CN106466199A - Apply treatment probe and the shock wave treatment handle of shock wave to in-vivo tissue - Google Patents

Abstract

The invention provides a kind for the treatment of probe and shock wave treatment handle applying shock wave to in-vivo tissue.The treatment probe wherein applying shock wave to in-vivo tissue includes：Handle linkage section, is used for being attached in shock wave treatment handle, and its end collision energy-absorbing face is by receiving the shock of impact component in shock wave treatment handle come coupled surge wave energy；Bar-shaped intervention section, extends predetermined length from handle linkage section, is used for stretching into internal, and shock wave energy is conducted to internal；And treatment section, it is arranged at the end of intervention section, and treats the end of section and be there is the treatment face that can go deep in lesion tissue or be conflicted with lesion tissue surface, to apply shock wave to lesion tissue.Controlled accurately shock wave energy output can be realized using the solution of the present invention, and directly by shock wave in lesion tissue, solve the problems, such as that shock wave is not good because of the therapeutic effect decayed and patient variation leads to, greatly improve reliability and at utmost reduce side effect.

Description

Apply treatment probe and the shock wave treatment handle of shock wave to in-vivo tissue

Technical field

The present invention relates to medical apparatus and instruments, more particularly to a kind for the treatment of probe applying shock wave to in-vivo tissue With shock wave treatment handle.

Background technology

Shock wave is a kind of to lead to medium extremely compression to assemble generation energy by vibration, high-speed motion etc. There is the sound wave of mechanical characteristic, shock wave can cause the pressure of medium, temperature, density etc. in conductive process Physical property occurs saltatory to change.

Due to the physical characteristics of shock wave, from the beginning of last century the seventies, shock wave is applied to face by people Bed therapy field, for treating urinary system calculus.The late nineteen eighties, with the height of low energy impacts ripple Dense tissue cracking, tissue adhesion are loosened, expansion of blood vessels and revascularization, analgesia and teleneuron closing, Tissue injury repairs again and the effect such as inflammation and infection control is gradually found, and promotes shock wave in medical treatment The applied research in field, occurs in that extracorporeal shock wave therapy.

Extracorporeal shock wave therapy is in bone Muscular diseases rehabilitation, nonunion, delayed union and tendon forceps end Gradually promote in the treatment of disease.Using impact head by shock wave in human body surface, shock wave passes through Human body fluid, tissue conduction reach affected part, to be repaired to affected part and to treat.

The shock wave of existing external treatment instrument is because the medium difference in contact with human body conductive process is (as fat The soft tissues such as fat, tendon, ligament and skeletal tissue etc.), different mechanical stresses can be produced, the rushing of high frequency Hitting ripple can be by different degrees of decay in conductive process along spike.And the muscle of difference patient, fatty group The thickness knitted is also different, and its therapeutic effect of identical treatment scheme for same position also has difference.

Therefore, because the physical difference of the histological difference of lesions position and different patient, lead to shock wave real The energy value that border acts on affected part is difficult to judge and calculates, and is located at away from body surface relatively especially for some lesion tissue Deep position (such as femoral head, hip joint etc.) or lesion tissue are located at the interior situation of skeletal tissue, The accuracy of extracorporeal impact wave therapy or reliability are greatly reduced and even cannot use.

In addition the shock wave energy of the output of existing shock wave treatment instrument is not accurately precisely treated it is impossible to meet Requirement.

Content of the invention

It is an object of the present invention to effectively improving shock wave treatment reliability and accuracy.

The present invention one further objective is that shock wave to be made meets and different lesion tissue treated Require.

The present invention another further objective is that tissue injury that shock wave to be avoided is likely to result in effectively Reduce potential risk.

Especially, the invention provides a kind for the treatment of applying shock wave to in-vivo tissue is popped one's head in.This is to internal The treatment probe that tissue applies shock wave includes：Handle linkage section, is used for being attached in shock wave treatment handle, The end of handle linkage section has collision energy-absorbing face, by receiving the hitting of impact component in shock wave treatment handle Hit coupled surge wave energy；Bar-shaped intervention section, extends predetermined length from handle linkage section, for edge Scope sleeve pipe stretches in vivo, and shock wave energy is conducted to internal；And treatment section, it is arranged at intervention section End, and treat the end of section have can go deep in lesion tissue or with controlling of conflicting in lesion tissue surface Treatment face, to apply shock wave to lesion tissue.

Alternatively, it is provided with Pneumatic Lithotripsy impact assembly in above shock wave treatment handle, impact component is in gas Pressure moves back and forth under driving in Pneumatic Lithotripsy, and handle linkage section includes：Energy coupling portion, it is at least A part is used for being arranged in Pneumatic Lithotripsy, and energy coupling portion stretches into end face in Pneumatic Lithotripsy as touching Hit energy-absorbing face, energy coupling portion stretches into end face in Pneumatic Lithotripsy as collision energy-absorbing face, and collision energy-absorbing Face, as the reciprocating terminal of impact component, the shock kinetic energy of impact component is coupled as described punching Hit wave energy；And fixed part, be connected with energy coupling portion, be arranged at the outside of Pneumatic Lithotripsy, and with punching Hit wave treatment handle to be fixedly connected.

Alternatively, energy coupling portion and fixed part are cylinder, and the diameter in energy coupling portion and air pressure The internal diameter of trajectory is adapted, the diameter with diameter greater than energy coupling portion of fixed part.

Alternatively, the outer rim of fixed part offers two or more annular grooves, and treat probe and also include： Two or more elastic washers, are respectively embedded in annular groove, and the outer surface of elastic washer protrudes from the outer of fixed part Edge, by elastic washer and shock wave treatment handle contact, to avoid conducting shock wave energy to shock wave On treatment handle.

Alternatively, intervention section includes：Connecting portion, is connected with handle linkage section, and its external diameter prolongs along intervention section Stretch direction and be tapered to preset value；And extension, it is connected with connecting portion, its external diameter is set to preset value.

Alternatively, preset value span is 2mm to 10mm, is selected with the position according to lesion tissue.

Alternatively, treatment section is extended with default bending curvature from the end of intervention section, so that the laminating for the treatment of face is partially From in the lesion tissue of intervention section bearing of trend.

Alternatively, the end treating section from intervention section is along straight-line extension, so that fitting with respect to intervention in treatment face Section bearing of trend lesion tissue, and treat face be shaped as following any one：Extension along treatment section Direction is protruded；Recessed along the bearing of trend for the treatment of section；It is predetermined angle with respect to the bearing of trend for the treatment of section Inclined-plane；The plane vertical with the bearing of trend for the treatment of section.

Alternatively, intervention section and treatment section length sum span be 5cm to 30cm, with according to The depth of lesion tissue selects.

According to another aspect of the present invention, additionally provide a kind of shock wave treatment handle.This shock wave treatment Handle includes handle body；Described above any one to in-vivo tissue apply shock wave treatment probe, its In removably mode or the mode that is fixedly connected is arranged in handle body handle linkage section.

The treatment probe applying shock wave to in-vivo tissue of the present invention, is controlled using handle linkage section and shock wave Treat handle to be connected, thus being coupled out the shock wave producing preset energy, by Jie bar-shaped and that there is certain length Enter section and stretch in patient body, directly the treatment face for the treatment of section is contacted with lesion tissue, so that shock wave is directly made For lesions position, it is to avoid the therapeutic effect difference that led to due to tissue shock wave difference in attenuation, Solve the problems, such as that shock wave is not good because of the therapeutic effect decayed and patient variation leads to, greatly improve reliability Property and at utmost reduce side effect.

Further, the treatment probe applying shock wave to in-vivo tissue of the present invention, can be according to treatment Position and the disease being suitable for, adapt to the lesion tissue of different parts, the treatment face of configurable various structures, many Plant selectable length and diameter, therapentic part of effectively fitting, to reach accurate, effective, controlled treatment Result.

In addition, the shock wave treatment handle of the present invention, can be optionally removably or fixing Handle body is fixed by the mode connecting with the above treatment probe applying shock wave to in-vivo tissue, front Person saves treatment cost, is easy to treat the replacing of probe, and the Disinfection Effect of the latter is more preferably it is ensured that treat Safety.And this shock wave treatment handle, output on the treatment face for the treatment of probe can be accurately controlled It is achieved that the output of controlled accurately energy, the therapeutic scheme according to meeting disease practical situation carries out defeated energy Go out shock wave.

According to the detailed description to the specific embodiment of the invention below in conjunction with accompanying drawing, those skilled in the art will More understand above-mentioned and other purposes, the advantages and features of the present invention.

Brief description

Describe in detail by way of example, and not by way of limitation with reference to the accompanying drawings hereinafter the present invention some are concrete Embodiment.In accompanying drawing, identical reference denotes same or similar part or part.Art technology Personnel are it should be understood that what these accompanying drawings were not necessarily drawn to scale.In accompanying drawing：

Fig. 1 is the signal of the treatment probe applying shock wave to in-vivo tissue according to an embodiment of the invention Structure chart；

Fig. 2 is the signal of the treatment probe applying shock wave to in-vivo tissue according to another embodiment of the present invention Structure chart；

Fig. 3 is the signal of the treatment probe applying shock wave to in-vivo tissue according to another embodiment of the present invention Structure chart；

Fig. 4 is the signal of the treatment probe applying shock wave to in-vivo tissue according to another embodiment of the present invention Structure chart；And

Fig. 5 is the schematic diagram of shock wave treatment handle according to an embodiment of the invention；And

Fig. 6 is the treatment of the treatment probe applying shock wave to in-vivo tissue according to an embodiment of the invention The block architecture diagram of system.

Specific embodiment

Fig. 1 is the signal of the treatment probe applying shock wave to in-vivo tissue according to an embodiment of the invention Structure chart.The treatment probe that this applies shock wave to in-vivo tissue can include in general manner：Handle linkage section 110th, intervention section 120, treatment section 130.In some embodiments of the present invention, handle linkage section 110, Jie Enter section 120 and treatment section 130 is made by homogeneous material is integrally formed, a kind of optional structure is Can be for multiple coaxial cylindrical parts with upper-part.

Handle linkage section 110, is used for being attached in shock wave treatment handle, have for shock wave treatment The mounting structure that handle is adapted, the end of handle linkage section 110 has collision energy-absorbing face 111, by connecing The shock receiving impact component in shock wave treatment handle carrys out coupled surge wave energy.In shock wave treatment handle In the case of being provided with Pneumatic Lithotripsy impact assembly, handle linkage section 110 can include：Energy coupling portion 112 With fixed part 113.At least a portion in wherein energy coupling portion 112 is used for being arranged in shock wave treatment handle Pneumatic Lithotripsy in, end face in Pneumatic Lithotripsy is stretched into for collision energy-absorbing face 111 with it, collision energy-absorbing face is made For the reciprocating terminal of described impact component, the shock kinetic energy of impact component is coupled as shock wave Energy.

Fixed part 113, is connected with energy coupling portion 112, for being arranged at the outside of Pneumatic Lithotripsy, and with Shock wave treatment handle is fixedly connected.Energy coupling portion 112 and fixed part 113 can be disposed as cylinder, And the diameter in energy coupling portion 112 is adapted with the internal diameter of Pneumatic Lithotripsy, fixed part 113 with diameter greater than The diameter in energy coupling portion 112.Two or more annular grooves are offered on the outer rim of fixed part 113, and to The treatment probe that in-vivo tissue applies shock wave also includes：Two or more elastic washers 141,142, respectively In embedded annular groove, the outer surface of elastic washer 141,142 protrudes from the outer rim of fixed part 113, by bullet Property packing ring 141,142 and shock wave treatment handle contact, kept away with the buffering using elastic washer 141,142 Exempt to conduct shock wave energy to shock wave treatment handle.

Bar-shaped intervention section 120, extends predetermined length from handle linkage section 110, for along scope sleeve pipe Stretch in patient body, shock wave energy is conducted in the pure man body.Because shock wave energy is along intervention section 120 Bearing of trend propagated, its transmission path is uniformly so that shock wave can be directly entered inside of human body. Intervention section 120 can include：Connecting portion 121 and extension 122.Wherein, connecting portion 121 with left-hand seat The fixed part 113 of handle linkage section 110 is connected, and its external diameter is tapered to default along the bearing of trend intervening section 120 Value.Extension 122 is connected with connecting portion 121, and its external diameter is set to preset value.The value of above preset value Scope be 2mm to 10mm, can according to lesion tissue position select, during treatment select internal diameter and its The scope sleeve pipe of adaptation uses cooperatively.Diameter due to above extension 122 may be straight with fixed part 113 Footpath gap is larger, therefore pass through arrange connecting portion 121 it is ensured that shock wave treatment probe bulk strength.

Treatment section 130, is connected with the end of intervention section 120, and treat that the end of section 130 has can be deep Enter lesion tissue or the treatment face 131 conflicted with lesion tissue surface, treatment face 131 is used for making shock wave For lesion tissue.Treatment face 131 shock wave of just above preset energy can directly act on lesion tissue On, compared to existing extracorporeal impact wave therapy device, the controlling to in-vivo tissue applying shock wave of the present embodiment The shock wave energy treating probe to affected area applying is more accurate, is easy to treatment personnel and determines correspondence according to disease Therapeutic scheme, and the effect of therapeutic scheme is realized by the difference reducing shock wave attenuation.

The bearing of trend for the treatment of section 130 is consistent with intervention section 120 bearing of trend, that is, treatment section and intervention The axial centre of section is identical, and treats the shape in face 131 and can be configured according to the shape of lesion tissue, Fig. 1 to Fig. 3 respectively illustrates three kinds for the treatment of faces of different shapes, wherein, the treatment face shown in Fig. 1 131 Bearing of trend along treatment section 130 protrudes, and can be depressed in the situation of surrounding tissue for lesion tissue.Figure Treatment face shown in 2 132 is recessed along the bearing of trend for the treatment of section 130, can be raised in for lesion tissue The situation of surrounding tissue.Treatment face shown in Fig. 3 133 is default with respect to the bearing of trend for the treatment of section 130 The inclined-plane of angle, can be for the treatment probe situation in a certain angle with lesion tissue plane.With upper angle 30 degree, 45 degree, 60 degree etc. can be flexibly set to, to adapt to different lesions positions.Need explanation It is that the treatment applying shock wave to in-vivo tissue of the present embodiment is popped one's head in can be according to the shape of human body different tissues Shape configuration is corresponding to treat face, is more than example arrangement, not the present embodiment is applied to in-vivo tissue Plus the treatment face structure of the treatment probe of shock wave is defined.

Fig. 4 is the signal of the treatment probe applying shock wave to in-vivo tissue according to another embodiment of the present invention Structure chart, in the treatment probe applying shock wave to in-vivo tissue shown in Fig. 4, treatment section 130 is from Jie The end entering section 120 is extended with default bending curvature, so that treatment face 134 and the extension side intervening section 120 To in predetermined angle, such that it is able to by treatment face 134 can touch with intervene section bearing of trend cannot be direct Relative lesions position, for example, treat probe using this kind and can go deep into the special focus such as internal in knee joint Position.

According to inventor's clinical experience for many years and substantial amounts of test, intervention section 120 and treatment section 130 Span be 5cm to 30cm, selected with the depth according to described lesion tissue, this length can expire The treatment of the most of disease of foot needs.

Fig. 5 is the schematic diagram of shock wave treatment handle according to an embodiment of the invention.This impact Wave treatment handle include handle body 200 and described above any one apply shock wave to in-vivo tissue Treatment probe, its handle linkage section 110 is removably or the mode that is fixedly connected is arranged at handle In body 200.

When handle linkage section 110 is removably arranged in handle body 200, a kind of optional company The mode that connects has probe installation cavity for handle body 200 front end, and handle linkage section 110 is installed on probe and installs In chamber, the outer surface of outer cover forming probe installation cavity can be connected with locking cap by clamping or screw connection manner, Connecting portion handle linkage section 110 is pressed in probe installation cavity locking cap, and intervention section 120 is from locking cap Through hole stretches out shock wave generating means.Collision energy-absorbing face 111 receives Pneumatic Lithotripsy 220 inner impact element 210 Shock, thus producing shock wave.Impact component 210 is moved back and forth by air pressure drives edge Pneumatic Lithotripsy 220, Collision energy-absorbing face 111 as the reciprocating terminal of impact component, by changing impact component 210 Motion frequency and speed, realize the adjustment to the energy of the shock wave of release on treatment face.

Elastic washer 141,142 avoids treatment probe and the handle body applying shock wave to in-vivo tissue 200 on the direction along Pneumatic Lithotripsy 220 directly contact, serve cushioning effect, it is to avoid shock wave Decay.The outer surface of handle body 200 can be provided with for hand-held concaveconvex structure, is easy to operator's Operation.

The treatment probe applying shock wave to in-vivo tissue of the present embodiment is become by homogeneous material one Shape is made, for example, can use the metal materials such as titanium alloy stainless steel, the high score such as synthetic resin, polymeric material Sub- material, the Inorganic Non-metallic Materials such as sintering pottery make above treatment probe.These materials need to meet punching Hit the acoustic impedance of wave energy conduction, and the pressure that above impact component 210 clashes into can be stood, separately Above material also needs to meet the requirement of sterilization outward, to ensure to treat reliability and the safety of probe.

The shock wave energy of existing shock wave treatment instrument output is not accurate.Due to lacking accurate energy control System and measuring method, the numerical value that the Energy Conversion that power source exports draws typically is come by existing shock wave treatment instrument Indicate shock wave energy, can not directly and accurately reflect the shock wave energy of reality output, lead to using punching Hit ripple to carry out treating the energy output that cannot accurately realize therapeutic scheme requirement, have impact on shock wave treatment Effect, does not reach the purpose of accurate treatment.

The treatment probe applying shock wave to in-vivo tissue of the present embodiment, is measured using accurate shock wave energy Amount method, accurately control treatment probe treatment face 131 on output energy it is achieved that controlled accurately Energy exports, and the therapeutic scheme according to meeting disease practical situation carries out exporting shock wave.And due to impact Ripple can directly act on lesion locations, substantially increases the therapeutic effect of shock wave treatment instrument.

Fig. 6 is the treatment of the treatment probe applying shock wave to in-vivo tissue according to an embodiment of the invention The block architecture diagram of system；This treatment system can include：Display device 310, control main frame 320, source of the gas Device 330, endoscope and image processing device 340 and shock wave treatment handle 350.When being treated, basis first The result of diagnosis, inputs or selects the therapeutic scheme setting using control main frame 320, permissible in therapeutic scheme Including：Compressed air source unit 330 output air pressure, the collision frequency of impact component 210, clash into number of times and Energy of shock wave etc..Display device 310 can be used for the controlling interface of output control 320.Preferably, This treatment system, according to treatment position and focus practical situation, selects corresponding treatment to pop one's head in and arrange impact Wave energy.Accurately shock wave can be exported using this treatment system one side, on the other hand can will impact Ripple acts on lesion tissue, make the shock wave of controllable precise can directly act on lesions position or with focus institute Tissue at, reach the purpose of accurate treatment.

Treatment probe is visited for any one treatment applying shock wave to in-vivo tissue introduced in above example Head, the shock wave pre-setting energy size is applied directly in lesion tissue.

When being treated using above-mentioned treatment system, first corresponding treatment can be selected according to diagnostic result Probe.In use, can be required according to actual therapeutic, design, exploitation, the corresponding treatment of configuration Probe.Treatment personnel's hand-held impact wave treatment handle 350, will be to body by scope sleeve pipe using Minimally Invasive Surgery Inner tissue applies at least a portion of intervention section 120 for the treatment of probe of shock wave and treatment section 130 imports and suffers from In person's body, additionally by another Minimally Invasive Surgery by endoscope and image processing device 340 in the patient deeply, auxiliary treatment simultaneously Personnel searching lesion tissue, personnel are under the guide of endoscope and image processing device 340 for treatment, switching impulse wave treatment handle 350 will treat face 131 is aligned and fits treatment sites.Compressed air source unit 330 can adjust according to therapeutic scheme Shock wave is directly acted on treatment sites by shock wave treatment handle 350 by the energy of shock wave.Due to The treatment probe applying shock wave to in-vivo tissue that shock wave passes through the present embodiment is conducted, it is to avoid people The impact of the mechanical stress of body tissue shock wave and decay is so that the reliability of shock wave treatment carries significantly High.

Above endoscope and image processing device can be wholely set with shock wave treatment system, in some alternative embodiments, Can be using the endoscope and image processing device being independently arranged, cooperation shock wave treatment system carries out internal shock wave treatment.

Above lesion tissue and can for but be not limited to：Osseous tissue, tendon tissue, organs and tissues, realize Treatment to diseases such as osteonecrosis, repair of cartilage.Over the course for the treatment of, it is possible to use multiple default Therapeutic scheme applies shock wave it is also possible to carry out flexible according to clinical experience, meets wanting of different treatments Ask.

So far, although those skilled in the art will appreciate that detailed herein illustrate and describe the present invention's Multiple exemplary embodiments, but, without departing from the spirit and scope of the present invention, still can be according to this Disclosure of invention directly determines or derives other variations or modifications of many meeting the principle of the invention.Cause This, the scope of the present invention is it is understood that and regard as covering other variations or modifications all these.

Claims (10)

1. a kind for the treatment of applying shock wave to in-vivo tissue is popped one's head in it is characterised in that including：

Handle linkage section, is used for being attached in shock wave treatment handle, the end of described handle linkage section has Collision energy-absorbing face, by receiving the shock of impact component in described shock wave treatment handle come coupled surge wave energy Amount；

Bar-shaped intervention section, extends predetermined length from described handle linkage section, for stretching into along scope sleeve pipe In vivo, described shock wave energy is conducted to internal；And

Treatment section, is arranged at the end of described intervention section, and the end of described treatment section has and can go deep into disease The treatment face conflicted in stove tissue or with lesion tissue surface, to apply shock wave to described lesion tissue.

2. treatment probe according to claim 1, is provided with Pneumatic Lithotripsy punching in described shock wave treatment handle Hit assembly, described impact component air pressure driving under in described Pneumatic Lithotripsy move back and forth it is characterised in that Described handle linkage section includes：

Energy coupling portion, it is used for being arranged in described Pneumatic Lithotripsy at least partially, and described energy coupling Conjunction portion stretches into end face in described Pneumatic Lithotripsy as described collision energy-absorbing face, and described collision energy-absorbing face is made For the reciprocating terminal of described impact component, the shock kinetic energy of impact component is coupled as described punching Hit wave energy；And

Fixed part, is connected with described energy coupling portion, is arranged at the outside of described Pneumatic Lithotripsy, and with described Shock wave treatment handle is fixedly connected.

3. according to claim 2 treatment probe it is characterised in that

Described energy coupling portion and described fixed part are cylinder, and

The diameter in described energy coupling portion is adapted with the internal diameter of described Pneumatic Lithotripsy, the diameter of described fixed part Diameter more than described energy coupling portion.

4. according to claim 3 treatment probe it is characterised in that

Two or more annular grooves are offered on the outer rim of described fixed part, and described treatment probe also includes：

Two or more elastic washers, are respectively embedded in described annular groove, and the outer surface of described elastic washer protrudes In the outer rim of described fixed part, by described elastic washer and described shock wave treatment handle contact, to avoid Described shock wave energy is conducted to described shock wave treatment handle.

5. treatment probe according to claim 1 is it is characterised in that described intervention section includes：

Connecting portion, is connected with described handle linkage section, and its external diameter is tapered to along the bearing of trend of described intervention section Preset value；And

Extension, is connected with described connecting portion, and its external diameter is set to described preset value.

6. according to claim 5 treatment probe it is characterised in that

Described preset value span is 2mm to 10mm, is selected with the position according to described lesion tissue.

7. according to claim 1 treatment probe it is characterised in that

Described treatment section is extended with default bending curvature from the end of described intervention section, so that described treatment face patch Close the lesion tissue deviating from described intervention section bearing of trend.

8. according to claim 1 treatment probe it is characterised in that

Described treatment section from described intervention section end along straight-line extension so that described treatment face laminating with respect to Described intervention section bearing of trend lesion tissue, and described treatment face be shaped as following any one：

Bearing of trend along described treatment section protrudes；

Recessed along the bearing of trend of described treatment section；

The inclined-plane being predetermined angle with respect to the bearing of trend of described treatment section；

The plane vertical with the bearing of trend of described treatment section.

9. according to claim 1 treatment probe it is characterised in that

Described intervention section and described treatment section length sum span be 5cm to 30cm, with according to The depth of described lesion tissue selects.

10. a kind of shock wave treatment handle is it is characterised in that include：

Handle body；And

The treatment applying shock wave to in-vivo tissue as claimed in any of claims 1 to 9 is visited Head, in removably mode or the mode that is fixedly connected is arranged at described handle body to its handle linkage section Interior.