CN109254310A - Detection device, the imaging system including the detection device and its detection method - Google Patents

Abstract

The embodiment of the present application discloses detection device, the imaging system including the detection device and its detection method, the detection device includes: detector, for detecting the radioactive ray issued from target organism and generating corresponding electric signal in response to the radioactive ray；Fixed structure, surface corresponding to the target area for the detector to be fixed in the target organism；Processor, the electric signal for generating to the detector are handled the radioactive activity to determine the target area.By utilizing technical solution provided by the present application, cost can be reduced, reduces power consumption, improve data processing speed and provides new imaging evidence for scientific research and clinic.

Description

Detection device, the imaging system including the detection device and its detection method

Technical field

This application involves radiation detection application field, in particular to a kind of detection device, the imaging including the detection device System and its detection method.

Background technique

The description of this part only provides and discloses relevant background information to the application, without constituting the prior art.

Nuclear medicine is a kind of modern medicine image technology, by human body injection be marked with can generate γ photon or The tracer of the radionuclide of positive electron, and tracer is known by ray caused by detectable radionuclide out of the human body Agent is in the intracorporal distribution of people and change information, for the diagnosing and treating of disease.Nuclear medicine is typical molecule shadow As means, it is able to reflect the intracorporal physiology of people, metabolism, function, molecular information, is one of current main-stream medical image means.

Medicine imaging technique mainly includes positron emission tomography (Positron Emission Tomography, abbreviation PET) and single photon emission computerized tomography (Single Photon Emission Computed Tomography, abbreviation SPECT) both technologies.Wherein, PET technology and SPECT technology are mainly that snoop tag has hair respectively The drug of the radionuclide of positive electron and single photon is penetrated in the intracorporal distribution of people and change information.

It is examined in the prior art using the devices such as PET device or SPECT device to be detected to human body with aided disease When disconnected, usually by the drug injection of radioisotope labeling to human body, human body then is surrounded using the detector in device, from Different angle acquires optical signal caused by the intracorporal drug of people, optical signal collected is converted to electric signal and to telecommunications Number carry out image reconstruction, so as to determine the intracorporal diseased region of people and lesion class according to obtained reconstruction image Type.99mTc- diethyl antifebrin diglycinee (EHIDA) is carried out to baby for example, can use SPECT imaging device Hepatobiliary dynamic imaging, whereby it can be detected that whether baby suffers from congenital biliary atresia.

Summary of the invention

During realizing the application, inventor has found that PET device and SPECT device in the prior art at least exist such as Lower problem:

(1) there are the devices such as ray tube, scanning support, a large amount of detectors, this causes, and its higher cost, volume be larger, structure Complexity, and its mobility and adjustability are poor；

(2) when being checked using above-mentioned apparatus human body, can not 24 hours real-time monitoring human body situations, and can not The phase imaging of long period is carried out on demand；

(3) it is not suitable for fear of confined spaces due to the closure of above-mentioned apparatus, hyperactivity, orthopnea, can not lie down Patient etc., to affect its scope of application；

(4) need to carry out image reconstruction after acquiring all signal to obtain the distributed in three dimensions image of inside of human body, This makes the clinical data required time for obtaining having reference value from above-mentioned apparatus longer, can not make diagnosis in real time；

The purpose of the embodiment of the present application is to provide a kind of detection device, the system including the detection device, above-mentioned to solve At least one problem.

To achieve the goals above, the embodiment of the present application provides a kind of detection device comprising:

Detector, for detecting the radioactive ray issued from target organism and being produced in response to the radioactive ray Raw corresponding electric signal；

Fixed structure, table corresponding to the target area for the detector to be fixed in the target organism Face；

Processor, the electric signal for generating to the detector are handled the radiation to determine the target area Property activity.

Preferably, the detector includes:

Scintillation crystal, for receiving incident radioactive ray and generating corresponding optical signal；

Electrooptical device, the optical signal for generating the scintillation crystal are converted to electric signal；

Coupling layer, for coupling the scintillation crystal and the electrooptical device.

Preferably, the scintillation crystal is the crystal array or the continuous crystal of monolith being made of multiple crystal.

Preferably, the electrooptical device includes single-photon avalanche diode, photomultiplier tube and silicon photoelectric multiplier One of or it is a variety of.

Preferably, the coupling layer is made of optics silicone grease or optical glass.

Preferably, the fixed structure includes applying and/or fixing glue, wherein the application coats the detector Outer surface, and the application is equipped with the opening for exporting the electric signal that the detector generates；The fixed glue sticking On the bottom of the detector.

Preferably, the detection device further include:

Collimator for collimating the incident direction of the radioactive ray, and makes the radioactive ray after collimation Into the detector, the collimator is arranged between the detector and the fixed structure and passes through the fixed knot Structure and be fixed on surface corresponding to the target area.

Preferably, the collimator includes one or more collimation layers, and each collimation layer is equipped with one or more through-holes, And when the collimator includes multiple collimation layers, at least there are two be dislocation coupling between collimation layer.

Preferably, the length of the collimator can be adjusted according to the position of the target area.

Preferably, the detection device further include:

First wrapping layer is set to around the scintillation crystal.

Preferably, first wrapping layer includes with one of flowering structure: by barium sulfate, tinfoil and shading rubber belt group At three-decker, be made of barium sulfate and tinfoil double-layer structure, be made of Teflon single layer structure, by Teflon and screening The double-layer structure of optical cement band composition or the double-layer structure being made of Teflon and tinfoil, wherein the barium sulfate or the spy Fluorine dragon is located at the innermost layer of first wrapping layer and is attached at the outer surface of the scintillation crystal, and the shading rubber belt is located at The outermost layer of first wrapping layer.

Preferably, the detection device further include:

Transmission structure, electric signal transmission for generating the detector to the processor, and it includes wired Transmission module and/or wireless transport module.

The embodiment of the present application also provides a kind of imaging systems comprising: above-mentioned detection device and equipment for reconstructing image, Described image reconstructing device be used for electric signal caused by the detector in the detection device carry out image reconstruction with Obtain the distributed image of the target area in the target organism body.

Preferably, the imaging system further include:

Auxiliary device is used cooperatively together with the detection device, and including gammacamera, plate PET, plate One of SPECT, PET complete machine and SPECT complete machine are a variety of.

The embodiment of the present application also provides a kind of method that above-mentioned detection device detects organism, the method packets It includes:

Step S1: detector is fixed on appearance corresponding to the target area in target organism using fixed structure Face；

Step S2: the radioactive ray issued from the target organism is detected using the detector and is generated corresponding Electric signal；

Step S3: electric signal caused by the detector is handled using processor to determine the target area The radioactive activity in domain.

Preferably, before step S1, the method also includes:

Step S0 determines the target area in the target organism using the detector and the processor.

Preferably, before step S2, the method also includes:

The radioactive ray issued from the target organism is collimated using collimator, and is made after collimating The radioactive ray enters the detector.

As can be seen from the technical scheme provided by the above embodiments of the present application, the embodiment of the present application using fixed structure by that will be visited It surveys device and is fixed on surface corresponding to the target area in organism, without scanning support and ray tube, and detector number PET the or SPECT device of amount compared to the prior art significantly reduces, this may be implemented to reduce volume, reduces cost and simplification The purpose of structure, and the mobility and adjustability of detection device can be improved.Moreover, it is also possible to improve the use of detection device Convenience, and the phase imaging of long period with 24 hours real-time monitoring biological conditions, can be carried out on demand, it can also fit For fear of confined spaces, hyperactivity, orthopnea, the patient that can not be lieed down, this improves its scope of application.

Detailed description of the invention

In order to illustrate the technical solutions in the embodiments of the present application or in the prior art more clearly, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this The some embodiments recorded in application, for those of ordinary skill in the art, in the premise of not making the creative labor property Under, it is also possible to obtain other drawings based on these drawings.

Fig. 1 is that a kind of 3 D stereo of detection device provided by the embodiments of the present application splits the schematic diagram of structure；

Fig. 2 is the cross-sectional view of the detection device in Fig. 1；

Fig. 3 shows detector in the schematic diagram of the skin surface of human body；

Fig. 4 shows detector in the schematic diagram of the body cavity surface of human body；

Fig. 5 is the schematic diagram of animal experimental model；

Fig. 6 m- radioactive activity curve when showing corresponding to the animal experimental model in Fig. 5；

Fig. 7 is the schematic diagram of two collimation layers of dislocation coupling；

Fig. 8 is a kind of structural representation of system including the detection device in Fig. 1 and Fig. 2 provided by the embodiments of the present application Figure；

Fig. 9 is that a kind of detection device using in Fig. 1 and Fig. 2 provided by the embodiments of the present application detects organism The flow diagram of method.

Specific embodiment

Below in conjunction with the attached drawing in the embodiment of the present application, technical solutions in the embodiments of the present application carries out clear, complete Site preparation description, it is clear that described embodiment is only used for illustrating a part of the embodiment of the application, rather than all Embodiment, it is undesirable that limitation scope of the present application or claims.Based on the embodiment in the application, this field is common The application guarantor all should belong in technical staff's all other embodiment obtained without making creative work The range of shield.

It should be noted that it can be arranged directly on another when element is referred to as on " setting exists " another element On element or there may also be elements placed in the middle.When element is referred to as " connection/coupling " to another element, it be can be directly Another element is connect/be coupled in succession or may be simultaneously present centering elements.Term as used herein " connection/coupling " can To include electrical and/or mechanical-physical connection/coupling.Term as used herein "comprises/comprising" refers to feature, step or element Presence, but the presence or addition of one or more other features, step or element is not precluded.Term as used herein "and/or" includes any and all combinations of one or more related listed items.

Unless otherwise defined, all technical and scientific terms used herein and the technical field for belonging to the application The normally understood meaning of technical staff is identical.Term used herein is intended merely to the purpose of description specific embodiment, and It is not intended to limitation the application.

In addition, term " first ", " second " etc. are used for description purposes only the life similar with distinguishing in the description of the present application Object between the two and is not present sequencing, can not be interpreted as indication or suggestion relative importance.In addition, the application's In description, unless otherwise indicated, the meaning of " plurality " is two or more.

In embodiments herein, radioactive ray can refer to X-ray, gamma-rays, β ray and/or alpha ray etc.. Target organism can be the organism that pointed injection has radiopharmaceutical (being marked with radionuclide thereon), for example, people or dynamic Object is also possible to other objects for needing to detect.Target area can refer to inside organism occur abnormal organ (for example, Heart, enteron aisle, stomach etc.) region, it is also possible to the other area-of-interests for needing to detect in target organism.Target area Surface corresponding to domain can refer to the skin surface or body cavity surface of organism.Electric signal can refer to electric impulse signal, connect Continuous electric signal or discrete electric signals etc..

System and its spy to detection device provided by the embodiment of the present application, including the detection device with reference to the accompanying drawing Survey method is described in detail.

As depicted in figs. 1 and 2, the embodiment of the present application provides a kind of detection device 100, may include:

Detector 110, for detecting the radioactive ray issued from target organism and being produced in response to radioactive ray Raw corresponding electric signal；

Fixed structure 120, for detector 110 to be fixed on surface corresponding to the target area in target organism；

Processor 130, the electric signal for generating to detector 110 are handled, to determine the radiation of target area Property activity.

In embodiments herein, detector 110 may include scintillation crystal 111, the coupling set gradually from top to bottom Close layer 112 and electrooptical device 113.Scintillation crystal 111 can be used for receiving incident radioactive ray and light occurring Generated after the effects such as electrical effect, Compton effect, Rayleigh scattering and/or pair effect corresponding optical signal (such as, it is seen that Light photon).Scintillation crystal 111 may include yttrium luetcium silicate (LYSO) crystal, silicic acid lutetium (LSO) crystal, bismuth germanium oxide (BGO) crystalline substance Body, barium fluoride (BaF2) crystal, lanthanum bromide (LaBr3) crystal, yttrium aluminate (YAP) crystal, aluminic acid lutetium (LuAP) crystal, sodium iodide (NaI) one of inorganic scintillation crystals such as crystal, cesium iodide (CsI) crystal or a variety of.Scintillation crystal 111 can be to be cut completely It cuts or crystal permutation that multiple crystal for not exclusively cutting are constituted, is also possible to the continuous crystal of monolith.The axial direction of scintillation crystal 111 Can be vertical with the surface corresponding to target area, and in detection, it can be contacted with the surface.Coupling layer 112 can be with For coupled scintillation crystal 111 and electrooptical device 113, scintillation crystal 111 and electrooptical device 113 are coupled with realizing Together.Coupling layer 112 can be thickened by silicone oil made of paste (for example, optics silicone grease) form, be also possible to by Optical glass composition, can also be other guide structures.What electrooptical device 113 can be used for generating scintillation crystal 111 Optical signal is converted to electric signal, can be one in single-photon avalanche diode, photomultiplier tube and silicon photoelectric multiplier etc. Kind is a variety of, is also possible to other devices with photomultiplication effect.

It should be noted that, although illustrating only a detector 110 in attached drawing, but actually the detection device can wrap Multiple detectors 110 are included, it is not restricted to the quantity of detector 110 herein.

It is fixed after determining the target area in target organism in actual operation in embodiments herein Surface corresponding to the target area that structure 120 can be used for being fixed on detector 110 in target organism is (for example, skin Surface or body cavity surface) at, as shown in Figure 3 and Figure 4.Fixed structure 120 can be detachably connected with detector 110, and can To be any structure for not influencing radioactive ray and penetrating and there is fixed function, such as it can be application 121, but be not limited to This.Application 121 can coat the outer surface (outer surface that specifically, can refer to electrooptical device 113) of detector 110, And the periphery of its surrounding or partial region and surface corresponding to target area or the surface directly fits, so as to protect Detector 110 is fixed on surface corresponding to the target area in target organism by card.In addition, can be equipped in application 121 For the opening of detector 110 (specifically, electrooptical device 113) output electric signal, transmitted produced by detector 110 outward Electric signal.

In addition, fixed structure 120 can also include fixed glue (for example, glue) 122, detector 110 can be bonded in Bottom (specifically, can refer to the bottom of scintillation crystal 111, the i.e. side opposite with electrooptical device 113) on, Detector 110 can be fixed on surface corresponding to the target area in target organism, it is brilliant to can be also used for filling flashing Gap between body 111 and the skin surface of target organism.When fixed structure 120 includes application 121 and fixed glue 122, The fixed effect of detector 110 can be made more preferable.

In embodiments herein, processor 130 can be connect with the electrooptical device 113 in detector 110, from And the electric signal that can be exported to electrooptical device 113 is handled.Specifically, processor 130 can recorde the unit time The quantity of the electric signal that interior electrooptical device 113 exports determines in target organism so as to (1) according to the following formula Target area radioactive activity:

Ci=k*Counts (1)

Wherein, Ci indicates radioactive activity；Counts indicates the electric signal quantity in the unit time；K is fixed parameter Value.

Furthermore, it is possible to be ordinate using the time as abscissa, electric signal quantity, when drafting m- radioactive activity curve, such as Shown in Fig. 6, Fig. 6 m- radioactive activity curve when showing corresponding to the animal experimental model in Fig. 5.According to determining Radioactive activity or the when m- radioactive activity curve drawn, can determine the metabolic rule of target area, from And may determine that target area whether lesion.It is living by the radioactivity determined according to the electric signal of the detector of different location Degree, can go out lesion locations and/or disease type etc. with comprehensive descision.For example, being the situation of human body intestinal canal for target area, just Radioactive activity starts to occur in about 15min in normal situation, and radioactive activity reaches peak value and enters entire lowering rank in 1 hour Section.If m- radioactive activity curve shows that radioactive activity does not reach in 1 hour when obtained after the processing of processor 130 To peak value, then illustrate that the patient may be with obstruction of biliary tract, and the time of peak value can be reached according to radioactive activity come really Determine obstruction of biliary tract degree.For another example being the situation of human heart for target area, if processor 130 is acquired after handling When m- radioactive activity curve show that radioactive activity is not up to peak value even radioactivity missing in preset time, then says The bright patient may suffer from myocardial infarction, and can reach the time of peak value according to radioactive activity to determine the serious journey of infarct Degree.

In another embodiment of the application, before the quantity for the electric signal that record electrooptical device 113 exports, place Reason device 130 can also amplify electric signal, integrate, the processing such as analog-to-digital conversion, to convert electrical signals to digital signal, from And it is handled convenient for follow-up data.

It should be noted that processor 130 can be the processor in computer, it is also possible to entire computer, may be used also Equipment is calculated with others.

In another embodiment of the application, which can also include that the standard of setting is matched with detector 110 Straight device 140, can be used for collimating the radioactive ray issued from target organism, and penetrate the radioactivity after collimation Line enters detector 110, this can guarantee the received radioactive ray of detector 110 from its pair linear position, from And can to avoid around target organism and in vivo other signals bring interference, being directed to for subsequent probe result can be improved in this Property, and then the accuracy of follow-up diagnosis result can be improved.

Collimator 140 can be set between detector 110 and solid structure 120, and it is brilliant to be particularly provided at flashing It, can be perpendicular to surface corresponding to the target area between body 111 and application 121, and preferably.Moreover, collimation Device 140 can be fixed on corresponding to the target area in target organism together by fixed structure 120 and detector 110 Surface.It can be fixed, can also relatively move between collimator 140 and detector 110.Moreover, collimator 140 can be down to Two sides of scintillation crystal 111 and opposite with receiving plane (that is, the surface of photon being received, for example, bottom surface) are coated less Another surface, and coupling layer 112 and photoelectric conversion crystal 113 can also be coated.In addition, not wrapped in fixed structure 120 When including fixed glue 122, scintillation crystal 111 in detector 110 can be corresponding to the bottom end of collimator 140 and target area Surface directly contact；When fixed structure 120 includes fixed glue 122, the scintillation crystal 111 in detector 110 can pass through Fixed glue 122 and the surface mediate contact corresponding to the bottom end of collimator 140 and target area.

When fixed structure includes application 121, can be equipped with and the opening pair in application 121 on the top of collimator 140 The opening answered can electric signal caused by output detector 110 outward by the opening.

Collimator 140 may include one or more collimation layers, and each collimation layer is equipped with one or more through-holes, each Scintillation crystal 111 in the direction directed towards detector 110 of through-hole, and through-hole can be the shapes such as circle, triangle, polygon Shape.In addition, being dislocation coupling between wherein at least two collimation layer, and collimate layer when the collimation layer is multiple Position be it is adjustable, so as to improve the performance of collimator 140 and can satisfy different application demands.The mistake Position coupling can refer to that the center line of through-hole of two collimation layers both in series coupled is not overlapped, as shown in Figure 7.

Collimator 140 can be made of radiation proof materials such as lead after wolfram steel or package.By collimator 140, can keep away Exempt from the interference of other rays around target organism, so as to further increase the accuracy of subsequent probe result, Jin Eryou Conducive to the medical diagnosis on disease to organism.

In addition, the length of collimator 140 can be adjusted according to the position of target area, so as to flexibly make With.For example, the length of collimator 140 is longer, if the target area is part cardiac muscle to shield around target organism And other internal all signals；If the target area is entire enteron aisle, the length of collimator 140 can be significantly less than mesh Length when region is part cardiac muscle is marked, to improve the experience effect of patient.

It is located between detector 110 and application 121 it should be noted that, although illustrating only collimator 140 in figure, but real Collimator 140 can also be between detector 110 and solid gum 122 on border.

In another embodiment of the application, which can also include the first wrapping layer 150, can set It is placed in around scintillation crystal 111, to reflect the light photon generated inside scintillation crystal 111, protects scintillation crystal 111 not It is influenced by extraneous visible light signal, and can be Nian Jie to realize the fixation to scintillation crystal 111 with fixed glue 122.First Wrapping layer 150 can be single or multi-layer structure, to improve the protecting effect to scintillation crystal 111.For example, wrapping layer 150 can With the three-decker being made of barium sulfate, tinfoil and shading rubber belt etc., the double-layer structure being made of barium sulfate and tinfoil etc., The single layer structure that is made of Teflon, the double-layer structure being made of Teflon and shading rubber belt etc. or by Teflon and tinfoil The double-layer structure of equal compositions, wherein barium sulfate and Teflon can be located at the innermost layer of the first wrapping layer 150, and be attached at The outer surface of scintillation crystal 111；Tinfoil can be located at the middle layer of the first wrapping layer 150, and can be used for wrapping up barium sulfate And Teflon；Shading rubber belt can be located at the outermost layer of the first wrapping layer 150.

In another embodiment of the application, which can also include transmission structure 160, with detector 110 and processor 130 connect, can be used for electric signal transmission caused by the electrooptical device 113 in detector 110 To processor 130.The transmission structure may include wire transmission module and/or wireless transport module, wherein wire transmission mould Block can be data line or cable etc., and the wireless transport module can pass through wireless routing, WiFi agreement, purple honeybee (Zigbee) modes such as agreement are by electric signal transmission to processor 130 to carry out subsequent processing.It, can be with by transmission structure 160 Electric signal caused by detector 110 is transmitted, neatly so as to meet different application demands.

In another embodiment of the application, which can also include memory (not shown), can To connect with processor 130, with the obtained data processed result of storage processor 130, and it can also be with detector 110 In electrooptical device 113 connect, to store electric signal caused by electrooptical device 113.

In another embodiment of the application, which can also include the second wrapping layer (not shown), It can be used for the encapsulated by structures such as detector 110 and collimator 140 wherein, in order to be fixed in body cavity surface.Institute It states the second wrapping layer and can be penetrated by not influencing radioactive ray and the intracorporal material of biology can be placed in and form.

By above description as can be seen that detection device provided by the embodiments of the present application using fixed structure by that will be detected Device is fixed on surface corresponding to the target area in organism, without scanning support and ray tube, and detector quantity PET or SPECT device compared to the prior art significantly reduces, this may be implemented to reduce volume, reduce cost and simplify knot The purpose of structure, and the mobility and adjustability of detection device can be improved.Moreover, because detector is fixed on organism, Without scanning support, it is possible to be monitored whenever and wherever possible to organism, the easy-to-use of detection device can be improved in this Property, and the phase imaging of long period with 24 hours real-time monitoring biological conditions, can be carried out on demand, it can be applicable to Fear of confined spaces, hyperactivity, the patient that can not be lieed down, this improves its scope of application.In addition, detector generate electric signal it Afterwards, can electric signal in the fast recording unit time quantity to determine the radioactive activity of target area, without into Row subsequent image reconstruction, this can reduce power consumption and improve data processing speed.

The embodiment of the present application also provides a kind of system including detection device 100 described in above-described embodiment, such as Fig. 8 It is shown.The system can also include equipment for reconstructing image 200, and equipment for reconstructing image 200 can turn with the photoelectricity in detector 110 Parallel operation part 113 and/or processor 130 connect, and can be used for electricity caused by the detector 110 in detection device 100 Signal carries out image reconstruction to obtain the distributed image of the target area in target organism body.According to the distributed image, Ke Yigeng Be conducive to determine the metabolic rule of bioagent in order to subsequent scientific research, doctor can also be conducive to and intuitively diagnose birth The intracorporal diseased region of object and its type, so as to symptomatic treatment.

It should be noted that equipment for reconstructing image 200 can be integrated in one or be independently arranged with processor 130.

In addition, the system also can also include auxiliary device (not shown) in another embodiment of the application, It can be used cooperatively together with detection device 100.For different organisms, the different parts of same organism and organism The present situation, can choose using detection device 110 and/or auxiliary device, so as to further guarantee subsequent analysis Or the accuracy of diagnostic result.The auxiliary device can be gammacamera in the prior art, plate PET, plate SPECT, PET Complete machine or SPECT complete machine.

The embodiment of the present application also provides a kind of method detected using above-mentioned detection device to organism, such as Fig. 9 Shown, this method may comprise steps of:

Step S1: detector is fixed on surface corresponding to the target area in target organism using fixed structure.

After predefining the target area in target organism, it can use fixed structure and be fixed on detector Skin surface corresponding to target area in target organism or body cavity surface.

Step S2: the radioactive ray issued from target organism is detected using detector and generates corresponding electric signal.

After detector is fixed on target organism, detector can use to detect from target organism sending Radioactive ray.After detecting radioactive ray, detector can generate corresponding electric signal.

Step S3: radiation to determine target area is handled using processor electric signal caused by detector Property activity.

After detector generates electric signal, it can use in processor record unit time caused by detector 110 Then the quantity of electric signal calculates the radioactive activity of target area according to above-mentioned formula (1).Furthermore, it is possible to be with the time Abscissa, electric signal quantity are ordinate, when drafting m- radioactive activity curve.According to identified radioactive activity or The when m- radioactive activity curve drawn, can determine the metabolic rule, diseased region and/or disease class of bioagent Type etc..

In another embodiment of the application, before step S1, this method can also include:

Step S0: the target area in target organism is determined using detector and processor；

It, can be according to doctor to target organism when thering is the target organism of radiopharmaceutical to detect injection Tentative diagnosis result or the empirical data counted before primarily determine the region to be detected in target organism, then basis Region to be detected simultaneously determines target area using detector and processor.Specifically,

Place the detector skin surface corresponding to region to be detected or body cavity surface, then using detector detection from The interior radioactive ray issued of organism simultaneously generates corresponding electric signal and moves left and right detector in areas adjacent to be detected, Electric signal caused by detector is handled using processor, corresponding position when determining radioactive activity maximum It sets, so that the position is determined as target area.

The movement of the detector can be controlled by people or controller.The target area can refer to inside organism There is abnormal organ (for example, heart, enteron aisle, stomach etc.) region, is also possible to need to detect in target organism Other regions.

In another embodiment in this application, before step S0 or S2, this method can also include:

Step S4: collimating the radioactive ray issued from target organism using collimator, and makes after collimating Radioactive ray enters detector.

Before the radioactive ray using detector detection target organism, collimator can use to penetrate to radioactivity Line is collimated, then using the radioactive ray after detector detection collimation, to avoid around target organism and its in vivo The interference of other signals bring.

About the detailed description of above-mentioned steps S0-S4, it is referred to the above-mentioned description to detection device, it is no longer superfluous herein It chats.

It can be seen from the above description that the embodiment of the present application is raw by the way that detector is fixed on target using fixed structure Surface corresponding to target area in object, and the ray issued from target organism and utilization are detected using detector Processor records the quantity of electric signal caused by detector to determine the radioactive activity of target area, without carrying out Image reconstruction, this can reduce power consumption and improve data processing speed.

System, device, unit, module that above-described embodiment illustrates etc., specifically can be real by computer chip and/or entity It is existing, or realized by the product with certain function.For convenience of description, it describes to be divided into when apparatus above with function various Device describes respectively.Certainly, when implementing the application can the function of each device same or multiple computer chips and/ Or it is realized in entity.

Although this application provides the method operating procedure as described in above-described embodiment or flow chart, based on conventional or It in the method may include more or less operating procedure without creative labor.There is no must in logicality In the step of wanting causality, the execution of these steps sequence is not limited to provided by the embodiments of the present application execute sequence.

All the embodiments in this specification are described in a progressive manner, same and similar portion between each embodiment Dividing may refer to each other, and the highlights of each of the examples are differences from other embodiments.

Above-described embodiment be for convenient for those skilled in the art it will be appreciated that and being described using the application 's.Person skilled in the art obviously easily can make various modifications to these embodiments, and described herein General Principle is applied in other embodiments without having to go through creative labor.Therefore, the application is not limited to the above embodiments, Those skilled in the art do not depart from improvement that the application scope is made and modification all should be in this Shens according to the announcement of the application Within protection scope please.

Claims (17)

1. A detection device, characterized in that the detection device comprises: a detector for detecting radioactive rays emitted from the target organism and generating corresponding electrical signals in response to the radioactive rays; a fixing structure for fixing the detector on the surface corresponding to the target area in the target organism; a processor for processing the electrical signal generated by the detector to determine the radioactivity of the target area. 2. The detection device according to claim 1, wherein the detector comprises: Scintillation crystals, used to receive incident radioactive rays and generate corresponding optical signals; a photoelectric conversion device for converting the optical signal generated by the scintillation crystal into an electrical signal; a coupling layer for coupling the scintillation crystal and the photoelectric conversion device. 3 . The detection device according to claim 2 , wherein the scintillation crystal is a crystal array composed of a plurality of crystals or a monolithic continuous crystal. 4 . 4. The detection device according to claim 2, wherein the photoelectric conversion device comprises one or more of a single photon avalanche diode, a photomultiplier tube and a silicon photomultiplier. 5 . The detection device according to claim 2 , wherein the coupling layer is composed of optical silicone grease or optical glass. 6 . 6 . The detection device according to claim 1 , wherein the fixing structure comprises an application and/or a fixing glue, wherein the application covers the outer surface of the detector, and the application There is an opening for outputting the electrical signal generated by the detector; the fixing glue is adhered to the bottom of the detector. 7. The detection device according to claim 1, wherein the detection device further comprises: a collimator, used for collimating the incident direction of the radioactive rays, and allowing the collimated radioactive rays to enter the detector, the collimator being arranged between the detector and the fixed structure and is fixed on the surface corresponding to the target area by the fixing structure. 8. The detection device according to claim 7, wherein the collimator comprises one or more collimation layers, each collimation layer is provided with one or more through holes, and when the collimator When the collimator includes a plurality of collimation layers, at least two of the collimation layers are dislocation coupled. 9 . The detection device according to claim 7 , wherein the length of the collimator is adjusted according to the position of the target area. 10 . 10. The detection device according to claim 2, wherein the detection device further comprises: The first wrapping layer is arranged around the scintillation crystal. 11. The detection device according to claim 10, wherein the first wrapping layer comprises one of the following structures: a three-layer structure consisting of barium sulfate, tin foil and shading tape, a three-layer structure consisting of barium sulfate and tin foil two-layer structure, single-layer structure composed of Teflon, two-layer structure composed of Teflon and shading tape, or two-layer structure composed of Teflon and tin foil, wherein the barium sulfate or the Teflon is located in the innermost layer of the first wrapping layer and is attached to the outer surface of the scintillation crystal, the tin foil is used to wrap the barium sulfate or the Teflon, and the light shielding tape is located in the The outermost layer of the first wrapping layer. 12. The detection device according to claim 1, wherein the detection device further comprises: The transmission structure is used for transmitting the electrical signal generated by the detector to the processor, and includes a wired transmission module and/or a wireless transmission module. 13. An imaging system, comprising: the detection device according to any one of claims 1-12 and an image reconstruction device, wherein the image reconstruction device is used to detect the detector in the detection device The generated electrical signals are subjected to image reconstruction to obtain a distribution image of the target area within the target organism. 14. The imaging system of claim 13, wherein the imaging system further comprises: An auxiliary device, which is used together with the detection device, and includes one or more of a gamma camera, a flat-panel PET, a flat-panel SPECT, a PET unit, and a SPECT unit. 15. A method for detecting a living body using the detection device according to any one of claims 1-12, wherein the method comprises: Step S1: using the fixing structure to fix the detector on the surface corresponding to the target area in the target organism; Step S2: use the detector to detect the radioactive rays emitted from the target organism and generate a corresponding electrical signal; Step S3: using a processor to process the electrical signal generated by the detector to determine the radioactivity of the target area. 16. The method according to claim 15, wherein before step S1, the method further comprises: Step S0, using the detector and the processor to determine the target area in the target organism. 17. The method according to claim 15 or 16, characterized in that, before step S2, the method further comprises: The radioactive rays emitted from the target organism are collimated by a collimator, and the collimated radioactive rays enter the detector.