CN203815585U - Marker and positioning system made of marker - Google Patents

Abstract

The utility model discloses a temporary implant positioning marker used for positioning a minimal space occupying lesion in the lung. The marker comprises a head end, a tail end and a middle section, wherein the head end is capable of providing firm anchoring in the lung tissue; the tail end is capable of providing firm anchoring in the visceral pleura on the surface of the lung; the middle section is arranged between the head end and the tail end, and is used for choosing an appropriate length according to the distance from the space occupying lesion to the adjacent visceral pleura. The preformed structures of the head end and the tail end of the temporary implant positioning marker can enable the marker to be anchored in the lung tissue firmly, the structure is slender, the material is soft, the marker can be easily bent in the lung tissue after being implanted, severe lung tissue injury in the implantation process and after the implantation process is not caused, the minimal space occupying lesion in the lung tissue can also be found along the implant conveniently, and the temporary implant positioning marker is very suitable for accurately positioning the minimal space occupying lesion in the lung tissue in the thoracoscope operation.

Description

A kind of label and the navigation system made from label

Technical field

This utility model relates to a kind of medical device and technology thereof, relate to specifically a kind ofly in the accurately provisional implantation locator markers of small space occupying lesion in the lung of location of thoracoscope art, and comprise provisional implantation locator markers is accurately sent into the navigation system using in the conveyer device of assigned address in lung and implantation process.

Background technology

Pulmonary carcinoma is the modal cause of death in industrialized country.The prognosis of pulmonary carcinoma is subject to various factors, wherein the most important thing is neoplasm staging when patient is medical.The peripheral type carcinoma of lung patient that diameter is less than 30mm belongs to the optimal adaptation card of operative treatment, and 5 years survival rates after operation in patients are up to 60% ~ 80%.As the diameter of space occupying lesion in Patients with Lung is less than 10mm, many can healing after excision.At present, CT is the best means of small space occupying lesion in early diagnosis lung, along with appearance and people's the going deep into gradually small space occupying lesion understanding of importance in lung of high-resolution multi-detector CT, all have every day clinically and exist in a large number the patient of small space occupying lesion in lung to be detected, but from CT image, cannot determine merely the good pernicious of small space occupying lesion in lung, how as early as possible in clear and definite lung, space occupying lesion good pernicious become the important clinical problem that solves be badly in need of.

In the lung that CT examination is found, the good pernicious judgement of small space occupying lesion depends on the histopathological examination after aspiration biopsy or excision.Be less than or equal to small occupy-place in the lung of 10mm for diameter, fine-needle aspiration biopsy is difficulty very, and the tissue mass that biopsy obtains is few, and Chang Wufa makes pathological diagnosis accurately.In recent years, thoracoscope (VATS) has replaced traditional open chest surgery gradually, becomes the prefered method of small space occupying lesion in excision lung, and its advantage is that wound is less, can reduce as far as possible the lobe of the lung volume that needs excision, reduce the incidence rate of perioperative complications and shorten hospital stays of patient.But studies show that, cannot accurately locate with the method for observing or touch in VATS art up to small its pathological changes of occupy-place patient in 54% lung, can only turn to traditional breast pulmonary lobectomy of opening, for half reality or to be the pathological changes of ground glass sample especially true.If the diameter of the interior occupy-place of Patients with Lung is less than or equal to 10mm or space occupying lesion is greater than 5mm apart from the distance of visceral pleura, in VATS art space occupying lesion locate failed probability will be up to more than 63%, and clinical research result shows that, in the interior small space occupying lesion of this type of lung, the ratio of malignant change is up to more than 70%.Along with lung cancer morbidity rate constantly increase and CT is to the improving constantly of small space occupying lesion recall rate in lung clinically, in development VATS art, in lung, the placement technology of small space occupying lesion becomes more and more important.

There is no clinically at present small occupy-place location technology in the lung of being used widely, in the lung of applying, occupy-place location technology mainly contains three classes: the first kind is CT location in application intraoperative ultrasound or art.Intraoperative ultrasound location shortcoming is more, need make patient's the lobe of the lung wither completely when use, and this process needs consuming timely reach 30 ~ 150 minutes, and cannot carry out suffering from the emophysematous patient of diffusivity.In art, CT location is very high to equipment requirements, is subject to operating theater instruments to affect CT picture quality poor, and the operation of CT scan frame opponent art also has considerable influence.Equations of The Second Kind Intraoperative position technology is percutaneous injection dyestuff, contrast medium, radionuclide and color adsorbent etc.There is the risk of sensitization in this type of medicament, and medicament is easily at lung tissue internal diffusion, and location inaccuracy exists the patient of filling the air pathological changes to observe difficulty in pulmonary, and part medicament enters the possibility that causes in addition cerebral infarction after pulmonary vein.Three types of technology is the turn that the application hook wire that uses of breast localization and vascular embolization are used.The former is current the most conventional technology, but behind location,, because the displacement of provisional implantation locator markers causes pneumothorax, lung tissue incidence rate hemorrhage and pleura source property pain very high, severe patient also may be because causing gas embolism and death to the damage of lung tissue.

Compared with using hook wire with breast localization, the turn location interior small occupy-place wound of lung that uses vascular embolization to use is less, but there is following problem: the omnidistance tortuous curl of meeting after turn discharges, because occupy-place in different Patients with Lungs is apart from the distance difference of pleura, the density of Patients with Lung essence is also different,, turn tail end cannot guarantee to be revealed in pleura when the location, and omnidistance spiral helicine structure makes turn easily bounce back, be shifted with patient's respiratory movement afterwards in release, very easily causes and locates unsuccessfully.

Utility model content

In order to overcome the deficiencies in the prior art, this utility model provides a kind of provisional implantation locator markers and comprised accurately sends provisional implantation locator markers into the navigation system using in the conveyer device of assigned address in lung and implantation process, the head end of provisional implantation locator markers can accurately be located and discharge in lung tissue, labelling tail end can appear and firmly be anchored on visceral pleura, facilitates in art and observes or touch before excision and when postoperative pathological is drawn materials.

This utility model solves the technical scheme that its technical problem adopts:

A kind of for locating the provisional implantation locator markers of small space occupying lesion in lung, comprise the head end that firm grappling can be provided in lung tissue, can on the visceral pleura of lung surface, provide the tail end of firm grappling, and be arranged at the stage casing that can select according to space occupying lesion appropriate length apart from the distance of adjacent visceral pleura face between head end and tail end.

In this utility model, the material of described head end, stage casing and tail end can be same to each other or different to each other, and is selected from platinum-tungsten alloys, platinum, titanium alloy, Nitinol, rustless steel, rhodium, rhenium, palladium, tungsten.

In this utility model, the surface of the head end of described provisional implantation locator markers, stage casing, tail end is all with chemical fibre silk, and chemical fibre silk distributes with the spinule shape that spreads all over head end, stage casing and tail end.

In this utility model, described head end, stage casing, tail end are Microspring structure, and its head end is preformed, and spherical, the spiral annulus of tortuous one-tenth class, trefoil shape after discharging in lung tissue, to be firmly anchored in lung tissue; Microspring structure external diameter is 0.35mm ~ 0.45mm, discharges front end length within the scope of 10mm ~ 50mm, in lung tissue, discharge tortuous molding after head end maximum diameter within the scope of 2mm ~ 5mm.

In this utility model, described stage casing is pre-formed as Microspring craspedodrome section, and its length is 10mm ~ 50mm.

In this utility model, described tail end can form single circulus can appear and be firmly secured to visceral pleura surface, and the maximum diameter of monocycle is 2mm ~ 4mm.

For locating a navigation system for small space occupying lesion in lung, comprise provisional implantation locator markers, provisional implantation locator markers is accurately sent into the conveyer device of assigned address in lung and the body surface positioner for carry out CT scan before described provisional implantation locator markers is implanted time.

In this utility model, described conveyer device comprises puncture needle, label carrier and pushes seal wire, puncture needle and label carrier are hollow tubular structure, the maximum diameter of its internal diameter and provisional implantation locator markers matches, and provisional implantation locator markers can be preset in label carrier or in puncture needle.

In this utility model, on described puncture needle, label carrier and propelling movement seal wire, all indicate Position Scale, scale label spacing is 2mm.

The beneficial effects of the utility model are:

1. provisional implantation locator markers is removable provisional implant, the preform constructions of its head end can firmly be anchored in lung tissue it, simultaneously because conveyer device is tiny, implant structure is very thin, material is soft, after implantation, in lung tissue, be easy to tortuous, in implantation process and implant after can not cause serious lung injury.When lung tissue excision, also can find easily the small space occupying lesion in lung tissue along this implant;

2. provisional implantation locator markers is metal material, in thoracoscope art, can under perspective, locate easily if desired; If there is unforeseen complication, implantation locator markers as provisional in this comes off in pleural space, also can under direct-view or under guide of fluoroscopy, take out easily;

3. the preformed head end of provisional implantation locator markers can, easily in the other tortuous molding of space occupying lesion, facilitate in art and observe or touch before excision and when postoperative pathological is drawn materials;

4. provisional implantation locator markers head end can firmly be anchored to the contiguous position of space occupying lesion in lung tissue, and tail end can appear and firmly be anchored on visceral pleura;

5. the length in provisional implantation locator markers stage casing can be selected according to the distance of patient's space occupying lesion and pleura, puncture needle in position fixing process, label carrier and push Position Scale on seal wire can guarantee provisional implantation locator markers head end, stage casing and tail end respectively in lung tissue and epipleural accurate location, release;

6. provisional implantation locator markers whole process can be with chemical fibre silk, chemical fibre silk after contributing to provisional implantation locator markers to implant in lung tissue strong fix, can also clog and bring out thrombosis by physics and reach shutoff puncture channel, prevent the object of pneumorrhagia;

The head end wire diameter of provisional implantation locator markers with and on chemical fibre silk all according to the ad hoc structure of lung tissue and specialized designs is conducive to its firm grappling in lung tissue.

Brief description of the drawings

Below in conjunction with drawings and Examples, this utility model is described in further detail.

Fig. 1 ~ Fig. 3 is not with filametntary schematic diagram in provisional implantation locator markers in this utility model;

Fig. 4 ~ Fig. 6 be in this utility model in provisional implantation locator markers with filametntary schematic diagram;

Fig. 7 is the schematic diagram while provisional implantation locator markers being filled in to puncture needle in this utility model;

Fig. 8 is the schematic diagram after conveyer device assembling in this utility model.

Fig. 9 is the medical image schematic diagram that in this utility model, provisional implantation navigation system is inserted lung interior small space occupying lesion in location in lung;

Figure 10 be in this utility model by provisional implantation locator markers from releasing in puncture needle and the medical image schematic diagram of puncture needle when exiting in lung;

Figure 11 is that in this utility model, puncture needle exits rear provisional implantation locator markers and stays the medical image schematic diagram that space occupying lesion takes up wedge resection of lung scope;

Figure 12 is the enlarged diagram at A place in Fig. 3;

Figure 13 is the enlarged diagram at B place in Fig. 3.

Detailed description of the invention

With reference to Fig. 1 ~ Figure 13, an aspect of the present utility model relates to a kind of for accurately locate the provisional implantation locator markers 1 of small space occupying lesion in lung in thoracoscope art, it is removable, comprises the stage casing 12 that the head end 11 of firm grappling can be provided in lung tissue, can provide the tail end 13 of firm grappling on the visceral pleura of lung surface and be arranged at head end 11 between tail end 13.The length of provisional implantation locator markers 1 has all size, is mainly that the length in stage casing 12 is different, therefore can select the provisional implantation locator markers 1 of suitable length specification to perform the operation apart from the distance difference of pleura face according to space occupying lesion.

For the ease of understanding the concrete structure of provisional implantation locator markers 1 of the present utility model, the existing structure that the making of provisional implantation locator markers 1 is divided into three ranks, and the implementation of corresponding three ranks.

1, primary structure:

Primary structure is defined as: the alloying metal silk of diameter 0.05mm, material is platinum-tungsten alloys, platinum, titanium alloy, Nitinol, rustless steel, rhodium, rhenium, palladium or the tungsten that meets medical apparatus and instruments GB, preferred nickel/titanium alloy in this implementation.

Implementation:

Obtain meeting the nitinol alloy wire of medical apparatus and instruments GB, estimate its outward appearance integrity, with miking silk material diameter, ensure roughly homogeneous of its thickness, and check material proof list and manufacturer's inspection item report.

Nitinol alloy wire is placed on wire drawing machine, mixes up parameter, start wire drawing.

After wire drawing finishes, with miking silk material diameter, get head, in, three numerical value of tail, if diameter is 0.05mm, can thinks and obtain primary structure.

2, secondary structure:

Secondary structure is defined as, the segment Microspring of being made by primary structure alloying metal silk, external diameter is 0.35mm(or 0.45mm).

Implementation

Use existing spring bending machine, setting the parameter of bending is spring outer diameter 0.35mm(or 0.45 mm), primary structure tinsel is heated and bended.

Obtain, after the Microspring of length of outside dimension homogeneous, whole segment length's Microspring being sheared, obtain the segment Microspring of all lengths specification, the entire length of segment Microspring can be in 10mm ~ 50mm, for example 10mm, 20mm, 30mm, 40mm, 50mm.

The external diameter numerical value of the Microspring of mentioning in literary composition or micro spring or Microspring structure refer to the size of the less spring body that this secondary structure obtains.

3, tertiary structure:

We are defined as tertiary structure: two ends of the segment Microspring that secondary structure is obtained are wound around sizing, one end is more than three circles, the other end is around a circle, and the middle-end part of secondary structure spring is still for keeping straight on section, therefore tertiary structure be shaped as large, the middle little spring body in two ends.

Implementation:

Make mould with the bonding jumper of diameter 3mm, two ends of the segment Microspring that secondary structure is obtained are respectively on bonding jumper, respectively more than three circles and a circle.

Heat 50 DEG C and take off after approximately five minutes, at cold quenching-in water, sizing.

Grinding process is carried out in two ends with polisher, obtain the spring body of tertiary structure.

Large, the middle little spring body in two ends that this tertiary structure obtains is provisional implantation locator markers 1 of the present utility model.Around ends more than three circles form the head end 11 of provisional implantation locator markers 1, around the end of a circle form the tail end 13 of provisional implantation locator markers 1, the middle stage casing 12. that not have the craspedodrome section of change to form provisional implantation locator markers 1

Therefore, the head end 11 of provisional implantation locator markers 1 or tail end 13 are compound spring, be equivalent to have the spring structure of two levels, ground floor aggregated(particle) structure is that external diameter is 0.35mm(or 0.45mm) micro spring, second layer aggregated(particle) structure is the medium-sized spring body that internal diameter is about 3mm.

That the above mode obtains is a more specific embodiment, and certainly, the size of provisional implantation locator markers 1 is not merely only limited to the size that above method obtains, and after above mentioned parameter is changed, the size obtaining is also different.The shape of head end 11 and tail end 13 is also not restricted to the shape that above-mentioned method obtains.

The maximum diameter numerical value of following mentioned medium-sized spring body refer to the size of the larger spring that two ends in tertiary structure are tortuous formed.

Another aspect of the present utility model relates to a kind of in the accurately navigation system of small space occupying lesion in the lung of location of thoracoscope art, and this navigation system comprises provisional implantation locator markers 1, described provisional implantation locator markers 1 is accurately sent into the conveyer device of assigned address in lung and the body surface positioner for carry out CT scan before described provisional implantation locator markers 1 is implanted time.

The implementation of navigation system is:

The spring body entirety of tertiary structure is inserted in the hollow metal tube of conveyer device, make the spring body of tertiary structure in hollow metal tube, be returned to the form of the Microspring of secondary structure, whole tertiary structure all inserts in hollow metal tube, and this assembly forms quarternary structure.

The standard of insertion depth is that the spring body of tertiary structure inserts in hollow metal tube completely, near the point outlet of hollow metal tube, obtains complete quarternary structure assembly simultaneously.

This quarternary structure and body surface positioner form navigation system of the present utility model.

Wherein said head end 11 can provide firmly grappling in lung tissue, can be firmly secured in the contiguous lung tissue of space occupying lesion.Described head end 11 materials are the lower high-visible metal of perspective, and material softness, can be easily other tortuous agglomerating in space occupying lesion, facilitates in art and observe or touch before excision and when postoperative pathological is drawn materials.Preferably, the material of the head end 11 of described provisional implantation locator markers 1 can be platinum-tungsten alloys, platinum, titanium alloy, Nitinol, rustless steel, rhodium, rhenium, palladium, tungsten etc.More preferably, described provisional implantation locator markers 1 is rustless steel, Nitinol or platinum-tungsten alloys silk.

The external diameter of the micro spring of described head end 11 has particular restriction, it should be beneficial to from conveyer device discharges and realize nature and curl up, according to the construction features of lung tissue, show through repetition test, when the external diameter of micro spring is 0.35mm(0.014inch) or 0.45mm(0.018inch) effect is better.

Entire length for the micro spring of the head end 11 of provisional implantation locator markers 1 has no particular limits, be enough to realize and can be firmly secured in the contiguous lung tissue of space occupying lesion, for example its length can be within the scope of 10mm ~ 50mm, for example can be 10mm, 15mm, 20mm, 25mm, 30mm, 35mm, 40mm, 45mm, 50mm, preferably 20 ~ 40mm, more preferably 25 ~ 35mm.

The omnidistance with or without chemical fibre of described provisional implantation locator markers 1 silk 2.Although also can realize grappling location without the provisional implantation locator markers 1 of chemical fibre silk 2, can effectively prevent that provisional implantation locator markers 1 from coming off or move with chemical fibre silk 2, thereby realizing better grappling location.Chemical fibre silk 2 will contribute to the firm grappling of provisional implantation locator markers 1 in lung tissue and the hemostasis in implantation path.According to the construction features of lung tissue, through repetition test research, in the time that the material of described chemical fibre silk 2 is staple fibre nylon 66, result of use the best.Described chemical fibre silk 2 can anyly be conducive to described provisional implantation locator markers 1 grappling and implant the mode of stopping blooding in path distribute, and preferably distributes with the spinule shape that spreads all over provisional implantation locator markers 1 whole process.

It is upper that described chemical fibre can be set up and be distributed in described provisional implantation locator markers 1 surface by any known method, through validation trial, with canoe, described chemical fibre is set and can reduces manufacturing cost and obtain good anchoring effect.

The head end 11 of described provisional implantation locator markers 1 is Microspring structure, and it is preformed, for example, can be pre-formed as the shapes such as class is spherical, spiral annulus, Herba Trifolii Pratentis, preferably spiral annulus and cloverleaf pattern, most preferably spiral circle annular.This preformed Microspring structure remains on the form of filamentous secondary structure in the metal tube of conveyer device, it releases in conveyer device, be transported to after lung tissue, due to the memory function of metal, head end 11 and tail end 13 can return to the shape of tertiary structure after release, the head end 11 of provisional implantation locator markers 1 should be able to, easily in the other tortuous molding of occupy-place firmly grappling, facilitate in art and observe or touch before excision and when postoperative pathological is drawn materials.The maximum diameter that curls up the preform constructions of formation after the head end 11 of described provisional implantation locator markers 1 is discharged in lung tissue has no particular limits, it is enough to provide firm grappling in lung tissue, conventionally the maximum diameter after its release molding is within the scope of 2mm ~ 5mm, for example 2mm, 3mm, 4mm, 5mm, be preferably 3mm ~ 5mm, most preferably 4mm.

The stage casing 12 of the provisional implantation locator markers 1 of implanting is Microspring craspedodrome section, and its length can be selected apart from the distance of pleura face according to space occupying lesion.Normal length is 10mm ~ 50mm, for example 10mm, 20mm, 30mm, 40mm, 50mm, and the adjacent pleura of space occupying lesion distance measuring according to CT in the art of location when application is apart from selecting different stage casing 12 length.On stage casing 12, with or without chemical fibre silk 2 adheres to.

The material in described stage casing 12 is also apparent metal under soft perspective, observes or touches before excision and when postoperative pathological is drawn materials to facilitate in art.Preferably, the material in described stage casing 12 can be platinum-tungsten alloys, platinum, titanium alloy, Nitinol, rustless steel, rhodium, rhenium, palladium, tungsten etc.More preferably, described provisional implantation locator markers 1 stage casing 12 is stainless steel silk, nitinol alloy wire or platinum-tungsten alloys silk.The material in described stage casing 12 can be with head end 11 identical or different, but preferably the two is identical.

The tail end 13 of described provisional implantation locator markers 1 is also for preform constructions is by the embodiment preforming of tertiary structure, appearing and be firmly secured on visceral pleura.For example, it can form single circulus, to form firm grappling on the visceral pleura of lung surface.Described monocycle diameter is 2mm ~ 4mm, preferably 2.5mm ~ 3.5mm, most preferably 3mm.The tail end 13 of described provisional implantation locator markers 1 is also metal material, in thoracoscope art, can under perspective, locate easily if desired.Preferably, the material of the tail end 13 of described provisional implantation locator markers 1 can be platinum-tungsten alloys, platinum, titanium alloy, Nitinol, rustless steel, rhodium, rhenium, palladium, tungsten etc.More preferably, described provisional implantation locator markers 1 is stainless steel silk, nitinol alloy wire or platinum-tungsten alloys silk.

Before discharging described provisional implantation locator markers 1 can any suitable mode and/or shape remain on the front end of the label carrier 4 of conveyer device or the needle tubing of puncture needle 3, form that for example can filament is maintained in the label carrier 4 of conveyer device or the needle tubing front end of puncture needle 3.

Carry the conveyer device of provisional implantation locator markers 1 to be formed by two parts or three parts.

In the time that conveyer device is made up of two parts, delivery device body is puncture needle 3, and another part is for pushing seal wire 5.Puncture needle 3 models are 20G, 21G, 22G etc., preferably 20G, 21G, and most preferably 21G, internal diameter is 0.014inch or 0.018inch, preferably 0.018inch, the long 60mm ~ 150mm of pin, preferably 80mm ~ 120mm, most preferably 100mm.Before whole provisional implantation locator markers 1 discharges, be preset in the needle tubing of puncture needle 3 front ends, be the shape of secondary structure, when operation, pushed seal wire 5 recovers again the shape of tertiary structure after discharging in lung tissue after pushing out.

In the time that conveyer device is made up of three parts, delivery device body is puncture needle 3 and label carrier 4 these two parts, and another part is for pushing seal wire 5.Label carrier 4 is provided with the hollow metal tube identical with the inside and outside footpath of puncture needle 3 needle tubings, its model is 20G, 21G, 22G etc., preferably 20G, 21G, most preferably 21G, internal diameter is 0.014inch or 0.018inch, preferably 0.018inch, the long 60mm ~ 150mm of label carrier 4, preferably 80mm ~ 120mm, most preferably 100mm.Label carrier 4 front ends separately have spiral interface to be connected with the backshank of puncture needle 3.Before discharging, whole provisional implantation locator markers 1 is preset in the front end hollow metal tube of label carrier 4.

The diameter of described propelling movement seal wire 5 is 0.014inch or 0.018inch, the preferably propelling movement seal wire 5 with Position Scale of 0.018inch, and scale label spacing is 2mm, length is 400mm.This propelling movement seal wire 5 is stainless steel.

The space occupying lesion that can measure according to CT after puncture needle 3 punctures put in place, apart from the distance of pleura, is accurately released provisional implantation locator markers 1 with reference to the scale pushing on seal wire 5 in the pipe of conveyer device.

Of the present utility modelly relate in one aspect to again a kind of body surface positioner, described body surface positioner can for any for carry out CT scan before provisional implantation locator markers 1 is implanted time the device of location, for example body surface location scale.

Body surface Position Scale is plastic material, comprises polypropylene, polrvinyl chloride, polyethylene, polyethylene terephthalate etc.More preferably, described body surface Position Scale is polypropylene, polrvinyl chloride.Scale two ends are with medical adhesive tape and release paper, and the release paper of tearing when use can be pasted on patient skin surface by scale.On scale, has " U " shape metal witness marker every 10mm.While locating preoperative row CT scan, in CT scanner, on the locating laser graticule of target aspect and Position Scale, the cross point of metal witness marker is body surface localised puncture point.Can realize the accurate location to carrying out site of puncture by this body surface Position Scale.

In addition, another aspect of the present utility model relates to a kind of method of utilizing above-mentioned navigation system accurately to locate small space occupying lesion in lung in thoracoscope art.Specifically, it comprises following step:

select pricking body position according to the position of Diagnosing Small Space Occupying Lesions in lung shown in CT, comprise supine prostrate and lateral position;

to the capable Spiral CT scan of the local spacing 1.25mm of Diagnosing Small Space Occupying Lesions in lung;

select puncture target aspect according to CT image, application body surface Position Scale is determined rational body puncture point and puncture path, selects in principle the shortest puncture path, and avoids the important structure such as blood vessel and liver and organ;

needle angle is adjusted in the local anesthesia of row puncture path in chest wall soft tissue, and inserting needle is to the lung tissue at the interior Diagnosing Small Space Occupying Lesions of contiguous lung edge, and surveyingpin tip is apart from the distance of contiguous visceral pleura;

when provisional implantation locator markers 1 is pre-installed on puncture needle 3 head end, application push seal wire 5 by the head end of provisional implantation locator markers 1 11 by the interior release of puncture needle 3, make its tortuous being anchored in the contiguous lung tissue of lung Diagnosing Small Space Occupying Lesions and space occupying lesion distance≤10mm;

when provisional implantation locator markers 1 is pre-installed on label carrier 4, label carrier 4 is connected with the backshank of puncture needle 3, application push seal wire 5 first by provisional implantation locator markers 1 by the interior needle tubing that pushes puncture needle 3 of label carrier 4, then by releasing in needle tubing;

distance according to needle point with contiguous visceral pleura discharges provisional implantation locator markers 1 stage casing 12 by the Position Scale scale pushing on seal wire 5 in withdrawing puncture needle 3;

when 3 of puncture needles retreat to pleura face, the tail end of provisional implantation locator markers 1 13 is released; The tail end 13 of last described provisional implantation locator markers 1 forms single circulus, appears and is firmly secured on visceral pleura.Realize thus the accurate location to small space occupying lesion in lung.

repeated rows Thoracic CT scan, specifies provisional implantation locator markers 1 position and has or not pneumothorax, the complication such as hemorrhage to occur.In addition, another aspect of the present utility model relates to provisional implantation locator markers 1, positioner or the navigation system the mentioned above-mentioned aspect purposes aspect small space occupying lesion in the lung of location.

In sum, the head end 11 of provisional implantation locator markers 1 is through preforming, after being pushed to lung tissue in conveyer device, the tortuous spiral circle annular that reverts to after discharging in lung tissue, the length that discharges front end 11 length micro springs is within the scope of 10mm ~ 50mm, in lung tissue, discharge and tortuous be shaped to medium-sized spring body after head end 11 diameters within the scope of 2mm ~ 5mm.Its stage casing 12 is pre-formed as Microspring craspedodrome section, and its length is 10mm ~ 50mm, and its length can be selected apart from the distance of contiguous visceral pleura face according to space occupying lesion.Its tail end 13 can preforming form single circulus, and can appear and be firmly secured to visceral pleura surface, the maximum diameter (maximum diameter of medium-sized spring body) of tail end 13 monocycles is about 2mm ~ 4mm.

Contrast Fig. 9 ~ Figure 11, is the medical image schematic diagram under different conditions in operation process, has adopted head end 11 and tail end 13 to be the provisional implantation locator markers 1 of screw-shaped.Before operation, first provisional implantation locator markers 1 is limited in the hollow metal tube of conveyer device, makes its entirety be the linearity of secondary structure.After provisional implantation locator markers 1 enters lung tissue with the needle tubing of puncture needle 3, with reference to Fig. 9, provisional implantation locator markers 1 slowly pushes out with the pushed seal wire 5 of puncture needle 3, its head end 11 at first from puncture needle 3 out, because the metal material of head end 11 has memory function, it is tortuous again after discharging, and can be anchored to securely in lung tissue; With reference to Figure 10, provisional implantation locator markers 1 is out time, and puncture needle 3 is also slowly pulled out lung tissue, and the tail end 13 of last provisional implantation locator markers 1 also out and is firmly anchored on pleura from puncture needle 3.With reference to Figure 11, after puncture needle 3 exits completely, can excise space occupying lesion, what in Figure 11, two straight hacures and pleura surrounded be roughly fan-shaped position is cut-away area, the irregular agglomerate of white is the space occupying lesion of intending excision, and when excision, space occupying lesion and provisional implantation locator markers 1 are all moved out of external.

Below in conjunction with zoopery, the utility model is described in further detail.

Zoopery, by provisional implantation locator markers 1 of the present utility model, in animal body experiment, object is safety and the effectiveness of the provisional implantation locator markers 1 of research utility model.Specify after the interior provisional implantation locator markers 1 of laboratory animal lung tissue, the tissue pathologies change of the contiguous lung tissue of provisional implantation locator markers 1 and pleura, safety and the effectiveness of accurately locating small space occupying lesion in lung clearly to apply provisional implantation locator markers 1, provide foundation for provisional implantation locator markers 1 of the present utility model is dropped into clinical treatment.

One, laboratory animal: select 15 of body weight 15kg ~ 25kg experiment beasle dogs, male and female are not limit.

Two, experimental technique:

1, preoperative preparation: press 1mL/kg body weight with 4% pentobarbital sodium solution and calculate dosage anesthetized animal, bilateral thoracic wall point of puncture preserved skin, observes after animal eyelash reflex disappears and start experiment.

2, laboratory animal lung tissue imaging evaluation: experimental dog dorsal position is fixed on CT scan bed, application GE Lightspeed VCT 64 arranges CT scanner to the two lung thin layer helical scanning of laboratory animal row, and whether the lung tissue of observation experiment animal exists extremely.

3, provisional implantation locator markers 1 implant surgery process:

1. 15 experimental dogs are divided into three groups at random, 5 every group;

2. to the capable Spiral CT scan of the puncture local spacing 1.25mm in location;

3. select puncture target aspect according to CT image, application body surface Position Scale is determined rational body puncture point and puncture path, avoids the important structure such as blood vessel and liver and organ;

4. get provisional implantation locator markers 1 and implant, 5 experimental dogs in every group are the row bilateral pulmonary provisional implantation locator markers 1 that punctures all, and bilateral uses respectively and is pre-installed in puncture needle 3 and is pre-installed on the positioner in label carrier 4.Pin is adjusted needle angle in chest wall soft tissue, and the depth of needle in 5 experimental dog lung tissues is respectively 10mm, 20mm, 30mm, 40mm, 50mm;

5., when provisional implantation locator markers 1 is pre-installed on puncture needle 3 head end, application propelling movement seal wire 5 by releasing in pin, makes its tortuous being anchored in lung tissue by the head end of provisional implantation locator markers 1 11;

6. when provisional implantation locator markers 1 is pre-installed on label carrier 4, label carrier 4 is connected with puncture needle 3, application pushes seal wire 5 and first provisional implantation locator markers 1 is pushed in puncture needle 3 by label carrier 4 is interior, then by the interior release molding of puncture needle 3;

7. the distance with contiguous visceral pleura according to the needle point of puncture needle 3 discharges provisional implantation locator markers 1 stage casing 12 by the Position Scale scale pushing on seal wire 5 in withdrawing puncture needle 3;

8., when 3 of puncture needles retreat to pleura face, the tail end of provisional implantation locator markers 1 13 is released; The tail end 13 of last described provisional implantation locator markers 1 forms single circulus, appears and is firmly secured on visceral pleura.

9. repeated rows Thoracic CT scan at once, specifies provisional implantation locator markers 1 position and has or not pneumothorax, the complication such as hemorrhage to occur.

4, the imaging examination after provisional implantation locator markers 1 implantation: three groups of experimental dogs respectively at provisional implantation locator markers 1 implantation after 12h, 24h and 36h anesthesia Thoracic thin layer Spiral CT scan, observe position, the form of provisional implantation locator markers 1 in lung, and CT scan image at once contrasts after scanogram and provisional implantation locator markers 1 are implanted, grappling is firmly and have or not pneumothorax, the complication such as hemorrhage to occur to specify provisional implantation locator markers 1.

5, histopathological examination after provisional implantation locator markers 1 implantation: the experimental dog anesthesia after scanning is put to death, centered by thoracic wall point of puncture, successively cut skin and subcutaneous tissue, rib is cut off in separation, observation is anchored to the spring embolus tail end 13 of lung visceral pleura face, the lung tissue that complete resection comprises provisional implantation locator markers 1, excision lung preparation is analysed and observe under platform, confirm the rear row histopathological examination of provisional implantation locator markers 1, observe provisional implantation locator markers 1 local and implant on path, have or not hemorrhage, edema, the situations such as hamartoplasia, whether provisional implantation locator markers 1 grappling is firm, after implanting, at once have or not displacement, come off.

6, experimental data is collected, analyzes, is processed.

Three, experimental result is observed:

30 pieces of provisional implantation locator markers 1 are all successfully implanted, after implanting, the iconography of different time sections and histopathological examination are the situations such as provisional implantation locator markers 1 is shifted, comes off of finding, 15 provisional implantation locator markers 1 of experimental dog all occur without pneumothorax after implanting.Histopathological examination, on provisional implantation locator markers 1 grappling part and puncture path, visible Mild edema, without active hemorrhage, has no clear and definite connective tissue proliferation.

Four, conclusion

Provisional implantation locator markers 1 of the present utility model can be implanted and in the lung tissue of different depth and the contiguous accurate grappling of visceral pleura face easily, position fixing process is slight to lung injury, and behind location, provisional implantation locator markers 1 is difficult for being shifted.

Compared with prior art, provisional implantation locator markers 1 of the present utility model, navigation system have the beneficial effect of following excellence:

1. the provisional implantation locator markers 1 of this utility model is removable provisional implant, the preform constructions of its head end 11 can firmly be anchored in lung tissue it, simultaneously because its label carrier 4 is tiny, implant structure is very thin, material is soft, after implantation, in lung tissue, be easy to tortuous, in implantation process and implant after can not cause serious lung injury.After lung tissue excision, also can find easily the small occupy-place in lung tissue along this implant;

2. provisional implantation locator markers 1 of the present utility model is metal material, in thoracoscope art, can under perspective, locate easily if desired.As there is unforeseen complication, implantation locator markers 1 as provisional in this comes off in pleural space, also can under direct-view or under guide of fluoroscopy, take out easily;

3. the preforming head end 11 of the provisional implantation locator markers 1 of this utility model can be easily other tortuous agglomerating in occupy-place, facilitates in art and observe or touch before excision and when postoperative pathological is drawn materials;

4. the head end 11 of provisional implantation locator markers 1 can firmly be anchored in the contiguous lung tissue of space occupying lesion, and labelling tail end 13 can appear and firmly be anchored on visceral pleura;

5. the length in provisional implantation locator markers 1 stage casing 12 can be selected according to the distance of patient's space occupying lesion and pleura, Chiba puncture needle 3 in position fixing process, label carrier 4 and push head end 11, stage casing 12 and tail end 13 that Position Scale on seal wire 5 can guarantee provisional implantation locator markers 1 in lung tissue and epipleural accurate location, release;

6. provisional implantation locator markers 1 whole process can be with chemical fibre silk 2, chemical fibre silk 2 after contributing to provisional implantation locator markers 1 to implant in lung tissue strong fix, can also clog and bring out thrombosis by physics and reach shutoff puncture channel, prevent the object of pneumorrhagia;

7. the chemical fibre silk 2 that can have in head end 11 wire diameters of provisional implantation locator markers 1 of the present utility model and described provisional implantation locator markers 1 is all according to the ad hoc structure of lung tissue and specialized designs is beneficial to the firm grappling of described provisional implantation locator markers 1 in lung tissue.

Although, above use general explanation, detailed description of the invention and test, this utility model has been done to detailed description, on this utility model basis, can make some modifications or improvements it, this will be apparent to those skilled in the art.Therefore, these modifications or improvements on the basis of not departing from this utility model spirit, all belong to the claimed scope of this utility model.

Claims (9)

1. one kind for locating the provisional implantation locator markers of small space occupying lesion in lung, it is characterized in that: comprise the head end of firm grappling (11) can be provided in lung tissue, can on the visceral pleura of lung surface, provide the tail end (13) of firm grappling, and be arranged at the stage casing (12) that can select according to space occupying lesion appropriate length apart from the distance of adjacent visceral pleura face between head end (11) and tail end (13).

2. provisional implantation locator markers according to claim 1, it is characterized in that: the material of described head end (11), stage casing (12) and tail end (13) can be same to each other or different to each other, and is selected from platinum-tungsten alloys, platinum, titanium alloy, Nitinol, rustless steel, rhodium, rhenium, palladium, tungsten.

3. provisional implantation locator markers according to claim 1, it is characterized in that: the surface of the head end (11) of described provisional implantation locator markers (1), stage casing (12), tail end (13) is all with chemical fibre silk (2), and chemical fibre silk (2) distributes with the spinule shape that spreads all over head end (11), stage casing (12) and tail end (13).

4. provisional implantation locator markers according to claim 1, it is characterized in that: described head end (11), stage casing (12), tail end (13) are Microspring structure, its head end (11) is preformed, spherical, the spiral annulus of tortuous one-tenth class, trefoil shape after discharging in lung tissue, to be firmly anchored in lung tissue; Microspring structure external diameter is 0.35mm ~ 0.45mm, discharges front end (11) length within the scope of 10mm ~ 50mm, in lung tissue, discharge tortuous molding after head end (11) maximum diameter within the scope of 2mm ~ 5mm.

5. provisional implantation locator markers according to claim 1, is characterized in that: described stage casing (12) are pre-formed as Microspring craspedodrome section, and its length is 10mm ~ 50mm.

6. provisional implantation locator markers according to claim 1, is characterized in that: described tail end (13) can form single circulus can appear and be firmly secured to visceral pleura surface, and the maximum diameter of monocycle is 2mm ~ 4mm.

7. for locating a navigation system for small space occupying lesion in lung, it is characterized in that: comprise the provisional implantation locator markers (1) described in arbitrary claim in claim 1 ~ 6, provisional implantation locator markers (1) is accurately sent into the conveyer device of assigned address in lung and the body surface positioner for carry out CT scan before described provisional implantation locator markers (1) is implanted time.

8. navigation system according to claim 7, it is characterized in that: described conveyer device comprises puncture needle (3), label carrier (4) and pushes seal wire (5), puncture needle (3) and label carrier (4) are hollow tubular structure, the maximum diameter of its internal diameter and provisional implantation locator markers (1) matches, and provisional implantation locator markers (1) can be preset in label carrier (4) or in puncture needle (3).

9. navigation system according to claim 8, is characterized in that: on described puncture needle (3), label carrier (4) and propelling movement seal wire (5), all indicate Position Scale, scale label spacing is 2mm.