, and the air outlet 21 of the air bag B2 is communicated with the inflation inlet 11 of the air bag A1 through a hose.

The one-way air valve 3 is arranged on the air outlet 21 of the air bag B2.

Pressure gauge 4 is connected to pressure tap 12 of bladder a 1.

Preferably, the interface 13 and the plug 14 are respectively provided at both ends of the airbag a 1.

In this example, the air bag A1 has a length of 10cm, a width of 0.6cm and a thickness of 0.3 cm.

Example 2:

this example differs from example 1 only in that: the balloon A1 was 9cm in length, 0.55cm in width and 0.2cm in thickness.

Example 3:

this example differs from example 1 only in that: the balloon A1 had a length of 11cm, a width of 0.65cm and a thickness of 0.4 cm.

Brief description the utility model discloses a use:

1. selecting an air bag A1 with a proper size according to the size of the patient hepatoduodenal ligament, clamping the air bag A1, penetrating a plug 14 behind the hepatoduodenal ligament, wrapping the hepatoduodenal ligament by a circle, and inserting a connector 13 to enable the air bag A1 to enclose a circular ring;

2. the air bag B2 is pressed to inflate the air bag A1, so that the air bag A1 is inflated, the hole in the middle of the air bag A1 is gradually reduced, and the ligamentum hepatoduodeni is pressed, so that the portal vein and the hepatic artery in the ligamentum hepatoduodeni are blocked, and the blocking effect is achieved.

In the inflation process, the readings of the pressure gauge 4 are gradually increased, and the operator can accurately control the inflation amount according to the readings of the pressure gauge 4, so that the effect of regulating and controlling the tightness degree is achieved.

The target of the operation can also be a human body model containing target region organs and blood vessels, so as to help an operator to quickly and skillfully master the hepatic portal occlusion operation.

Claims (8)

1. Adjustable pressure's hepatic portal blocking device, characterized by: comprises an air bag A, an air bag B, a one-way air valve and a pressure gauge; the air bag A is strip-shaped, an inflation inlet and a pressure gauge interface are arranged on the air bag A, movable buckles are arranged at two ends of the air bag A, the movable buckles can be mutually connected or separated, and when the movable buckles are in a connected state, the air bag A is encircled into a ring; the air bag B is provided with an air outlet which is communicated with the inflation inlet of the air bag A; the one-way air valve is arranged between the inflation inlet of the air bag A and the air outlet of the air bag B; the pressure gauge is connected to a pressure gauge interface of the air bag A.

2. The adjustable pressure porta hepatis blocker of claim 1, wherein: the movable buckle comprises an interface and a plug, and the interface and the plug are respectively arranged at two ends of the air bag A.

3. The adjustable pressure porta hepatis blocker of claim 2, wherein: when the air bag A is encircled into a circular ring through the connection of the movable buckle, the inner surface and the outer surface of the circular ring are respectively defined as a contact surface and an outer side surface, and the inflation inlet and the pressure gauge interface are both positioned on the outer side surface of one end, close to the interface, of the air bag A.

4. The adjustable pressure porta hepatis blocker of claim 3, wherein: the one-way air valve is arranged on the air outlet of the air bag B.

5. The adjustable pressure porta hepatis blocker according to any one of claims 1 to 4, wherein: the length of the air bag A is 9-11 cm, the width is 0.55-0.65 cm and the thickness is 0.2-0.4 cm in a dry and flat state.

6. The adjustable pressure porta hepatis blocker of claim 5, wherein: the length of the air bag A is 10cm, the width is 0.6cm, and the thickness is 0.3 cm.

7. The adjustable pressure porta hepatis blocker of claim 5, wherein: the length of the air bag A is 9cm, the width is 0.55cm, and the thickness is 0.2 cm.

8. The adjustable pressure porta hepatis blocker of claim 5, wherein: the length of the air bag A is 11cm, the width of the air bag A is 0.65cm, and the thickness of the air bag A is 0.4 cm.

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