CN107981929A - Myocardial ablation device - Google Patents

Abstract

The present invention relates to a kind of Myocardial ablation device that can melt cardiac muscular tissue point by point.The Myocardial ablation device includes sleeve, inner core, fornices and negative-pressure suction pipeline, has the first hollow pipeline in its middle sleeve, the negative-pressure suction pipeline is on the side wall of sleeve；The distal side of the inner core is provided with tip and nearside is provided with fluid injection interface, and inner core has body portion, and body portion has the second hollow pipeline, and wherein body portion is configured to move in the first hollow pipeline, and second hollow pipeline is connected with fluid injection interface；One or more negative pressure suckers are provided with the madial wall of the fornices and interior has the 3rd hollow pipeline, the 3rd hollow pipeline is connected in the near-end of fornices with negative-pressure suction pipeline；And the nearside of the negative-pressure suction pipeline is provided with negative port and is used to connect vacuum generating device, and the madial wall of its middle sleeve is disposed with internal thread, and the external screw thread with screw-internal thread fit is disposed with the outer wall of inner core.

Description

Myocardial ablation device

Technical field

The present invention relates to a kind of surgical operating instrument for being used to treat arrhythmia cordis, melts myocardium group more particularly to one kind The Myocardial ablation device knitted, it is preferable that the Myocardial ablation device can also mapping electrocardio-activity.

Background technology

Arrhythmia cordis is due to a series of diseases that heartbeat caused by many reasons loses the intrinsic rhythm and pace of moving things, it is fallen ill Rate is high, very big to health hazard.Such as clinically the most common type perpetual arrhythmia is called auricular fibrillation (abbreviation room Quiver), it is due to that various pathogenic factors cause atrial muscle cell electro physiology property abnormal change, cause atrium and ventricle soon without Regular contraction, so that patient produces palpitaition, shortness of breath, the malaise symptoms such as weak, and increases heart failure, thromboembolism, dead The incidence of adverse events such as die.Atrial fibrillation total prevalence rate in China's is 0.77% at present, thus calculates that China's patients with atrial fibrillation sum connects Nearly 10,000,000, occupy first of countries in the world.And the illness rate of atrial fibrillation increases in the trend significantly increased with the age, and 80 years old with last year The illness rate of age group is up to 7.5%.With the aging of today's society, atrial fibrillation illness rate increasingly increases, it has seriously affected state The general level of the health of the people.And for example Ventricular Tachycardia (abbreviation room speed) and ventricular fibrillation (quivering abbreviation room), are due to ventricular muscle cell Ventricle local electrical activity caused by lesion is abnormal, causes ventricular contraction frequency too fast, is unable to maintain that normal arterial pressure, or even cause the heart Dirty property sudden death, due to the emergentness and seriousness of its morbidity, great harm is caused to the life and health of the common people.

In recent years, with the gradual understanding to atrial fibrillation pathogenesis, find most of atrial fibrillation all with originating from pulmonary vein before The abnormal electrical activity in front yard, left atrium tissue and superior and inferior vena cava is related.And block abnormal electrical activity by various means Conduction can terminate most of atrial fibrillation and no longer recur.All kinds of internal medicine ablative surgeries and the surgery " fan occurred under the theory Palace " operation is respectively provided with preferable clinical effectiveness.The committed step of atrial fibrillation internal medicine ablation and surgery " improvement maze operation " exists at present In cause by various methods local cardiac tissue necrosis, electrical conduction retardance, cause left and right two complete ring pulmonary veins before Front yard shading ring, connect the ablation radial line of two ring Pulmonary venous vestibule shading rings and positioned at three at the top and bottom of left room respectively The ablation radial line at the positions such as cusp isthmus, superior vena cava.Equally, the ventricular muscle cell for making lesion part by various means reaches The generation that coagulation necrosis and electric isolation can treat or prevent room speed and room is quivered.

However, being used to carry out bipolar radio frequency ablation pen used in linear ablation at present in atrial fibrillation surgical operation, it reclines RF energy, the damage for being difficult to form transmural for thicker cardiac muscular tissue, particularly with hypertrophic cardiac muscle are discharged in the external membrane of heart Patient, is more difficult to cause to damage in ventricle wall depths using such RF ablation pen, thus for some atrial fibrillations and most rooms The therapeutic effect of property arrhythmia cordis is bad.Also, existing bipolar radio frequency ablation pen can not mapping ablation portion after the completion of ablation Whether position still has electrical activity or conduction, so that surgical effect can not be verified in art, one is left for the recurrence of arrhythmia cordis Fixed hidden danger.In addition, the bipolar radio frequency ablation pen used at present is import, construction is complicated, involves great expense, and need radio frequency energy Measure a series of corollary equipments such as generator so that the surgical operation therapy expense of atrial fibrillation is considerable, and cause a part of hospital without Method carries out this treatment.

Therefore, this area need one kind effectively and safely to melt cardiac muscular tissue simultaneously can mapping electrocardio-activity point by point Myocardial ablation device, the device should possess easy to operate, efficient quick and can be with real-time verification the features such as.

The content of the invention

To solve above-mentioned problems of the prior art, the present inventor devises a kind of Myocardial ablation device, the device Cardiac muscular tissue can not only in depth and be safely pierced into, while avoids piercing through heart wall, and the device can also melt point by point And and then form ablation line, and can verify that ablation effect.

Therefore, the present invention provides a kind of Myocardial ablation device, the Myocardial ablation device include sleeve, inner core, fornices and Negative-pressure suction pipeline, wherein having the first hollow pipeline in the sleeve, the negative-pressure suction pipeline is embedded in the side of the sleeve On wall；The distal side of the inner core is provided with tip and nearside is provided with fluid injection interface, and the inner core has body portion, body portion tool There is the second hollow pipeline, wherein the body portion is configured to move in first hollow pipeline, second hollow pipeline It is connected with the fluid injection interface；One or more negative pressure suckers are provided with the madial wall of the fornices and interior has There is the 3rd hollow pipeline, the 3rd hollow pipeline is connected in the near-end of the fornices with the negative-pressure suction pipeline；With And the nearside of the negative-pressure suction pipeline is provided with negative port and is used to connect vacuum generating device, and wherein described sleeve Madial wall is disposed with internal thread, and the external screw thread with the screw-internal thread fit is disposed with the outer wall of the inner core.

In a preferred embodiment, one or more pairs of electrodes can be set on the tip of inner core.Electricity is being set In the case of pole, grooving the electrode cable of connection electrode can be placed in set medial wall of the tube, or in electrode cable is attached to On the lateral wall of core or on madial wall.

In a preferred embodiment, side opening can be set to be used for aiding in the delivering of liquid, drop on the side wall at tip Injection pressure at low tip.

In a preferred embodiment, tip can be vertical tip.Preferably, tip may be designed to spiral shell Revolve shape tip.

In a preferred embodiment, scale can be set on the outer wall in body portion, preferably in nearside in fluid injection interface At lower section.The setting of scale can judge the location of the head at tip easy to user.

In a further preferred embodiment, set medial wall of the tube can set external screw thread, can be set on interior outer core There is the internal thread coordinated with the external screw thread.Preferably, the proximal end of the sleeve can set around the first hollow pipeline to The flange of outer protrusion, is constructed such that the arbitrary structures that the external screw thread is rotationally advancing, and the structure is known in the art , such as knob etc..It should be noted that in the case where setting internal and external screw thread, it may not be necessary to set and carve on interior outer core Degree, user can be judged by the number of turns of screw thread rotation.

In a preferred embodiment, internal thread and/or external screw thread have one or more ridges, ridge quantity The selection scope that can melt as needed determine.It is to be understood that screw thread mentioned in the present invention can be single line Screw thread and multi start thread, preferably single thread, if using multi start thread, preferably double thread.

In the present invention, the tooth form of screw thread is unrestricted, can use triangle thread familiar in the field of competence, rectangle spiral shell The tooth forms such as line, circular thread, trapezoidal thread and saw-tooth thread, as long as stable threaded connection can be realized.

In a preferred embodiment, one or more negative pressure suckers can be arranged to the longitudinal axis along the sleeve Line is in single-row distribution.

In a further preferred embodiment, one or more negative pressure suckers can be arranged to along the longitudinal direction of the sleeve Axis is interspersed in biserial.

In a further preferred embodiment, one or more negative pressure suckers can be arranged to along the longitudinal direction of the sleeve Axis is in more column distributions.

In a preferred embodiment, the cross section of negative pressure sucker can be circular, oval or other shapes.

In a preferred embodiment, fornices and negative-pressure suction pipeline can be detachably connected.This In the case of, those skilled in the art can select the fornices of different radians as needed to adapt to different anatomical structures (no With heart wall, for example, left atrial wall, right atrium wall, left ventricular wall, right ventricular wall etc.) and clinical setting (for example, myocardial hypertrophy Or cardiac muscle is thinning).

In a further preferred embodiment, fornices can integrally link together with negative-pressure suction pipeline.

It is to be understood that the component of the Myocardial ablation device of the present invention, is especially likely to contact chemical ablation reagent Component, for example, the component such as inner core, fornices, negative-pressure suction pipeline, sleeve, fluid injection interface is preferably disappeared by being resistant to chemistry The material for melting reagent is made.The material should have suitable chemical resistance or corrosion resistance to be resistant to chemical ablation Reagent (referring to following definition part).The material should have certain flexibility and hardness so that its manufactured inner core or negative pressure The components such as suction pipeline have certain pliability in order in ablating device inner bending and movement, while with certain Hardness so as to be subjected to the extruding of other metals or rigid element in ablating device without withering, to avoid liquid therein or Gas unsmooth flowing and cause pipeline inner pressure uneven, cause tip to go out not smooth liquid, deficiency or tip liquid outlet quantity uneven.It is preferred that Ground, the material should have long-term durability, so as to be adapted to Reusability.Most preferably, it is preferably biocompatible materials. The material for being suitable for using in the present invention can be selected from medical plastic, such as polyvinyl chloride, polyurethane, polyethylene, acrylonitrile-benzene second Alkene-butadiene copolymer (ABS) etc., and metal material (for example, medical steel, such as 304L medical stainless steels, other beyond medical steel Medical metal, metal alloy etc.) or their any combination.In the present invention, the selection of material is unrestricted, as long as energy Enough meet above-mentioned requirements, those skilled in the art can be according to other chemical fields and the common knowledge of field of medical materials Suitable material is selected to be manufactured for the device of the invention.

In one embodiment, sleeve and inner core can be by transparent materials (for example, familiar in the field of competence various suitable Together in medical transparent plastic material, high molecular material or glass) it is made, the purpose is to allow user to be seen through sleeve Whether there is foreign body obstruction etc. in the position of inner core, core hollow pipeline.In this case, scale can be set at Consequently facilitating observation on inner core part in sleeve.

Beneficial effect

The cardiac muscular tissue of human atrial wall is more poor, and atrial fibrillation patients are due to left room expansion, its atrium sinistrum pulmonary vein The cardiac muscular tissue of vestibular etc. is even more particularly poor, and heart is a hollow organ, thus similar to normal injection syringe needle Needle point designs are more difficult to be pierced into atrial tissue and reaches depth desired, and firmly excessive easy directly puncture atrial tissue, is made Needle point is directly entered in the chambers of the heart, so as to the complication such as be not easy to obtain preferable therapeutic effect and cause bleeding.

The cardiac muscular tissue of target ablation heart wall can be attracted to vault by the cardiac ablation devices of the present invention by vacuum suction In grand portion, cardiac muscular tissue is pierced into so as to avoid the danger of heart wall is pierced through from side easy to tip.

The present invention can also cause tip while advancing along axis rotation by using the design of screw thread, so as to be more easy to It is pierced into cardiac muscular tissue, while the target depth that tip can be controlled to be reached.

The cardiac ablation devices of the present invention can also install electrode on tip, living by the electricity of mapping target ablation tissue Move to realize the verification to ablation effect.

The cardiac ablation devices of the present invention can be adapted for chemical ablation, i.e. realize ablation using chemical ablation reagent. In the case of chemical ablation, chemical ablation agent can be by fluid injection interface by means of various infusions or in injection device is injected into The hollow pipeline of core, the tip through inner core enter target ablation cardiac muscular tissue.In this way, can using the cardiac ablation devices of the present invention It to realize point-by-point ablation simultaneously and then form ablation line, and can verify ablation effect by setting electrode on tip, can be used for Auricular fibrillation, auricular flutter, atrial tachycardia, supraventricular tachycardia, ventricular premature beat, Ventricular Tachycardia, ventricular fibrillation Etc. the treatment of all kinds of arrhythmia cordis, have indication and have a wide range of application, be easy to operate, quickness and high efficiency, it is low-cost, can be real-time The many advantages such as verification.

Brief description of the drawings

Fig. 1 is the schematic diagram of prior art RF ablation pen ablation cardiac muscle.

Fig. 2 is the principle schematic of chemical reagent ablation cardiac muscle.

Fig. 3 is the schematic diagram that normal injection syringe needle punctures atrial wall.

Fig. 4 is the structure diagram of an embodiment of the Myocardial ablation device of the present invention.

Fig. 5 is the top view of the fornices of the Myocardial ablation device of the invention shown in Fig. 4.

Fig. 6 is the schematic diagram of the first working status of an embodiment of the Myocardial ablation device of the present invention, first Under working status (that is, original state), do not apply negative pressure and tip does not extend out.

Fig. 7 is the schematic diagram of the second working status of an embodiment of the Myocardial ablation device of the present invention, second Under working status, apply negative pressure but tip does not extend out.

Fig. 8 is the schematic diagram of the 3rd working status of the first embodiment of the Myocardial ablation device of the present invention, the 3rd Under working status, apply negative pressure and tip is stretched out and is pierced into cardiac muscular tissue.

Fig. 9 is the schematic diagram of the 4th working status of the first embodiment of the Myocardial ablation device of the present invention, the 4th Under working status, tip reaches the ablation cardiac muscular tissue of target depth.

Figure 10 is the left profile schematic diagram of the fornices of the Myocardial ablation device of the present invention.

Figure 11 is the top view of an embodiment of the fornices of the Myocardial ablation device of the present invention.

Figure 12 is the top view of another embodiment of the fornices of the Myocardial ablation device of the present invention.

Figure 13 A and Figure 13 B are the schematic diagram of two embodiments at the tip of the Myocardial ablation device of the present invention.

Embodiment

Definition

Distal side：In the present specification, when description the device of the invention refers to " distal side ", which refers to be relatively distant from and makes The side of user.

Nearside：In the present specification, when description the device of the invention refers to " nearside ", which refers to relatively close make The side of user.

Distally：In the present specification, when description the device of the invention refers to " distal end ", which generally refers to relatively remote From user one end or be relatively distant from the device of the invention main body (such as handle) one end.

Near-end：In the present specification, when description the device of the invention refers to " near-end ", which generally refers to opposite lean on One end of nearly user or one end of the main body (such as handle) of relatively close the device of the invention.

Sagittal plane：By the plane (i.e. median sagittal plane) of human body (or other objects) vertical axis and the longitudinal axis and in parallel All planes be referred to as sagittal plane, i.e., human body or object are divided into left and right two halves.

Coronal-plane：All claimed by the plane and all planes in parallel of human body (or other objects) vertical axis and transverse axis For coronal-plane, i.e. human body or object are divided into former and later two parts by these planes.

Screw thread：Refer on cylinder or conical surface, the continuous protrusion with regulation tooth form formed along helix, Its protrusions refers to the entity part between two sides of screw thread, and also known as tooth is (referring to national technical standard, screw thread term GB/T 14791-93)。

Helix：The track of the point moved along cylinder or conical surface, the axial displacement of the point and corresponding angular displacement Cheng Ding ratios (referring to GB/T 14791-93).

External screw thread：Refer to the screw thread formed on cylinder or external conical surface (referring to GB/T 14791-93).

Internal thread：Refer to the screw thread formed on cylinder or tapered interior surface (referring to GB/T 14791-93).

Single thread：Refer to the screw thread formed along a helix (referring to GB/T 14791-93).

Right-handed thread：The screw thread screwed in when referring to rotate clockwise (referring to GB/T 14791-93).

Left hand thread：The screw thread screwed in when referring to rotate counterclockwise (referring to GB/T 14791-93).

Crest is high：Refer on form of thread, by crest along perpendicular to axis of thread direction to middle line distance (referring to GB/T 14791-93)。

Tooth bottom is high：Refer on form of thread, by tooth bottom along perpendicular to axis of thread direction to middle line distance (referring to GB/T 14791-93)。

Thread height：Refer on form of thread, crest is to tooth bottom in the distance on axis of thread direction.

Pitch：Adjacent two tooth corresponds to the axial distance of point-to-point transmission on middle line, in short, first tooth of screw thread and The axial distance of two teeth.

Helical pitch：Adjacent two tooth corresponds to the axial distance of point-to-point transmission on middle line on same helix, in short, being exactly spiral shell Line revolves the moved axial distance that turns around.If screw thread is single line or one start screw, pitch is equal with helical pitch, if screw thread Two-wire or double thread, then helical pitch is twice of pitch, and so on.

Tooth form：On the section by the axis of thread, the contour shape of screw thread (referring to GB/T 14791-93).

Screwing length：For two screw threads to cooperate, threadingly axis direction mutually screws part to length of thread engagement Length (referring to GB/T 14791-93).

Chemical ablation reagent：For the various chemical reagent or reagent of cardiac muscular tissue's coagulation necrosis can be caused to combine, such as Absolute ethyl alcohol, anhydrous propyl alcohol, glycerine, Iopromide mixed liquor, or their mixture etc..

The preferred embodiments of the invention are described below in conjunction with the accompanying drawings, it will be understood by those skilled in the art that be with reference to Embodiment or embodiment described in attached drawing are merely to illustrate the preferred forms for realizing the present invention, rather than the model by the present invention Enclose and be limited to these embodiments.The present invention can make various modifications and variations on the basis of following embodiments.These change It is included in into change within the scope of the present invention.It is similar attached between each embodiment shown in the drawings of the present invention Icon note instruction similar component.

Fig. 1 is the schematic diagram that the RF ablation pen of current wide clinical application is melted in myocardial surface.In Fig. 1,1 is the heart Muscular tissue, 2 be the external membrane of heart, and 3 be the internal membrane of heart, and 4 be the electrode of RF ablation pen distal end.During ablation, radio-frequency ablation electrode 4 passes through it With providing RF energy at the contact point 5 of the external membrane of heart 2, coagulation necrosis stove 6 is caused for the cardiac muscular tissue near contact point 5, It can be seen that the coagulation necrosis stove scope be using contact point 5 for the centre of sphere approximate spheres (this two dimensional surface sectional view be with contact Point 5 is the circle in the center of circle).It can be seen that the coagulation necrosis stove 6 that the RF ablation pen produces the ablation of cardiac muscular tissue 1 is difficult to outside the heart Film 2 reaches the internal membrane of heart 3, that is, is difficult to transmural, so as to cause Myocardial ablation incomplete, there are the postoperative electric isolation of RF ablation " notch " occurs and the potential basis of new hair arrhythmia cordis.And increase radiofrequency ablation energy or extend ablation time so that is solidifying Solidity necrosis region 6 arrives from the external membrane of heart 2 reach the internal membrane of heart 3 greatly, and excessive necrotic extent will be so caused at the external membrane of heart 2, from And the appearance of the complication such as coronal arteriovenous damage may be caused.

Fig. 2 is the simplified basic schematic diagram that cardiac muscular tissue is melted using chemical reagent.It is in order to make it easy to understand, only aobvious in Fig. 2 Show part necessary parts.1 is cardiac muscular tissue, and 2 be the external membrane of heart, and 3 be the internal membrane of heart, and 7 be syringe needle.During ablation, syringe needle First 7 are pierced into cardiac muscular tissue 1, chemical ablation reagent are discharged at the pin hole 8 of syringe needle 7, chemical ablation reagent is near pin hole 8 Cardiac muscular tissue to surrounding spread, formed with pin hole 8 for the approximate spheres scope of the centre of sphere coagulation necrosis 9 (in this two dimensional surface Sectional view is the circle with pin hole 8 for the center of circle).Because discharging the site of chemical ablation at 1 inside approximate center position of cardiac muscular tissue 8, and chemical ablation reagent diffuses to form coagulation necrosis to surrounding, thus chemical ablation reagent is more uniformly to the external membrane of heart 2 And spread at the internal membrane of heart 3, it is easier to form the myocardium holostrome transmural necrosis 9 from the external membrane of heart 2 at the internal membrane of heart 3, complete ablation should While locating cardiac muscular tissue, avoid the occurrence of and trigger concurrently as the external membrane of heart or internal membrane of heart side ablation range of RF ablation pen are excessive Disease and opposite side ablation range is too small and the shortcomings that being not easy transmural.

Fig. 3 is the schematic diagram that normal injection syringe needle punctures atrial wall.As shown in figure 3, ordinary syringe injection needle 10 is worn During the atrial wall 1 that thorn is more belittled, the needle point 11 of injection needle easily punctures atrial wall 1.Because atrial wall 1 is typically more poor, especially The atrial wall 1 of its most patients with arrhythmia is more poor compared with ordinary people, and the distance of the external membrane of heart 2 to the internal membrane of heart 3 is close；And the heart Room is a hollow organ, and the inner side of atrial wall 1 is atrial chamber and blood, is not supported and fixed object, therefore, ordinary syringe When injection needle 10 punctures atrial wall 1, compress atrial wall first, make the external membrane of heart 2 at needle point 11 at the internal membrane of heart 3 close to and one With being convex in the chambers of the heart, and the atrial wall at this compressed it is extremely poor, once the needle point 11 of injection needle 10 punctures the external membrane of heart 2 Afterwards, drive cardiac muscular tissue 1 and the internal membrane of heart 3 together to bounce back at the same time since the external membrane of heart 2 is punctured rear elastical retraction, easily cause at the same time Needle point 11 punctures the internal membrane of heart 3 at the same time, so as to pierce through cardiac muscular tissue 1, injection needle enters in the chambers of the heart, so that can not be by chemical ablation Reagent injector enters cardiac muscular tissue, or chemical ablation reagent is penetrated into the chambers of the heart, cause ablation effect bad or chemical ablation reagent into Enter non-targeted ablation tissue and cause Accessory injury.

Fig. 4 is the front section view of the first embodiment 100 of the Myocardial ablation device of the present invention.Myocardial ablation device 100, including sleeve 101, inner core 102, fornices 109 and negative-pressure suction pipeline 103, wherein having first in the sleeve 101 Hollow pipeline 112, for the negative-pressure suction pipeline 103 on the side wall of the sleeve 101, the near-end of sleeve 101 surrounds first Hollow pipeline 112 is provided with flange 108, and the flange 108 can need to be arranged to arbitrary shape to be used for various mesh according to different , for example, as shown in figure 4, as fixed fluid injection after reaching purpose depth after cardiac muscular tissue is inserted at the tip 104 of inner core 102 The base of interface 106, or the handle gripped as user；The distal side of the inner core 102 is provided with tip 104 and nearside is set There is fluid injection interface 106 to be used to connect priming device (for example, syringe, infusion pump, micro pump etc.), and the inner core 102 has There is body portion 105, body portion 105 has the second hollow pipeline 113, wherein be configured to can be in described first in the body portion 105 Moved in vacant duct 112, second hollow pipeline 113 is connected with the fluid injection interface 106；The fornices 109 it is interior One or more negative pressure suckers 110 are provided with side wall and interior has the 3rd hollow pipeline 111, the 3rd hollow tube Road 111 is connected in the near-end of the fornices 109 with the negative-pressure suction pipeline 103；And the negative-pressure suction pipeline 103 Nearside be provided with negative port 107 be used for connect vacuum generating device.

In this embodiment, internal thread 116 is provided with the madial wall of sleeve 101, is set on the outer wall of inner core 102 There is the external screw thread 117 coordinated with the internal thread 116.As described in Figure 4, the first hollow pipeline is surrounded in the proximal end of sleeve 101 Outstanding flange 108 is set, and the flange 108 is constructed such that the arbitrary structures that the external screw thread 117 is rotationally advancing, institute State structure to be well known in the present art, such as knob etc..When inner core 102 under the auxiliary of external screw thread 117 and internal thread 116 spiral shell When revolving shape forward movement, tip 104 will be rotated around the longitudinal axis of inner core 102, so when negative pressure is applied at target ablation tissue After the external membrane of heart is attracted on negative pressure sucker 110, the tension force of the external membrane of heart can be quickly overcome easy to tip 104, is more easy to be pierced into In target ablation tissue.Due to being pierced into from side, the risk for puncturing heart wall is greatly diminished.

As shown in Figure 4, scale 114 is provided with the lower section of the nearside fluid injection interface 106 in body portion 105, scale is set The location of the head at tip 104 can be judged easy to user by putting.In Fig. 4, although display fornix portion 109 is inhaled with negative pressure Skirt road 103 integrally links together.It should be understood by those skilled in the art that the present invention is not limited to this Connection mode, fornix portion 109 can also be detachably connected with negative-pressure suction pipeline 103, are so conveniently replaceable with different arcs The fornix portion of degree is so as to adapt to the heart wall (see below) of different-thickness.It should be noted that although in the present embodiment, on inner core There is provided scale 114, but it will be appreciated to those of skill in the art that and scale can be not provided with, user can lead to The number of turns of screw thread rotation is crossed to judge the position at tip.

Fig. 5 is the top view of the fornices 109 of Myocardial ablation device 100.As shown in Figure 5, in the inner side in fornix portion 109 There is negative pressure sucker 110 of two row along the longitudinal axis symmetric arrays of Myocardial ablation device 100 on wall.It should be noted that in fornix portion 109 Side wall in, hollow pipeline between madial wall 120 and lateral wall 121 (to avoid confusion, not shown in figure, i.e. in Fig. 4 Three hollow pipelines 111) do not connected with the first hollow pipeline 112, but connect with 103 (not shown) of vacuum suction pipeline It is logical.

Fig. 6 is the schematic diagram of the first working status of the Myocardial ablation device 100 shown in Fig. 4.In the first working status Under (that is, original state), do not apply negative pressure and tip does not extend out.As shown in fig. 6, in the first operative state, in negative port Vacuum suction (note is not applied at 107：The vacuum generating device of connection not shown in figure), therefore target ablation cardiac muscular tissue 1 The external membrane of heart 2 is not attracted on negative pressure sucker 110.At this time, tip 104 is still in sleeve 101.

Fig. 7 is the schematic diagram of the second working status of Myocardial ablation device 100, in a second operative state, applies negative pressure But tip 104 does not extend out.As shown in fig. 7, at negative port 107 apply negative pressure, negative pressure suction force by negative port 107, Internal pipeline 130, the 3rd hollow pipeline 111 of negative-pressure suction pipeline 103 are delivered on negative pressure sucker 110 so that fornix portion 109 The external membrane of heart and part Epicardium tissue of institute covering part are picked up according to arrow a directions and are close to negative pressure sucker 110, the tangential direction of the heart wall of the piercing direction at such tip 104 with being picked up is parallel, that is, is not perpendicular to heart wall piercing, and It is laterally to be pierced into heart wall.

Fig. 8 is the schematic diagram of the 3rd working status of Myocardial ablation device 100.It is negative applying under the 3rd working status After pressure attracts to pick up in the external membrane of heart 2 at target ablation tissue and is close to negative pressure sucker 110, rotate fluid injection interface 106 or turn Dynamic flange 108 is so that inner core 102 corkscrews under the auxiliary of internal thread 116 and external screw thread 117 so that tip 104 rotates Ground stretches out sleeve 101 and the tangential direction parallel to heart wall is pierced into cardiac muscular tissue 1.Since tip 104 is parallel to the heart at this time The tangential direction of wall is pierced into, and the distal end that front is fornix portion 109, therefore, even without dynamics of controlling, tip 104 The external membrane of heart 2 that heart wall can be only punctured from side reaches the distal side madial wall in fornix portion 109, enters the chambers of the heart without piercing through heart wall, Thus it completely avoid the generation that prior art injection needle pierces through the complication of heart.If in order to further avoid laterally piercing The broken external membrane of heart 2, can be with as shown in figure 8, by the scale 114 being preset on the 105 near-end outer wall of body portion of inner core 102 or pass through The number of turns of screw thread rotation judges depth of needle.As shown in figure 8, in a third condition, tip 104 has been pierced into cardiac muscular tissue 1 In, scale 114 shows that tip 104 has been advanced the distance of 1 scale (1 scale can correspond to one or more pitch).

Fig. 9 is the schematic diagram of the 4th working status of Myocardial ablation device 100, and under the 4th working status, tip 104 is arrived Up to the ablation cardiac muscular tissue of target depth.Judgement for target depth, those skilled in the art can rule of thumb, for example, Preliminary experiment in experimental animal, or artificially judged according to the experience of autopsy.Preferably, can be according on inner core 102 Scale 114 or the screw thread rotation number of turns judge.Under the 4th working status, chemical ablation is injected by fluid injection interface 105 and is tried Agent, chemical ablation reagent enter target ablation group by fluid injection interface 106, the first hollow pipeline 113 of inner core 102, tip 104 In knitting, chemical ablation is carried out to target ablation cardiac muscular tissue.

Figure 10 is the left profile schematic diagram of the fornices 109 of the Myocardial ablation device 100 of the present invention.In Fig. 10, fornix The cross section in portion 109 is shown as half elliptic, and A is minor axis, and B is major diameter.The minor axis of A can be fixed size, can also root According to the position to be punctured (for example, with reference to health adult or each atrium of children and ventricle, and each heart during special heart disease The thickness value in room and ventricle wall, these referential datas can be obtained from relevant reference book and database) customize.This area skill Art personnel are understood that the cross section in fornix portion can have any shape, its design principle is the internal membrane of heart when negative pressure is applied 3 are not attracted in arched roof 115, so as to avoid tip 104 from puncturing the internal membrane of heart during piercing.

Figure 11 is the top view of an embodiment of the fornices of the Myocardial ablation device of the present invention.Such as institute in Figure 11 Show, be provided with along the longitudinal axis of the Myocardial ablation device of the present invention and assume diamond in shape the negative of symmetric arrays on the madial wall in fornix portion 209 Press sucker 210.It should be noted that in the side wall in fornix portion 209, the hollow pipeline between madial wall 220 and lateral wall 221 (to avoid confusion, not shown in figure, the 3rd hollow pipeline 111 in corresponding diagram 4) do not connected with the first hollow pipeline 212, But connected with vacuum suction pipeline (not shown).

Figure 12 is the top view of another embodiment of the fornices of the Myocardial ablation device of the present invention.Such as institute in Figure 12 Show, be provided with along the single elongated of the longitudinal axis arrangement of the Myocardial ablation device of the present invention and bear on the madial wall in fornix portion 309 Press sucker 310.It should be noted that in the side wall in fornix portion 309, the hollow pipeline between madial wall 320 and lateral wall 321 (to avoid confusion, not shown in figure, the 3rd hollow pipeline 111 in corresponding diagram 4) do not connected with the first hollow pipeline 312, But connected with vacuum suction pipeline (not shown).

Figure 13 A and Figure 13 B are the schematic diagram of two embodiments at the tip of the Myocardial ablation device of the present invention.Figure 13 A For the left view of an embodiment 404 at tip, two pairs of electrodes is provided with tip 404：Proximal electrode 430 and distal side electricity The effect of pole 432, proximal electrode and distal electrodes is the myocardial electrical activity detected in ablation areas.Also set up on tip 404 There is a side opening 431 to be used to aid in injection, side opening 431 can not only reduce the injection pressure at tip, can also expand chemistry The distribution area of reagent is melted, increases the reliability of chemical ablation and increases the success rate of ablation.Figure 13 B are another of tip The front view of embodiment 504, two pairs of electrodes is provided with tip 504：Proximal electrode 530 and distal electrodes 532, but do not have Side opening is set.

Set on tip in the embodiment of electrode, as set forth above, it is possible to which connection is placed in grooving in set medial wall of the tube The electrode cable of electrode, or electrode cable is attached on the lateral wall of inner core or on madial wall.Electrode cable can expand with outside Open up the connection such as equipment, such as display, processor, stimulation instrument.

When implementing ablation using the Myocardial ablation device of the present invention, the tip in inner core distal side is pierced into target ablation tissue It is interior, proximal electrode and the distal electrodes cardiac muscular tissue with tip and/or side opening (when being provided with side opening on tip) both sides respectively Contact, can mapping melt at this before, during and after electrocardio-activity, pass through electrode cable and connect external equipment such as display and processing Electrocardio-activity before, during and after being melted at mapping, can be delivered to processor and carry out ECG's data compression and pass through display by device etc. Display., can also be by stimulation instrument to proximal electrode and distal electrodes contact site if being connected by electrode cable with stimulation instrument Cardiac muscular tissue provides electro photoluminescence, and records electrocardio-activity, so as to carry out electrophysiologic study to heart disease and be to ablation effect Quarter is verified.

Although specific embodiments of the present invention have had been illustrated and described, come for those skilled in the art Say it is readily apparent that various other changes and modification can be made in the case where not departing from spirit and scope of the present invention.Cause This, includes belonging to all these changes and modification in the scope of the invention in appended claims.

Claims (10)

1. a kind of Myocardial ablation device, including sleeve, inner core, fornices and negative-pressure suction pipeline, wherein

There is the first hollow pipeline, the negative-pressure suction pipeline is on the side wall of the sleeve in the sleeve；

The distal side of the inner core is provided with tip and nearside is provided with fluid injection interface, and the inner core has body portion, body portion tool There is the second hollow pipeline, wherein the body portion is configured to move in first hollow pipeline, second hollow pipeline It is connected with the fluid injection interface；

One or more negative pressure suckers are provided with the madial wall of the fornices and interior has the 3rd hollow pipeline, institute The near-end that the 3rd hollow pipeline is stated in the fornices is connected with the negative-pressure suction pipeline；And the negative-pressure suction pipeline Nearside be provided with negative port and be used to connect vacuum generating device, and wherein

Internal thread is disposed with the madial wall of the sleeve, is disposed with the lateral wall of the inner core and the screw-internal thread fit External screw thread.

2. Myocardial ablation device according to claim 1, it is characterised in that be provided with a pair on the tip of the inner core Or multipair electrode.

3. Myocardial ablation device according to claim 1 or 2, it is characterised in that be provided with side on the side wall at the tip Hole.

4. Myocardial ablation device according to any one of claim 1-3, it is characterised in that the tip is vertical point End.

5. the Myocardial ablation device according to any one of claim 1-4, it is characterised in that outside the nearside in the body portion Scale is provided with wall.

6. the Myocardial ablation device according to any one of claim 1-5, it is characterised in that one or more of negative pressure The longitudinal axis of sucker along the sleeve is in single-row distribution.

7. the Myocardial ablation device according to any one of claim 1-5, it is characterised in that one or more of negative pressure Sucker is interspersed along the longitudinal axis of the sleeve in biserial.

8. the Myocardial ablation device according to any one of claim 1-5, it is characterised in that one or more of negative pressure The longitudinal axis of sucker along the sleeve is in more column distributions.

9. the Myocardial ablation device according to any one of claim 1-8, it is characterised in that the fornices are born with described Press suction pipeline detachably connected.

10. the Myocardial ablation device according to any one of claim 1-8, it is characterised in that the fornices are born with described Pressure suction pipeline integrally links together.