CN109376808B - Method and device for monitoring treatment process of biological tissue or organ - Google Patents

Abstract

The invention discloses a method and a device for monitoring the processing flow of biological tissues or organs, wherein one method is suitable for a server, the biological tissues or organs are placed in a first box body, and a first box body identification code pointing to a preset file address is arranged on the first box body; the method comprises the following steps: acquiring patient information related to a biological tissue or organ, and processing operations and sequences thereof that need to be performed on the biological tissue or organ; acquiring a preset file address through an A-type identification code label matched with the first box body; writing patient information related to the biological tissue or organ, and processing operations to be performed on the biological tissue or organ and the sequence thereof into a preset file address; generating a B-type identification code pointing to a preset file address, wherein the B-type identification code is used for being arranged on a sterile transport device and/or a processing flow sheet of biological tissues or organs; the processing operation actually performed on the biological tissue or organ and the time at which the processing operation is performed are acquired in real time by the class B identification code.

Description

Method and device for monitoring treatment process of biological tissue or organ

Technical Field

The invention relates to the technical field of aseptic treatment of biological tissues or organs, in particular to a method and a device for monitoring a treatment process of the biological tissues or organs.

Background

When a surgery is performed in a hospital, it is sometimes necessary to take out a tissue or an organ such as a bone of a patient or an animal, store the tissue or the organ for pathological study, or implant the tissue or the organ into the human body or the animal after treatment. The processing of biological tissues or organs is often not in the same location and requires transportation to other locations for processing, such as packaging and frozen storage. The biological tissues or organs should not be contaminated by exogenous microorganisms after leaving the organism, and various biological tissues or organs must be subjected to aseptic inspection, packaging and transportation according to regulations, and all operations should be carried out under aseptic conditions.

However, the inventors found that the following problems exist in the conventional treatment process of biological tissues or organs: 1. because the treatment of biological tissues or organs is carried out in a sterile environment or stored in the sterile environment, the biological tissues or organs are inconvenient to view and track by people; 2. the aseptic processing procedures for biological tissues or organs are more, error-prone and serious consequences are caused, and especially, once the processing process of human tissues is wrong, the processing process of the tissues or organs of the patient A is wrong, or the tissues or organs of the patient A are implanted into the patient B, the life safety of people can be endangered.

Disclosure of Invention

The embodiment of the invention provides a method and a device for monitoring a treatment process of a biological tissue or organ, which aim to solve the problems that the existing method is inconvenient to check and track manually and is easy to make mistakes.

The invention provides a method for monitoring the processing flow of biological tissues or organs, which is suitable for a server, wherein the biological tissues or organs are placed in a first box body, and a first box body identification code pointing to a preset file address is arranged on the first box body; acquiring patient information related to the biological tissue or organ, and processing operations and sequences thereof that need to be performed on the biological tissue or organ; acquiring the preset file address through an A-type identification code label matched with the first box body; the A-type identification code label is used for being arranged on a case and/or a patient care list and pointing to the preset file address; writing the patient information related to the biological tissue or organ, the processing operation to be executed on the biological tissue or organ and the sequence thereof into the preset file address; generating a B-type identification code pointing to the preset file address; the B-type identification code is used for being arranged on a sterile transportation device and/or a processing flow sheet of the biological tissue or organ; the first box body and the biological tissue or organ placed in the first box body are transported by a sterile transport device which is a movable sterile closed space; the processing flow sheet is used for determining processing operation; and acquiring the actually executed processing operation of the biological tissue or organ and the executed time of the processing operation in real time through the B-type identification code.

The invention provides a method for monitoring the processing flow of biological tissues or organs, which is suitable for operating equipment, wherein the biological tissues or organs are placed in a first box body, and a first box body identification code pointing to a preset file address is arranged on the first box body; the first box and the biological tissue or organ placed in the first box are transported by a sterile transport device, and the sterile transport device is provided with a movable sterile closed space; the method comprises the following steps: acquiring a first class B identification code on the sterile transport device; acquiring a second type-B identification code on the processing flow sheet; the processing flow sheet is transported together with the corresponding biological tissue or organ and is used for operating equipment to determine processing operation; judging whether the file addresses corresponding to the first B-type identification code and the second B-type identification code are consistent or not; and when the file addresses corresponding to the first B-type identification code and the second B-type identification code are consistent, executing the processing operation to the biological tissue or organ and the processing operation in sequence according to the processing operation which is stored in advance in the file address corresponding to the first B-type identification code or the second B-type identification code and needs to be executed to the biological tissue or organ.

The third aspect of the invention provides a device for monitoring the processing flow of biological tissues or organs, which is suitable for a server, wherein the biological tissues or organs are placed in a first box body, and a first box body identification code pointing to a preset file address is arranged on the first box body; a first acquisition unit for acquiring patient information relating to the biological tissue or organ, and a processing operation and a sequence thereof to be performed on the biological tissue or organ; the second acquisition unit is used for acquiring the preset file address through an A-type identification code label matched with the first box body; the A-type identification code label is used for being arranged on a case and/or a patient care list and pointing to the preset file address; a writing unit, configured to write the patient information related to the biological tissue or organ, and the processing operation and the sequence thereof to be performed on the biological tissue or organ into the preset file address; the first generation unit is used for generating a B-type identification code pointing to the preset file address; the B-type identification code is used for being arranged on a sterile transport device and/or a processing flow sheet of the biological tissue or organ; the first box body and the biological tissue or organ placed in the first box body are transported by a sterile transport device, and the sterile transport device is a movable sterile closed container; the processing flow sheet is used for determining processing operation; and the third acquisition unit is used for acquiring the processing operation actually executed by the biological tissue or organ and the time when the processing operation is executed in real time through the B-type identification code.

The fourth aspect of the present invention provides a device for operating a processing procedure of a biological tissue or organ, which is suitable for operating equipment, wherein the biological tissue or organ is placed in a first box body, and a first box body identification code pointing to a preset file address is arranged on the first box body; the first box and the biological tissue or organ placed in the first box are transported by a sterile transport device, and the sterile transport device is provided with a movable sterile closed space; the device comprises: a ninth acquiring unit, configured to acquire the first class B identifier on the sterile transport device; a tenth acquiring unit, configured to acquire a second class B identifier on the processing flow sheet; the processing flow sheet is transported together with the corresponding biological tissue or organ and is used for operating equipment to determine processing operation; a fifth judging unit, configured to judge whether file addresses corresponding to the first class B identifier and the second class B identifier are consistent; and the execution unit is used for executing the processing operation to the biological tissue or organ and the processing operation to the biological tissue or organ according to the processing operation which is stored in advance in the file address corresponding to the first B-type identification code or the second B-type identification code and needs to be executed and the sequence thereof when the file addresses corresponding to the first B-type identification code and the second B-type identification code are consistent.

According to the method and the device for monitoring the processing flow of the biological tissue or organ, provided by the embodiment of the invention, the state of the biological tissue or organ can be checked and tracked through the identification code, and the first box body identification code on the first box body for placing the biological tissue or organ, the A-type identification code provided by matching with the first box body and the generated B-type identification code all point to the same preset file address, so that the checking is convenient, and the error can be prevented.

Drawings

The features and advantages of the present invention will be more clearly understood by reference to the accompanying drawings, which are illustrative and not to be construed as limiting the invention in any way, and in which:

fig. 1 shows a schematic representation of an identification code involved in a method of monitoring the process flow of a biological tissue or organ according to an embodiment of the invention;

FIG. 2 shows a flow chart of a method of monitoring a process flow of a biological tissue or organ according to an embodiment of the invention;

FIG. 3 shows a flow chart of a method of monitoring a process flow of a biological tissue or organ according to an embodiment of the invention;

FIG. 4 shows a flow chart for determining whether a sterile transport device is abnormal in a method for monitoring a process flow of a biological tissue or organ according to an embodiment of the invention;

FIG. 5 is a flow chart showing a method for monitoring a process flow of a biological tissue or organ according to an embodiment of the present invention for determining whether the biological tissue or organ transported by the sterile transport device is erroneous;

fig. 6 shows a flow chart of the steps performed for attaching a second cartridge to the outside of a first cartridge.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all embodiments of the present invention. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The identification code may be a two-dimensional code or a bar code.

Example one

The embodiment of the invention provides a method for monitoring a treatment process of a biological tissue or organ, which is suitable for a server. As shown in figure 1, the method places the biological tissue or organ in a first box body, the first box body is provided with a first box body identification code pointing to a preset file address, and the monitoring of the processing flow of the biological tissue or organ is realized through the identification code on the first box body.

As shown in fig. 2, the method comprises the steps of:

s11: and acquiring a first box body identification code on the empty first box body, and acquiring an A-type identification code matched with the first box body. The first box identification code and the class A identification code do not point to a preset file address.

The class a identification code in this step is used to be set on an independent class a identification code label.

The first box identification code is pre-generated by a merchant providing process flow monitoring services and printed on an empty first box, which may be printed at a bottom position of the box. In addition, the merchant also provides a class A identification code label matched with the first box identification code. This trade company is provided with first box body, the packing complete set of A type identification code label of first box body identification code in advance, provides the hospital. It should be added that, the class a identifier labels here may be two of the same content: a first class A identifier tag for placement on a patient case; and a second class A identifier tag for placement on a patient care sheet.

S12: and enabling the first box body identification code and the class-A identification code to point to a preset file address.

In a hospital, before medical staff puts biological tissues or organs taken out by an operation into a first box body, an identification code reading device (hereinafter, referred to as a code reader) is operated to read a first box body identification code on the first box body, and the code reader is in communication connection with a server; accordingly, the server can obtain the first box identification code on the empty first box, and then the server enables the first box identification code to point to the preset file address. Reading the class A identification code on the class A identification code label by adopting a code reader in communication connection with the server before or after the biological tissue or organ is placed in the first box body; accordingly, the server may obtain the class a identifier, and then the server causes the class a identifier to point to the predetermined file address as well.

The above steps S11 and S12 are performed before the biological tissue or organ is placed in the first container. That is, the first box id on the first box does not point to the predetermined file address, and can be empty (i.e. does not point to any file address); only after the steps S11 and S12, the first box ID points to a specific file address consistent with the file address pointed by the type A ID, i.e. the default file address described in this application.

It should be noted that the preset file address is specially reserved for storing information related to a biological tissue or organ (for example, may be provided by a service provider), that is, the preset file addresses corresponding to different biological tissues or organs are different.

S13: and acquiring a preset file address through an A-type identification code label matched with the first box body. The class A identification code label is used for being arranged on a case and/or a patient care sheet and points to a preset file address.

As described in step S11, the class a identifier labels may be two of the same content: a first class A identifier tag for placement on a patient case; and a second class A identifier tag for placement on a patient care order.

S14: patient information relating to the biological tissue or organ, and processing operations and their sequence to be performed on the biological tissue or organ are written to the preset file addresses.

In a hospital, after a nurse takes the first box body and the A-type identification code label which are packaged into a whole, a code reader in communication connection with the server is operated to read the A-type identification code arranged on a case or nursing sheet, and patient information is input; accordingly, the server writes the patient information to the preset file address. Therefore, the server can acquire the patient information related to the biological tissue or organ in the subsequent process.

In addition, after the biological tissue or organ is put into the first box body, the doctor can operate a code reader which is in communication connection with the server to read the class A identification code arranged on the case or nursing sheet and input the processing operation to be executed on the biological tissue or organ and the sequence of the processing operation; accordingly, the server writes to the preset file address the processing operations and their sequence to be performed on the biological tissue or organ. Thus, the server can obtain the processing operation and sequence to be executed on the biological tissue or organ placed in the first cassette.

The above steps S11, S12, S13 and S14 associate the first cartridge identification code with the class a identification code, and the information in the preset file address can be obtained by reading any one of the identification codes.

S15: and generating a B-type identification code pointing to a preset file address. The class B identifier is used to be placed on the sterile transport device and/or the processing slip of the biological tissue or organ. The first container and the biological tissue or organ placed therein are transported by a sterile transport device having a movable sterile enclosed space, typically of a non-transparent material. The processing flow sheet is used to determine the processing operation.

After the biological tissue or organ is placed in the first box, at least one of washing, sterilization, freezing and the like is subsequently performed on the biological tissue or organ, which may need to be performed outside the operating room, and a sterile transportation device is used to transport the biological tissue or organ to the target location to ensure the biological tissue or organ is in a sterile environment. Alternatively, an RTP (Rapid Transfer Ports) aseptic Transfer valve may be used, and the RTP aseptic Transfer valve includes a barrel body with an upper opening and a valve body fastened at the opening of the barrel body, and the barrel body and the valve body cooperate to form an aseptic storage space in the barrel body. The first box body is placed in a barrel body of the RTP sterile transfer valve, so that the first box body and the biological tissues or organs in the first box body are in a sterile environment.

Because the sterile transportation device is usually made of non-transparent material, it is very inconvenient to check the biological tissues or organs transported inside the sterile transportation device, and if the biological tissues or organs transported by the sterile transportation device are wrong, the processing procedure of the biological tissues or organs is easy to be wrong, and the life safety or health of a patient may be endangered. In view of this, embodiments of the present invention provide a class B identifier for placement on a sterile transport device, the class B identifier pointing to a predetermined file address.

Specifically, after the biological tissue or organ is put into the first cassette and the patient information is written to the preset file address, the server generates a class B identification code pointing to the preset file address. The type B identification code can print two labels with the same content: the first B-type identification code label is arranged on the sterile transport device, and the first box body and the biological tissues or organs placed in the first box body are transmitted through the sterile transport device; and a second class B identifier tag for placement on a treatment protocol for the biological tissue or organ, the treatment protocol for use in determining a treatment operation by the operating device.

Thus, during transportation, the biological tissue or organ is placed in the first box body, and the first box body is provided with the first box body identification code; the first box body is placed in an aseptic transport device, and a first class B identification code is arranged on the aseptic transport device. In addition, the treatment process sheet of the biological tissue or organ is also transported together during transportation.

S16: the processing operation actually performed on the biological tissue or organ and the time at which the processing operation is performed are acquired in real time by the class B identification code.

Since the first class B identification code on the sterile transport device points to the preset file address, when the processing operation is performed on the biological tissue or organ in the sterile transport device at the preset processing flow node on the operation device, the code reader in communication connection with the server reads the first class B identification code, and the server can acquire the processing operation actually performed on the biological tissue or organ and the time when the processing operation is performed.

For example, prior to performing an X-treatment on a biological tissue or organ, a first code reader reads the first class B identifier; after performing the X-treatment on the biological tissue or organ, the second reader reads the first class B identifier. The first identification code has a device identification ID1 and the second identification code has a device identification ID 2. Accordingly, the server may determine, based on the acquired device identification ID1 and the acquisition time T1, that the X-treatment is to be performed on the biological tissue or organ at time T1; similarly, the server may judge that the X-treatment performed on the biological tissue or organ is finished at the time T2 from the acquired device identification ID2 and the acquisition time T2. The X-treatment may be any of the treatment operations on biological tissues or organs described in the present application, or may be a treatment operation on the sterile transporter or the first cassette.

S17: and acquiring a first time when the biological tissue or organ enters the preset temperature preservation space and a second time when the biological tissue or organ leaves the preset temperature preservation space through the B-type identification code.

S18: and acquiring the temperature in the preset temperature preservation space within the time period from the first time to the second time.

The preset-temperature storage space includes a cold chain vehicle for long-distance transportation (e.g., a storage space of 4 ℃), a refrigerator for temporarily storing the biological tissue or organ before transportation, and a refrigerator for storing the biological tissue or organ after washing, sterilization, or the like until it is retrieved (e.g., a storage space of-18 ℃).

Before the biological tissue or organ enters the preset temperature preservation space, a first B-type identification code on the sterile transport device is read by a code reader in communication connection with the server, so that the server can acquire the first time T10 when the biological tissue or organ enters the preset temperature preservation space; when the biological tissue or organ leaves the preset temperature preservation space, the code reader which is in communication connection with the server reads the first type B code reader on the sterile transport device again, so that the server can acquire the second time T20 when the biological tissue or organ leaves the preset temperature preservation space.

A temperature sensor for detecting the temperature in real time may be disposed in the preset temperature preservation space, and the temperature sensor is in communication connection with the server, so that the server may obtain the real-time temperature in the preset temperature preservation space in the time period from the first time T10 to the second time T20.

As an optional implementation manner of this embodiment, when the code reader in the preset temperature preservation space reads the class B identification code, the position information of the code reader is obtained; and the position information of the code reader is used as the position of the biological tissue or organ.

The biological tissue may pass through the preset temperature preservation spaces set in more than two different links in the transportation process, for example, the biological tissue is transported through the preservation space of the cold chain vehicle and is preserved in the cold storage after being processed, and then the position information of the code reader can be the preset temperature preservation space where the code reader is located (i.e., which temperature preservation space the code reader is located in).

Or when the preset temperature preservation space set in the same link has more than two, for example, when there are multiple rooms in the cold storage, the position information of the code reader may be the position of the specific room of the cold storage.

When the preset temperature preservation space is large and the amount of the articles stored in the space is large, the position of the code reader can also be the specific position of the code reader in the preset temperature preservation space.

Therefore, the specific position of the biological tissue or organ in the preset temperature preservation space can be known through the B-type identification code, and particularly, the target biological tissue or organ can be quickly found when the preset temperature preservation space is large and a lot of things are stored in the biological tissue or organ.

As an alternative to this embodiment, the patient information associated with the biological tissue or organ includes a patient admission number. The staff (which may be a doctor or a nurse in a hospital) may log in the account, input the patient hospitalization number, and generate a drawing identification code of the biological tissue or organ corresponding to the patient hospitalization number, where the drawing identification code is used for drawing the biological tissue or organ. Specifically, the steps performed by the server include the following steps S19, S110, S111, and S112.

S19: and receiving the patient hospitalization number input through the preset account number.

The staff logs in the account number, and when the hospital number of the patient is input, the server acquires the hospital number of the patient.

S110: and judging whether the preset account number has a first preset authority. When the preset account number has the first preset right, executing the step S111; otherwise, no operation is performed.

In order to prevent anyone from obtaining the identification code for picking up the biological tissue or organ when the patient hospitalization number is input, the server judges whether the preset account number input into the patient hospitalization number has a first preset authority after receiving the patient hospitalization number, and generates the identification code for picking up the biological tissue or organ according to the patient hospitalization number only when the account number has the first preset authority. For example, it may be set that the doctor has the first preset authority, i.e. only the doctor may generate an identification code to retrieve the biological tissue or organ.

S111: it is judged whether or not the biological tissue or organ corresponding to the patient's hospitalization number is being preserved in the preset temperature preservation space. When the biological tissue or organ corresponding to the patient' S hospitalization number is being preserved in the preset temperature preservation space, performing step S112; otherwise, no operation is performed.

When the preset account number has a first preset right, the identification code for fetching the biological tissue or organ can be generated according to the patient hospitalization number. Before generating the identification code of the receiving biological tissue or organ of the patient hospitalization number, judging whether the biological tissue or organ corresponding to the patient hospitalization number is preserved in the preset temperature preservation space, generating the identification code of the receiving biological tissue or organ according to the patient hospitalization number only when the biological tissue or organ corresponding to the patient hospitalization number is preserved in the preset temperature preservation space, otherwise, even if the receiving identification code is generated, the corresponding biological tissue or organ cannot be received.

S112: and generating a C-type identification code with a second preset authority. The class C identification code is used for being arranged on a receiving list of the biological tissue or organ and is used as a certificate for receiving the biological tissue or organ.

That is, when two conditions of "the preset account has a first preset authority" and "the biological tissue or organ corresponding to the patient hospitalization number is being preserved in the preset temperature preservation space" are satisfied, the server generates the class C identification code having a second authority. The second authority refers to the authority to pick up the biological tissue or organ, that is, the identification code can only pick up the biological tissue or organ with the second authority, thereby ensuring the safety of the preservation of the biological tissue or organ.

Accordingly, after the identification code of the retrieved biological tissue or organ is generated through the above-described steps S19, S110, S111, and S112, when the corresponding biological tissue or organ is retrieved through the retrieved identification code, the server performs the following steps S113, S114, S115, and S116.

S113: and acquiring the class C identification code on the getting list of the biological tissue or organ.

A code reader in communication with the server reads the class C identification code on the claim sheet of the biological tissue or organ, and the server obtains the class C identification code accordingly.

S114: and judging whether the class C identification code has a second preset authority. When the class C identification code has the second preset authority, performing step S115; otherwise, no operation is performed.

In order to prevent any identification code from being able to receive biological tissues or organs at will and improve the security of biological tissues or organs preservation, the server judges whether the C-type identification code has a second preset authority, and only when the C-type identification code has the second preset authority, the corresponding biological tissues or organs can be received through the C-type identification code.

S115: and judging whether the biological tissue or organ corresponding to the class C identification code is preserved in the preset temperature preservation space. When the biological tissue or organ corresponding to the class C identification code is being preserved in the preset temperature preservation space, performing step S116; otherwise, no operation is performed.

When the class C identification code has a second preset authority, the class C identification code has the authority of picking up the biological tissue or organ. Before the biological tissue or organ can be received through the C-type identification code, whether the biological tissue or organ corresponding to the C-type identification code is stored in the preset temperature storage space is judged, and the corresponding biological tissue or organ can be received through the C-type identification code only when the biological tissue or organ corresponding to the C-type identification code is stored in the preset temperature storage space, otherwise, the biological tissue or organ to be received does not exist.

S116: it is determined that the biological tissue or organ can be retrieved.

That is, when the two conditions of "the class C identifier has the second preset authority" and "the biological tissue or organ corresponding to the class C identifier is being preserved in the preset temperature preservation space" are satisfied, the server determines that the corresponding biological tissue or organ can be retrieved.

Example two

The embodiment of the invention provides a method for monitoring the treatment process of biological tissues or organs, which is suitable for operating equipment. In the method for monitoring the processing procedure of a biological tissue or organ according to the first embodiment, the biological tissue or organ is placed in a first box, and a first box identification code pointing to a preset file address is set on the first box. In addition, the method transports the first container and the biological tissue or organ placed therein by a sterile transport device, which is a movable sterile enclosed space.

As shown in fig. 3, the method includes the following steps S21 to S24.

S21: a first class B identification code on the sterile transport device is obtained.

S22: and acquiring a second B-type identification code on the processing flow sheet. The processing flow sheet is transported together with the corresponding biological tissue or organ for operating the device to determine the processing operation.

During transportation, the biological tissue or organ is placed in the first box body, and the first box body is provided with a first box body identification code; the first box body is placed in an aseptic transport device, and a first class B identification code is arranged on the aseptic transport device. In addition, the treatment process sheet of the biological tissue or organ is also transported together during transportation.

The operating device reads the first class B identifier from the sterile transport device by means of a code reader before performing the treatment operation on the biological tissue or organ, thereby obtaining the first class B identifier. In addition, the second B-type identification code on the processing flow list transported together with the sterile transport device is read through the code reader, so that the second B-type identification code is obtained.

S23: and judging whether the file addresses corresponding to the first B-type identification code and the second B-type identification code are consistent or not. When the file addresses corresponding to the first type B identification code and the second type B identification code are consistent, performing step S24; otherwise, no operation is performed.

S24: and executing the processing operation to be executed on the biological tissue or organ and the processing operation in sequence according to the processing operation which is stored in advance in the file address corresponding to the first B-type identification code or the second B-type identification code.

When the file addresses corresponding to the first class B identification code and the second class B identification code are consistent, it indicates that the biological tissue or organ transported in the sterile transport device corresponds to the processing flow sheet, and the processing operation to be performed on the currently transported biological tissue or organ can be determined according to the first class B identification code or the second class B identification code on the sterile transport device, and specifically, the processing operation to be performed on the biological tissue or organ and the sequence thereof can be determined according to the processing operation to be performed on the biological tissue or organ and the sequence thereof, which are pre-stored in the file addresses corresponding to the first class B identification code or the second class B identification code.

As an alternative embodiment of the present embodiment, before the operation device performs the treatment operation on the biological tissue or organ in accordance with the pre-stored treatment operation, the following steps S25, S26, and S27 are further included, as shown in fig. 4.

S25: a first class B identification code on the sterile transport device is obtained.

S26: and acquiring a processing operation record which is actually executed by the biological tissue or organ corresponding to the first B-type identification code from the server.

S27: and judging whether the biological tissue or organ corresponding to the first class B identification code is preserved in the preservation space at the preset temperature or not according to the processing operation record. When the biological tissue or organ corresponding to the first class B identifier is not preserved in the preservation space at the preset temperature, performing step S28; otherwise, no operation is performed. The preset temperature preservation space is used for preserving the biological tissue or organ before the biological tissue or organ is subjected to the treatment operation by the operation device.

S28: and judging the sterile transport device to be an abnormal device.

In order to ensure the biological activity of a biological tissue or organ during transportation, it is necessary to preserve the biological tissue or organ and an aseptic transportation device for transporting the biological tissue or organ in a preservation space at a predetermined temperature (for example, a refrigerated space at 4 ℃). If the biological tissue or organ is not preserved, it may result in reduced activity or even degeneration.

In this regard, in this alternative embodiment, the first class B identifier on the sterile transport device is obtained, the processing operation record that is actually executed on the biological tissue or organ corresponding to the first identifier is obtained from the server, and then it is determined whether the biological tissue or organ corresponding to the first class B identifier is preserved in the preservation space at the preset temperature according to the operation record, and if not, it is determined that the sterile transport device is an abnormal device, and an alarm may be issued, or any processing may not be performed on the sterile transport device and the biological tissue or organ placed therein.

As an alternative implementation manner of this embodiment, the following steps S29, S210, S211 and S212 are further included, as shown in fig. 5.

S29: the first cassette identification code is obtained after the handling device opens the sterile transport device and takes out the first cassette.

S210: a first class B identification code on the sterile transport device is obtained.

S211: and judging whether the file addresses pointed by the first box body identification code and the first class B identification code on the sterile transport device are consistent or not. When the first box identification code is not consistent with the file address pointed by the identification code on the sterile transport device, executing step S212; otherwise, continuing to execute the subsequent operation.

S212: and determining that the biological tissue or organ transported by the sterile transport device is wrong.

Under normal conditions, the first box body identification code on the first box body placed with the biological tissue or organ is consistent with the file address corresponding to the first class B identification code on the sterile transport device; however, if the biological tissue or organ is placed in the wrong sterile transporter, the file address corresponding to the first box identification code on the first box in which the biological tissue or organ is placed and the first class B identification code on the sterile transporter will be inconsistent.

In this regard, the optional embodiment determines whether the biological tissue or organ transported by the sterile transport device is erroneous based on whether the file address corresponding to the first identification code on the first cassette matches the file address corresponding to the first class B identification code on the sterile transport device.

As an alternative to this embodiment, the operating device may be provided with a second casing outside the first casing. The method for monitoring the process flow of a biological tissue or organ further includes steps S213, S214, and S215, as shown in fig. 6.

S213: and after the second box body is additionally arranged outside the first box body, acquiring a second box body identification code preset on the second box body.

S214: and acquiring a first box body identification code on the first box body.

S215: and enabling the second box body identification code to point to the file address pointed by the first box body identification code.

In this optional embodiment, after the second box is installed outside the first box, the operating device makes the second box id preset on the second box point to the file address pointed by the first box id, so that information can be written to the file address pointed by the first box id or information can be read from the file address pointed by the first box id through the second box id.

EXAMPLE III

The embodiment of the invention provides a device for monitoring the processing flow of biological tissues or organs, which is suitable for a server. The device includes: the device comprises a first acquisition unit, a second acquisition unit, a writing unit, a first generation unit and a third acquisition unit.

The first acquisition unit is used for acquiring patient information related to biological tissues or organs, and processing operations and sequences thereof to be performed on the biological tissues or organs.

The second acquisition unit is used for acquiring the preset file address through the A-type identification code label matched with the first box body. The class a identifier tag is used to be placed on a case and/or patient care sheet and points to a preset file address.

The writing unit is used for writing patient information related to the biological tissue or organ, and processing operations to be executed on the biological tissue or organ and the sequence thereof into preset file addresses.

The first generating unit is used for generating a B-type identification code pointing to a preset file address. The class B identification code is for placement on a sterile transporter and/or a processing order for a biological tissue or organ. The first box body and the biological tissue or organ placed in the first box body are transported by a sterile transport device which is a movable sterile closed space. The processing flow sheet is used to determine the processing operation.

The third acquisition unit is used for acquiring the processing operation actually executed by the biological tissue or organ and the time when the processing operation is executed in real time through the B-type identification code.

Optionally, the apparatus further comprises a fourth obtaining unit and a fifth obtaining unit. The fourth acquisition unit is used for acquiring a first time when the biological tissue or organ enters the preset temperature preservation space and a second time when the biological tissue or organ leaves the preset temperature preservation space through the B-type identification code. The fifth acquiring unit is used for acquiring the temperature in the preset temperature preservation space in the time period from the first time to the second time.

Optionally, the apparatus further comprises: and the sixth acquisition unit is used for acquiring the position information of the code reader when the code reader in the preset temperature preservation space reads the B-type identification code. The position information of the code reader comprises the position in the preset temperature preservation space and/or the position of the code reader in the preset temperature preservation space. The position of the code reader is taken as the position of the biological tissue or organ.

Optionally, the apparatus further comprises a seventh acquiring unit and a first pointing unit. And the seventh acquisition unit is used for acquiring the first box body identification code on the empty first box body and acquiring the A-type identification code label matched with the first box body. The first box identification code and the class A identification code do not point to a preset file address. And the first pointing unit is used for enabling the first box body identification code and the A-type identification code to point to the address of the preset file.

Optionally, the patient information related to the biological tissue or organ includes a patient hospitalization number. The apparatus further comprises: the device comprises a receiving unit, a first judging unit, a second judging unit and a second generating unit.

The receiving unit is used for receiving the patient hospitalization number input through the preset account number. The first judging unit is used for judging whether the preset account number has a first preset authority. The second judging unit is used for judging whether the biological tissue or organ corresponding to the hospitalization number of the patient is preserved in the preservation space at the preset temperature when the preset account number has the first preset right. The second generation unit is used for generating the C-type identification code with a second preset authority when the biological tissue or organ corresponding to the hospitalization number of the patient is preserved in the preset temperature preservation space. The class C identification code is used for being arranged on a receiving list of the biological tissue or organ and is used as a voucher for receiving the biological tissue or organ.

Optionally, the apparatus further includes an eighth acquiring unit, a third judging unit, a fourth judging unit, and a first judging unit.

The eighth acquiring unit is used for acquiring the class C identification code on the getting list of the biological tissue or organ. The third judging unit is used for judging whether the class C identification code has a second preset authority. The fourth judging unit is used for judging whether the biological tissue or organ corresponding to the C-type identification code is preserved in the preset temperature preservation space or not when the C-type identification code has the second preset right. The first determination unit is used for determining that the biological tissue or organ corresponding to the C-type identification code can be picked up when the biological tissue or organ is preserved in the preset temperature preservation space.

For the details of each unit, refer to the first embodiment.

Example four

The embodiment of the invention provides a biological tissue or organ processing flow operating device which is suitable for operating equipment. The first box body and the biological tissue or organ placed in the first box body are transported by a sterile transport device, and the sterile transport device is provided with a movable sterile closed space. The device comprises a ninth acquisition unit, a tenth acquisition unit, a fifth judgment unit and an execution unit.

The ninth acquisition unit is used for acquiring the first class B identification code on the sterile transport device.

The tenth acquiring unit is used for acquiring the second type-B identification code on the processing flow sheet. The processing flow sheet is transported together with the corresponding biological tissue or organ for operating the device to determine the processing operation.

The fifth judging unit is used for judging whether the file addresses corresponding to the first B-type identification code and the second B-type identification code are consistent or not.

The execution unit is used for executing the processing operation to be executed to the biological tissue or organ and the sequence thereof according to the processing operation which is stored in advance in the file address corresponding to the first B-type identification code or the second B-type identification code when the file addresses corresponding to the first B-type identification code and the second B-type identification code are consistent.

Optionally, the apparatus further comprises an eleventh acquiring unit, a twelfth acquiring unit, a sixth judging unit and a second judging unit.

The eleventh acquisition unit is used for acquiring the first class B identification code on the sterile transport device. The twelfth acquiring unit is used for acquiring the processing operation record which is actually executed by the biological tissue or organ corresponding to the first B-type identification code from the server. The sixth judging unit is used for judging whether the biological tissue or organ corresponding to the first B-type identification code is preserved in the preservation space with the preset temperature according to the processing operation record. The preset temperature preservation space is used for preserving the biological tissue or organ before the biological tissue or organ is subjected to the treatment operation by the operation device. The second determination unit is used for determining that the sterile transport device is an abnormal device when the biological tissue or organ corresponding to the first class B identification code is not preserved in the preservation space with the preset temperature.

Optionally, the apparatus further comprises a thirteenth acquiring unit, a fourteenth acquiring unit, a seventh judging unit and a third judging unit.

The thirteenth acquiring unit is used for acquiring the first box identification code after the operating device opens the sterile transport device and takes out the first box. The fourteenth acquiring unit is used for acquiring the first class B identification code on the sterile transport device. The seventh judging unit is used for judging whether the first box body identification code is consistent with the file address pointed by the first B-type identification code on the sterile transport device. The third judging unit is used for judging that the biological tissue or organ transported by the sterile transport device is wrong when the first box body identification code is inconsistent with the file address pointed by the identification code on the sterile transport device.

Alternatively, the operating device may be provided with a second case outside the first case. The device also comprises a fifteenth acquisition unit, a sixteenth acquisition unit and a second direction unit.

And the fifteenth acquisition unit is used for acquiring a second box body identification code preset on the second box body after the second box body is additionally arranged outside the first box body. And the sixteenth acquisition unit is used for acquiring the first box body identification code on the first box body. And the second directing unit is used for enabling the second box body identification code to point to the file address pointed by the first box body identification code.

For the details of the above units, refer to the second embodiment.

Although the embodiments of the present invention have been described in conjunction with the accompanying drawings, those skilled in the art may make various modifications and variations without departing from the spirit and scope of the invention, and such modifications and variations fall within the scope defined by the appended claims.

Claims (20)

1. A method for monitoring the processing flow of biological tissues or organs is suitable for a server and is characterized in that the biological tissues or organs are placed in a first box body, and a first box body identification code pointing to a preset file address is arranged on the first box body;

acquiring patient information related to the biological tissue or organ, and processing operations and sequences thereof that need to be performed on the biological tissue or organ;

acquiring the preset file address through an A-type identification code label matched with the first box body; the A-type identification code label is used for being arranged on a case and/or a patient care list and pointing to the preset file address;

writing the patient information related to the biological tissue or organ, the processing operation to be executed on the biological tissue or organ and the sequence thereof into the preset file address;

generating a B-type identification code pointing to the preset file address; the B-type identification code is used for being arranged on a sterile transport device and/or a processing flow sheet of the biological tissue or organ; the first box body and the biological tissues or organs placed in the first box body are transported by a sterile transport device, and the sterile transport device is a movable sterile closed space; the processing flow sheet is used for determining processing operation;

and acquiring the actually executed processing operation of the biological tissue or organ and the time for executing the processing operation in real time through the B-type identification code.

2. The method of claim 1, wherein the step of generating the class B identifier pointing to the predetermined file address is followed by the step of:

acquiring a first time when the biological tissue or organ enters a preset temperature preservation space and a second time when the biological tissue or organ leaves the preset temperature preservation space through the B-type identification code;

and acquiring the temperature in the preset temperature preservation space within the time period from the first time to the second time.

3. The method of monitoring a process flow of a biological tissue or organ of claim 1, further comprising:

when a code reader in a preset temperature preservation space reads the B-type identification code, acquiring the position information of the code reader; the position information of the code reader comprises the position in the preset temperature preservation space and/or the position of the code reader in the preset temperature preservation space;

and taking the position of the code reader as the position of the biological tissue or organ.

4. The method of claim 1, further comprising, before the biological tissue or organ is placed in the first cassette:

acquiring a first box body identification code on an empty first box body, and acquiring an A-type identification code label matched with the first box body; the first box body identification code and the class-A identification code do not point to the preset file address;

and enabling the first box body identification code and the class-A identification code to point to the preset file address.

5. The method of claim 1, wherein the patient information related to the biological tissue or organ includes a patient admission number; after the step of acquiring, in real time, the processing operation actually performed on the biological tissue or organ and the time when the processing operation was performed by using the class B identifier, the method further includes:

receiving a patient hospitalization number input through a preset account number;

judging whether the preset account number has a first preset authority or not;

when the preset account number has a first preset right, judging whether the biological tissue or organ corresponding to the hospitalization number of the patient is preserved in a preset temperature preservation space;

when the biological tissue or organ corresponding to the patient hospitalization number is preserved in a preset temperature preservation space, generating a C-type identification code with a second preset authority; the C-type identification code is used for being arranged on a receiving list of the biological tissue or organ and is used as a voucher for receiving the biological tissue or organ.

6. The method of claim 5, wherein the step of generating the class C identifier with the second predetermined authority further comprises:

acquiring a class C identification code on a pickup list of biological tissues or organs;

judging whether the class C identification code has the second preset authority or not;

when the class C identification code has the second preset right, judging whether the biological tissue or organ corresponding to the class C identification code is preserved in a preset temperature preservation space;

and when the biological tissue or organ corresponding to the class C identification code is preserved in a preset temperature preservation space, judging that the biological tissue or organ can be picked up.

7. A method for monitoring the processing flow of biological tissues or organs is suitable for operating equipment and is characterized in that the biological tissues or organs are placed in a first box body, the first box body and the biological tissues or organs placed in the first box body are transported by a sterile transport device, and the sterile transport device is provided with a movable sterile closed space; the method comprises the following steps:

acquiring a first class B identification code on the sterile transport device;

acquiring a second type-B identification code on the processing flow sheet; the processing flow sheet is transported together with the corresponding biological tissue or organ and is used for operating equipment to determine processing operation;

judging whether the file addresses corresponding to the first B-type identification code and the second B-type identification code are consistent or not;

and when the file addresses corresponding to the first B-type identification code and the second B-type identification code are consistent, executing the processing operation to the biological tissue or organ and the processing operation in sequence according to the processing operation which is stored in advance in the file address corresponding to the first B-type identification code or the second B-type identification code and needs to be executed to the biological tissue or organ.

8. The method for monitoring the process flow of a biological tissue or organ according to claim 7, further comprising, before the operating device performs the processing operation on the biological tissue or organ in accordance with a prestored processing operation:

acquiring a first class B identification code on the sterile transport device;

acquiring a processing operation record which is actually executed by the biological tissue or organ corresponding to the first class B identification code from a server;

according to the processing operation record, judging whether the biological tissue or organ corresponding to the first class B identification code is preserved in a preservation space with a preset temperature; the preset temperature preservation space is used for preserving the biological tissue or organ before the biological tissue or organ is processed by the operation equipment;

and when the biological tissue or organ corresponding to the first class B identification code is not preserved in the preset temperature preservation space, judging that the sterile transport device is an abnormal device.

9. The method of claim 7, wherein the first cassette has a first cassette identification code pointing to a predetermined file address, the method further comprising;

after the sterile transport device is opened and the first box body is taken out by the operating equipment, acquiring the first box body identification code;

acquiring a first class B identification code on the sterile transport device;

judging whether the first box body identification code is consistent with a file address pointed by a first B-type identification code on the sterile transport device or not;

and when the first box body identification code is inconsistent with the file address pointed by the first class B identification code on the sterile transport device, judging that the biological tissue or organ transported by the sterile transport device is wrong.

10. The method of claim 9, wherein the operation device is provided with a second housing on the outside of the first housing; the method further comprises the following steps:

after a second box body is additionally arranged outside the first box body, a second box body identification code preset on the second box body is obtained;

acquiring a first box body identification code on the first box body;

and enabling the second box body identification code to point to the file address pointed by the first box body identification code.

11. A device for monitoring the processing flow of biological tissues or organs is suitable for a server and is characterized in that the biological tissues or organs are placed in a first box body, and a first box body identification code pointing to a preset file address is arranged on the first box body;

a first acquisition unit for acquiring patient information relating to the biological tissue or organ, and a processing operation and a sequence thereof to be performed on the biological tissue or organ;

the second acquisition unit is used for acquiring the preset file address through an A-type identification code label matched with the first box body; the A-type identification code label is used for being arranged on a case and/or a patient care list and pointing to the preset file address;

a writing unit, configured to write the patient information related to the biological tissue or organ, and the processing operation and the sequence thereof to be performed on the biological tissue or organ into the preset file address;

the first generation unit is used for generating a B-type identification code pointing to the preset file address; the B-type identification code is used for being arranged on a sterile transport device and/or a processing flow sheet of the biological tissue or organ; the first box body and the biological tissues or organs placed in the first box body are transported by a sterile transport device, and the sterile transport device is a movable sterile closed space; the processing flow sheet is used for determining processing operation;

and the third acquisition unit is used for acquiring the processing operation actually executed by the biological tissue or organ and the time when the processing operation is executed in real time through the B-type identification code.

12. The apparatus for monitoring a process flow of a biological tissue or organ according to claim 11, further comprising:

the fourth acquisition unit is used for acquiring a first time when the biological tissue or organ enters a preset temperature preservation space and a second time when the biological tissue or organ leaves the preset temperature preservation space through the B-type identification code;

and the fifth acquisition unit is used for acquiring the temperature in the preset temperature preservation space in the time period from the first time to the second time.

13. The apparatus for monitoring a process flow of a biological tissue or organ according to claim 11, further comprising:

a sixth obtaining unit, configured to obtain position information of a code reader in a preset temperature storage space when the code reader reads the class B identification code; the position information of the code reader comprises the position in the preset temperature preservation space and/or the position of the code reader in the preset temperature preservation space; and taking the position of the code reader as the position of the biological tissue or organ.

14. The apparatus for monitoring a process flow of a biological tissue or organ according to claim 11, further comprising:

the seventh acquisition unit is used for acquiring the first box body identification code on the empty first box body and acquiring the A-type identification code label matched with the first box body; the first box body identification code and the class-A identification code do not point to the preset file address;

and the first pointing unit is used for enabling the first box body identification code and the A-type identification code to point to the preset file address.

15. The apparatus for monitoring a process flow of a biological tissue or organ according to claim 11, wherein the patient information related to the biological tissue or organ includes a patient hospitalization number; further comprising:

the receiving unit is used for receiving the patient hospitalization number input through the preset account number;

the first judging unit is used for judging whether the preset account number has a first preset authority or not;

the second judging unit is used for judging whether the biological tissues or organs corresponding to the hospitalization number of the patient are preserved in a preset temperature preservation space or not when the preset account number has a first preset right;

a second generation unit, configured to generate a class C identifier having a second preset authority when the biological tissue or organ corresponding to the patient hospitalization number is being preserved in a preset temperature preservation space; the C-type identification code is used for being arranged on a receiving list of the biological tissue or organ and is used as a voucher for receiving the biological tissue or organ.

16. The apparatus for monitoring a process flow of a biological tissue or organ according to claim 15, further comprising:

the eighth acquisition unit is used for acquiring the C-type identification code on the getting list of the biological tissue or organ;

the third judging unit is used for judging whether the class C identification code has the second preset authority or not;

a fourth judging unit, configured to judge whether the biological tissue or organ corresponding to the class C identifier is being preserved in a preset temperature preservation space when the class C identifier has the second preset right;

and the first judging unit is used for judging that the biological tissue or organ corresponding to the class C identification code can be picked up when the biological tissue or organ is preserved in a preset temperature preservation space.

17. A biological tissue or organ processing flow operating device is suitable for operating equipment, and is characterized in that the biological tissue or organ is placed in a first box body, the first box body and the biological tissue or organ placed in the first box body are transported by an aseptic transportation device, and the aseptic transportation device is provided with a movable aseptic closed space; the device comprises:

a ninth acquiring unit, configured to acquire a first class B identifier on the sterile transport device;

a tenth acquiring unit, configured to acquire a second class B identifier on the processing flow sheet; the processing flow sheet is transported together with the corresponding biological tissue or organ and is used for operating equipment to determine processing operation;

a fifth judging unit, configured to judge whether file addresses corresponding to the first class B identifier and the second class B identifier are consistent;

and the execution unit is used for executing the processing operation to the biological tissue or organ and the processing operation to the biological tissue or organ according to the processing operation to be executed and the sequence stored in the file address corresponding to the first B-type identification code or the second B-type identification code in advance when the file addresses corresponding to the first B-type identification code and the second B-type identification code are consistent.

18. The device of claim 17, further comprising:

an eleventh acquiring unit, configured to acquire the first class B identifier on the sterile transport device;

a twelfth acquiring unit, configured to acquire, from the server, a processing operation record in which the biological tissue or organ corresponding to the first class-B identification code is actually executed;

a sixth judging unit, configured to judge, according to the processing operation record, whether the biological tissue or organ corresponding to the first class B identifier is preserved in a preservation space at a preset temperature; the preset temperature preservation space is used for preserving the biological tissue or organ before the biological tissue or organ is processed by the operation equipment;

and the second judgment unit is used for judging that the sterile transport device is an abnormal device when the biological tissue or organ corresponding to the first class B identification code is not preserved in the preservation space with the preset temperature.

19. The apparatus as claimed in claim 17, wherein the first cassette has a first cassette identification code pointing to a predetermined file address, and the apparatus further comprises:

a thirteenth acquiring unit, configured to acquire the first box identification code after an operating device opens the sterile transport device and takes out the first box;

a fourteenth acquiring unit, configured to acquire the first class B identifier on the sterile transport device;

a seventh judging unit, configured to judge whether the first box identification code is consistent with a file address pointed by the first class B identification code on the sterile transport device;

and the third judging unit is used for judging that the biological tissues or organs transported by the sterile transport device are wrong when the first box body identification code is inconsistent with the file address pointed by the first B-type identification code on the sterile transport device.

20. The apparatus for handling a process flow of a biological tissue or organ according to claim 19, wherein the handling device is configured to attach a second cassette to the outside of the first cassette; the device further comprises:

a fifteenth obtaining unit, configured to obtain a second box identification code preset on a second box after the second box is additionally installed outside the first box;

a sixteenth acquiring unit, configured to acquire the first box identification code on the first box;

and the second directing unit is used for enabling the second box body identification code to point to the file address pointed by the first box body identification code.

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