CN201426747Y - Compression artery hemostatic instrument - Google Patents

Abstract

The utility model discloses a compression artery hemostatic instrument, which comprises a base, an outer cover, an extension shaft sleeve, an air sac, a fixing band and a press plate, wherein the baseis provided with a chamber, the outer cover is detachably connected to the upper end of the base and equipped with an opening, the extension shaft sleeve can extend and retract in the chamber of thebase and extend out of the lower end of the chamber, the air sac arranged in the chamber of the base is used for driving the extension shaft sleeve to extend and retract, an inflating nozzle of the air sac is communicated with the external via the opening on the outer cover, the fixing band is connected to the base, and the press plate disposed outside the chamber of the base is connected to the extension shaft sleeve. The compression artery hemostatic instrument is simple in operation and can apply pressure needed accurately, working staff can directly observe hemostatic states of puncture points to adjust in time so as to achieve the optimum hemostatic effect, and patients can move on beds after 20 minutes and walk after 2 hours, thereby relieving suffering of the patients and avoiding complicating diseases. In addition, the compression artery hemostatic instrument is small in volume and can not affect clothes dressing and quilt covering of the patients.

Description

The tremulous pulse compression apparatus

Technical field

This utility model relates to a kind of haemostat, particularly is applicable to outside femoral artery (or radial artery) puncture artery (or vein) point of puncture and other tremulous pulse (or vein) corpora haemorrhagicum to oppress closed hemostatic tremulous pulse compression apparatus, belongs to medical instruments field.

Background technology

Along with the raising of Medical Technology level and the improvement of armarium condition, percutaneous puncture thigh (oar) tremulous pulse intervention diagnosis and therapy has become a kind of clinical manipulation technology commonly used.As coronary angiography and left ventricular angiography, intravascular ultrasound, intracoronary stent implantation etc.Because significantly improving of living standards of the people brought the influence that is detrimental to health thereupon.Hypertension, diabetes, evidence of coronary heart diseases phenomenal growth, especially evidence of coronary heart diseases recent two decades have turned over two kinds nearly, make the mortality rate of the coronary heart disease position that leaps to the first.Simultaneously, the transformation of essence has taken place in the clinical treatment of coronary heart disease, coronary heart disease, is transformed into the catheter treatment of intervention property by the medicine treatment of original spasmolytic, expander, thrombolytic, and its mortality rate and recurrence rate are significantly reduced.At present, will there be every day the coronary heart disease about 1000 examples to carry out sacculus support intervene operation in the whole of China.This intervene operation is at first wanted the percutaneous femoral artery puncture, by conduit sacculus and support is sent into tubulose tremulous pulse place narrow or that stop up then and expands and implant, and makes blood be filled into cardiac muscular tissue again and treats coronary heart disease.After operation finishes, extract the tremulous pulse shell on the femoral artery, stayed the hole of a 0.2-0.7cm like this on the femoral artery wall and caused hemorrhage.

Hemostasis method commonly used at present has manual compression, mechanical pressure and blood vessel gluing and stoping method etc.These three kinds of methods cut both ways for hemostasis.

One, manual compression: artificially oppressed femoral artery 15-40 minute, and made the contraction of muscle tissue of femoral artery wall, therefore platelet blood coagulation simultaneously forms thrombosis and causes of short duration hemostasis purpose, uses local external pressure then 24 hours and reaches permanent hemostasis.This hemostasis mode, causes many serious complications at one, jeopardizes patient's life, and most common complication is a local hematoma, retroperitoneal hamorrhage, the danger of false tremulous pulse stream and amputation in the partial extruding of femoral artery.Two, patient suffers huge misery, and patient will lie on the back 12-24 hour, mustn't abdominal part and the activity of lower limb, and the misery of bearing binder and sandbag external pressure simultaneously.Three, medical personnel will pay the able-bodied laborer, the both hands of standing pressurization patient's femoral artery puncture place 30-40 minute.

Two, mechanical pressure: this hemostasis probably is divided into two kinds: a kind of is balloon tamponade tourniquet (this series products is not applicable to the femoral artery product), so its shortcoming is can not directly observe the hemorrhage situation of point of puncture, can not show that pressure can not accurately be exerted pressure, stationarity is poor, do not reach ideal haemostatic effect; Another kind is spiral tremulous pulse compression apparatus, it is by the rotating screw handle, make pressing plate constantly compress point of puncture, the adjusting of pressure is the rotation depth adjustment by spiral handle, therefore the pressure that gives point of puncture can only rely on doctor's experience to adjust, and the pressure that is applied on the point of puncture can not show, so can not reach best haemostatic effect.

Three, gluing and stoping method: modal have three kinds: first kind is to utilize a kind of tendon Bovis seu Bubali collagen protein, it is manufactured collagen sponge clog in the femoral artery puncture place and reach the hemostatic purpose.Second kind is the filling bolt that utilizes biomaterial that tissue absorbs easily and collagen protein to cause sandwich, is positioned between the inner membrance of femoral artery blood vessel and the adventitia and reaches the hemostatic purpose.The third is that implantable bioartificial suture U-shaped is sewed up the femoral artery puncture place and reached the hemostatic purpose.Have a large amount of clinical evidences and show, still there is the complication of much making us satisfied not to the utmost in biological sticking stifled hemostasis, and it will endanger patient's life, for example retroperitoneal massive hemorrhage.Because majority has hypertensive medical history now, the diameter of femoral artery is tiny, and the expense costliness, has patient can produce the rejection reflection, and biological sticking stifled hemostatic value is smaller.

The utility model content

The purpose of this utility model provides a kind of tremulous pulse compression apparatus, and it has simple to operate; The hemostasis situation of direct observation point of puncture, thus the haemostatic effect that reaches best in time adjusted; Patient can carry out bed after 20 minutes upward displacement body is moving, but just walking after two hours, thus alleviate patient's misery and avoid complication; Volume is little not to be influenced patient and wears clothes and cover quilt.

To achieve these goals, this utility model has adopted following technical scheme: a kind of tremulous pulse compression apparatus comprises:

The pedestal that has chamber;

Dismountable enclosing cover that is connected in the pedestal upper end, described outer covering is provided with opening;

The also flexible axle sleeve of extended chamber lower end can stretch in the chamber of described pedestal;

The chamber that is positioned at described pedestal is used to promote the flexible air bag of flexible axle sleeve, and the charging connector of described air bag is in communication with the outside by the described outer opening that covers;

Be connected in the fixing band on the described pedestal; And

It is outer and be connected in the pressing plate that described telescopic shaft puts to be positioned at the chamber of described pedestal.

As preferably, the protruding enclosing cover of an end of the described outer opening that covers, the other end inwardly stretches out enclosing cover and is connected with the charging connector of described air bag.

As preferably, coat a housing outside the described pedestal, form an interlayer between the sidewall of described housing and described pedestal, described fixing band is connected on the described housing.

As preferably, described telescopic shaft tackling has cavity, and described air bag is positioned at the cavity of described flexible axle sleeve.

As preferably, described flexible axle sleeve is a mutually nested joint or a more piece.

As preferably, described pressing plate is circular, and described pressing plate is provided with salient point, and the outside of described pressing plate is provided with the pressing plate cover.

As preferably, the medial wall of described pedestal chamber is provided with slide rail, and the telescopic shaft that matches with the medial wall of described pedestal chamber puts projection or the steel ball that matches with described slide rail is set.

As preferably, this utility model also comprises a Pressure gauge and an aerating device that is used to show pressure, and described aerating device is connected with the charging connector of air bag or with an end of the described outer protruding enclosing cover of opening that covers by flexible pipe; Described Pressure gauge is arranged on the described flexible pipe or on the aerating device.

As preferably, be provided for locating the clamp of described flexible pipe on the lateral wall of described pedestal.

Compared with prior art, the beneficial effects of the utility model are:

1, pedestal of the present utility model, air bag, axle sleeve and pressing plate all adopt transparent material, can observe point of puncture and the situation of observation hemostasis in time at any time.

2, this utility model is connected with Pressure gauge, pressure is inflated in air bag by aerating device and is realized, therefore can accurately regulate the air pressure in the air bag by observing the numerical value on the Pressure gauge, control the pressure of pressing plate, thereby puncture orifice is implemented required accurate pressurization, adapt to change of illness state, reach best haemostatic effect.

3, this utility model adopts the mode of pressure decline to carry out hemostasis by compression, has both reached the purpose of effective hemostasis by compression, can alleviate patient's misery again, and some defectives of having avoided traditional hemostasis by compression method to exist.

4, this utility model pressing plate of having a salient point and pressing plate cover can guarantee the blood fortune of puncture orifice necessity, prevents cutaneous necrosis, promotes healing, alleviates patient's pain, avoids complication.

5, fixing band of the present utility model adopts low sensitization adhesive tape, can guarantee the fixing of pressure point, and patient can carry out the bed activities changing position according to doctor's advice after 20 minutes and eliminate pain, but severe complication is avoided in walking in two hours.

6, this utility model adopts the telescopic shaft Analysis of Nested Design to make apparatus volume small and exquisite, does not influence patient fully and wears medicated clothing and lid quilt, hommization more.

7, this utility model is simple in structure, and low production cost can alleviate patient's financial burden.

Description of drawings

Fig. 1 cuts open figure for the structure of this utility model embodiment one.

Fig. 2 cuts open figure for the structure of this utility model embodiment two.

Fig. 3 cuts open figure for the structure of this utility model embodiment three.

Fig. 4 cuts open figure for flexible axle sleeve contraction state structure among this utility model embodiment four.

Fig. 5 cuts open figure for flexible axle sleeve among this utility model embodiment four stretches out status architecture.

Fig. 6 removes schematic top plan view behind the enclosing cover for Fig. 5.

Fig. 7 cuts open figure for flexible axle sleeve contraction state structure among this utility model embodiment five.

Fig. 8 cuts open figure for flexible axle sleeve among this utility model embodiment five stretches out status architecture.

Description of symbols

1-pedestal 2-housing

The 3-second axle sleeve 4-first axle sleeve

5-air bag 6-pressing plate

7-pressing plate cover 8-salient point

9-charging connector 10-fixing band

11-opening 12-flexible pipe

13-inflation ball 14-projection

15-enclosing cover 16-flank

17-clamp 18-gas fill port

The 19-first cavity 20-second cavity

23-slide rail 24-connecting hole

The specific embodiment

Below in conjunction with the drawings and specific embodiments this utility model is described in further detail, but not as to qualification of the present utility model.

Embodiment one:

Tremulous pulse compression apparatus as shown in Figure 1 comprises: pedestal 1, enclosing cover 15, flexible axle sleeve, air bag, pressing plate 6 and fixing band 10, and pedestal 1 has chamber; Described flexible axle sleeve can stretch in the chamber of described pedestal 1 and extended chamber lower end, and the flexible axle sleeve in the present embodiment is a joint, i.e. first axle sleeve 4; The chamber that the air bag (not shown) is positioned at described pedestal 1 is used to promote the flexible of flexible axle sleeve, enclosing cover 15 dismountable pedestal 1 upper end open-mouths that are connected in, and what be provided with on the described enclosing cover 15 that the charging connector that makes air bag is in communication with the outside opens 11; The fixing band (not shown) is connected on the described pedestal 1.

In order to prevent first axle sleeve 4 at pedestal 1 internal rotation, and the charging connector on the air bag is fixed on the opening 11 of pedestal 1.Be provided with vertically on the medial wall of described pedestal 1 projection 14 or steel ball corresponding with slide rail 23 and that cooperate are set on the lateral wall of two relative slide rail 23, the first axle sleeves 4, protruding 14 are positioned at slide rail 23, and move along slide rail 23.Described air bag is arranged in the cavity of pedestal 1, and described first axle sleeve 4 can be flexible in pedestal 1 along slide rail 23.The lower end of first axle sleeve 4 is connected with pressing plate 6, and pressing plate 6 is positioned at outside the chamber of described pedestal 1.

Embodiment two:

As shown in Figure 2, the difference of present embodiment and embodiment one only is that this utility model also comprises is with manometric inflation ball 13, describedly joins with the gas outlet of manometric inflation ball 13 and the charging connector 9 of air bag 5.Certain described Pressure gauge also can separate with the inflation ball, and promptly described Pressure gauge is arranged on inflation ball and the flexible pipe 12 that the charging connector 9 of air bag 5 is connected, is not have manometricly and inflate on the ball, has on the described flexible pipe 12 and charges and discharge air cock.Certain described inflation ball 13 also can be other aerating device, for example syringe etc.

Embodiment three:

As shown in Figure 3, the main distinction of present embodiment and embodiment two only is that described pressing plate 6 is circular.Pressing plate 6 is provided with uniform salient point 8, and the outside of described pressing plate 6 is provided with pressing plate cover 7.Described salient point 8 and pressing plate cover 7 can effectively prevent stasis, thereby prevent cutaneous necrosis, promote healing, alleviate patient's pain, avoid complication.

Described pedestal 1, flexible axle sleeve, pressing plate 6 all adopt transparent material.Pressing plate cover 7 adopts non-toxic biocompatible material.

Embodiment four:

As Fig. 4, Fig. 5, shown in Figure 6, the difference of present embodiment and embodiment three only is that the protruding enclosing cover 15 of an end of enclosing cover 15 upper sheds, the other end inwardly stretch out enclosing cover 15 and be connected with the charging connector of air bag.In the present embodiment, described opening is the gas fill port 18 shown in the figure.

As shown in Figure 4, before work, first axle sleeve 4 is positioned at pedestal, the upper edge of first axle sleeve 4 is concordant with the upper edge of pedestal 1, the upper end of first axle sleeve 4 is provided with first cavity 19, described air bag 5 is arranged in first cavity 19 (figure do not draw air bag 5), and the end of gas fill port 18 in pedestal 1 that is provided with on the charging connector of air bag 5 and the enclosing cover 15 is connected.After air bag 5 inflations, can promote first axle sleeve 4 and stretch out pedestal 1, stretch out state as shown in figure 10.

As shown in Figure 5, gas fill port 18 is horizontally disposed with in enclosing cover 15, and stretches out from the sidewall of enclosing cover 15, and certainly, for the convenience of using, described gas fill port 18 also can vertically be provided with, and directly stretches out from the upper end of enclosing cover 15.

As shown in Figure 6, on the lateral wall of described pedestal 1 clamp 17 is set.Because when being air bag 5 inflations, need external inflation ball, the inflation ball need join by plastic tube and gas fill port 18, for easy to use, plastic tube need be used clamp 17 fix.Certainly, clamp 17 is provided with the position and direction is set and can select arbitrarily according to actual needs.The both sides of described pedestal 1 are provided with corresponding flank 16, have the connecting hole 24 that is used to be connected and fixed band on the described flank 16.(fixing band is not shown among the figure)

Embodiment five:

As Fig. 7, shown in Figure 8, the difference of present embodiment and embodiment four only is, flexible axle sleeve among the embodiment four is a joint, and the flexible axle sleeve in the present embodiment is two joints, i.e. first axle sleeve 4 and second axle sleeve 3, first axle sleeve 4 can be entity structure, also can be hollow-core construction, the total length of first axle sleeve 4 is less than the length of second axle sleeve 3, when first axle sleeve 4 is positioned at second axle sleeve 3, just form second cavity 20 in second axle sleeve 3 of first axle sleeve, 4 upper ends, air bag 5 is positioned at second cavity 20.

Certainly, can adopt any fit structure between described flexible axle sleeve and pedestal 1 or the flexible axle sleeve that socket-connects, as long as can reach flexible purpose.

Be that example is simply introduced operation principle of the present utility model and using method below with the femoral artery:

Moving/intravenous resistance increases to adopt the mode of external compressing to resist at point of puncture, promotes platelet aggregation power to strengthen, thereby reaches the hemostatic purpose.

When 1, using, to confirm that at first dorsal artery of foot beats normally, confirm femoral artery puncture point then, arterial sheath be withdrawed from 2cm, with sterile gauze layer 2-3 covering femoral artery puncture point.Make pedestal 1 along the groin direction, pressing plate 6 is pressed on the femoral artery puncture point.

2, then fixing band 10 is taken advantage of a situation around groin and drag tight and tight and cement.The fixing balance of pedestal 1 and pressing plate 6 that must guarantee of fixing band 10 is fixed.

3, by aerating device (as long as can realize that any aerating device of the function of inflating is all right in air bag, as existing inflation ball 13 on the market) to air bag 5 inflations, air bag 5 is expanded because of inflation, thereby the pressing plate 6 that promotes internal axle sleeve and be connected under the internal axle sleeve of innermost layer is downwards that the point of puncture direction moves together, control pressing plate 6 is flexible, thereby femoral artery (or radial artery) point of puncture is pressurizeed, pressure in the air bag 5 can show on Pressure gauge, confirm when at first making pressure reach 20～30mmHg that 6 pairs of pressing plates stop blooding point (point of puncture) when pressurization equilibration is stablized, and pull out arterial sheath; Again with pressure inflatable to being higher than systolic pressure 50mmHg, check that dorsal artery of foot beats, should be and slightly weaken but do not disappear; After 5 minutes pressure is adjusted to and is higher than systolic pressure 10-15mmHg, can carry out pressure according to state of an illness needs then and regulate, remove haemostat but can not be lower than 60mmHg 6h to the tube drawing, the patient lies in bed can out-of-bed activity behind the 2h.

Claims (9)

1, a kind of tremulous pulse compression apparatus is characterized in that, comprising:

The pedestal that has chamber;

Dismountable enclosing cover that is connected in the pedestal upper end, described outer covering is provided with opening;

The also flexible axle sleeve of extended chamber lower end can stretch in the chamber of described pedestal;

The chamber that is positioned at described pedestal is used to promote the flexible air bag of flexible axle sleeve, and the charging connector of described air bag is in communication with the outside by the described outer opening that covers;

Be connected in the fixing band on the described pedestal; And

It is outer and be connected in the pressing plate that described telescopic shaft puts to be positioned at the chamber of described pedestal.

2, tremulous pulse compression apparatus according to claim 1 is characterized in that, the protruding enclosing cover of an end of the described outer opening that covers, and the other end inwardly stretches out enclosing cover and is connected with the charging connector of described air bag.

3, tremulous pulse compression apparatus according to claim 1 is characterized in that,

The described pedestal outside coats a housing, forms an interlayer between the sidewall of described housing and described pedestal, and described fixing band is connected on the described housing.

4, tremulous pulse compression apparatus according to claim 1 is characterized in that, described telescopic shaft tackling has cavity, and described air bag is positioned at the cavity of described flexible axle sleeve.

According to each described tremulous pulse compression apparatus in the claim 1 to 4, it is characterized in that 5, described flexible axle sleeve is a mutually nested joint or a more piece.

According to each described tremulous pulse compression apparatus in the claim 1 to 4, it is characterized in that 6, described pressing plate is circular, described pressing plate is provided with salient point, and the outside of described pressing plate is provided with the pressing plate cover.

7, according to each described tremulous pulse compression apparatus in the claim 1 to 4, it is characterized in that, the medial wall of described pedestal chamber is provided with slide rail, and the telescopic shaft that matches with the medial wall of described pedestal chamber puts projection or the steel ball that matches with described slide rail is set.

8, according to each described tremulous pulse compression apparatus in the claim 1 to 4, it is characterized in that, also comprise a Pressure gauge and an aerating device that is used to show pressure, described aerating device is connected with the charging connector of air bag or with an end of the described outer protruding enclosing cover of opening that covers by flexible pipe; Described Pressure gauge is arranged on the described flexible pipe or on the aerating device.

9, tremulous pulse compression apparatus according to claim 8 is characterized in that, is provided for locating the clamp of described flexible pipe on the lateral wall of described pedestal.

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