RU105831U1 - STRONTIUM-RUBIDIUM INFUSION SYSTEM - Google Patents

Abstract

 A strontium-rubidium infusion system containing three three-way valves, a container with an eluent, connected by the corresponding pipelines of the transportation system through the first three-way valve with a syringe pump, placed in a lead protective casing of strontium-rubidium generator, a unidirectional valve, two antibacterial filters installed before and after strontium a rubidium generator, means for infusion of the eluate to the patient and a container placed in a lead protective casing for collecting and storing excess eluate, data through the third three-way valve, and a means for measuring radioactivity, characterized in that the second three-way valve is installed in front of the strontium-rubidium generator at its inlet, a unidirectional valve is located behind the strontium-rubidium generator between the antibacterial filter and the third three-way valve, the collection tank and storage of excess eluate is installed in a means for measuring radioactivity, made in the form of a dose calibrator, and further comprises a lead x protection bricks radiopharmaceutical entire transport system (RFP).

Description

This utility model relates to medical equipment, in particular to means for dosed intravenous administration of a radiopharmaceutical drug (RFP) for positron emission tomography (PET).

Positron emission tomography with a number of radiopharmaceuticals is designed to assess the state of blood supply to the heart muscle. The advantage of PET over other methods of radionuclide diagnostics is the use of isotopes with ultrashort half-lives, which reduces the radiation dose to the patient and significantly shortens the duration of the study. In addition, a tomographic study of the heart in a dynamic mode allows quantitative processing of the results by calculating the volume myocardial blood flow, coronary reserve in absolute units, which opens up new possibilities in studying the pathological physiology of coronary circulation. The widespread adoption of positron emission tomography in clinical practice is limited by the need to equip PET centers not only with PET scanners, but with a medical cyclotron, because The cyclotron method for the production of positron-emitting radionuclides is the main one. This significantly increases the financial costs associated with the production of radiopharmaceuticals. Thus, the obvious need for the development of positron-emitting radionuclides of generator production, which include ⁸² Rb. ⁸² Rb is a radionuclide of generator production ( ⁸² Sr / ⁸² Rb generator with a half-life of 25.5 days), which is formed as a result of a nuclear electron capture reaction. The half-life of the ⁸² Rb isotope is 76 seconds. On the basis of the ⁸² Rb isotope, an RFP was created - Rubidium chloride, ⁸² Rb from the generator. Given the ultra-short half-life of the ⁸² Rb isotope, for intravenous administration of “Rubidium chloride, ⁸² Rb from the generator”, which must be performed within 10-30 seconds, it is necessary to use a dosing infusion system that provides the patient with an accurate diagnostic dose of radiopharmaceutical.

Known automated stonium-rubidium infusion system "Rubigen-82" (utility model, RU 65383). The essence of this system is that the automated strontium-rubidium infusion system contains a container with an eluent connected by a pipeline of the transportation system through the first and second openings of the first three-way valve with a syringe pump, a strontium-rubidium generator with a first filter and an inlet pressure sensor, a second three-way valve, the first opening of which is connected by pipelines through the second filter to the means for infusion of the eluate to the patient, and the second hole to the means for collecting and storing excess eluate, means for measuring radioactivity and a monitoring and control unit, the third three-way valve connected to the first and second holes through pipelines with the third hole of the first three-way valve and the input of the strontium-rubidium generator, respectively, and the generator input is connected to the first hole of the fourth three-way valve, while the third hole of the third and second hole of the fourth valve are connected by a connecting tube, the control and management system includes the first and second detectors air bubbles mounted on the pipelines between the container with the eluent and the first hole of the first valve and the third holes of the second and fourth valves, respectively, connected to the control control unit, including a remote computer.

This model allows with high accuracy to perform remote controlled infusion of radiopharmaceuticals labeled with ⁸² Rb, with automatic control of the amount of introduced activity, determination of the presence of air bubbles in the system, as well as the weight and activity of the eluate in the waste container. Nevertheless, it is not without drawbacks in the complexity of its device and the high cost of its individual parts and assemblies, namely, an automated control unit connected to a personal computer, pressure sensors, radioactivity and air bubbles, and a weighing device.

Closer to the proposed utility model is a strontium-rubidium infusion system for producing a diagnostic solution from a radionuclide strontium-rubidium generator and for conducting controlled infusion (patent US 4562829). This system includes a container with an eluent connected by a corresponding pipeline of the transportation system through a first unidirectional valve and a first three-way valve with a syringe pump arranged in series, a strontium-rubidium generator installed in a protective casing and equipped with a second unidirectional valve and a first antibacterial filter at the inlet, a second a three-way valve located behind the generator and connected with one hole to the means for measuring radioactivity, the second hole to a second syringe intended for bolus injection, and a third hole to the first hole of the third three-way valve. The third three-way valve, the first opening of which is connected through the second antibacterial filter to the means for infusion of the eluate to the patient, and the second through the third antibacterial filter to the means for collecting and storing excess eluate, also contains means for measuring radioactivity and a monitoring system and management. However, this system does not ensure the safe operation of personnel, as does not include radiation protection elements of the pipeline of the radiopharmaceutical transport system located after the strontium-rubidium generator. In addition, a large number of units and parts complicates the use of the system in daily practical work.

The technical result of the proposed utility model is to eliminate these drawbacks by simplifying its design and introducing lead protection for the entire RFP transportation system.

This result is achieved in that in the known model containing three three-way valves, a container with an eluent connected by the corresponding pipelines of the transportation system through the first three-way valve with a syringe pump, placed in a lead protective casing of strontium-rubidium generator, a unidirectional valve, three antibacterial filters installed before and after the strontium-rubidium generator, a means for infusing the eluate to the patient and a container for collecting and storing excess eluate, connected through a third according to the proposed utility model, the second three-way valve is installed in front of the strontium-rubidium generator at its inlet, a unidirectional valve is located behind the strontium-rubidium generator between the antibacterial filter and the third three-way valve, a container for collecting and storing excess eluate is installed in the means for measuring radioactivity, made in the form of a dose calibrator, and d optionally contains, made by means of lead bricks, protection of the entire RFP transportation system.

Protection of the entire RFP transportation system by means of lead bricks ensures a reduction in radiation exposure for personnel during delivery of the eluate from a strontium-rubidium generator to the patient during the PET procedure. Installing a second three-way valve in front of the strontium-rubidium generator allows eliminating air bubbles from the piping system already at the stage of eluent delivery to the strontium-rubidium generator, ensuring the safety of intravenous RFP infusion to the patient and facilitating the filling of the pipeline of the delivery system to the strontium-rubidium generator. The location of the unidirectional valve behind the strontium-rubidium generator between the second antibacterial filter and the third three-way valve provides a unidirectional flow of eluate from the strontium-rubidium generator in the event of an unexpected pressure drop in the system. The location of the container for collecting and storing excess eluate (14) in the means for measuring radioactivity (15) allows safe elution of the strontium-rubidium generator and accurate calculation of the diagnostic dose of the radiopharmaceutical for the patient.

The combination of the above features significantly simplifies the design of the strontium-rubidium infusion system and makes its practical use safe.

For a better understanding of the model, we present the scheme of the infusion system shown in figure 1, where:

1 - container with eluent (sterile isotonic sodium chloride solution), 2 - programmable syringe pump (with flow rate from 1.0 to 50.0 ml / min), 3 - first three-way valve, 4 - first antibacterial filter, 5 - second three-way valve; 6 - inlet of a strontium-rubidium generator; 7 - the outlet of the strontium-rubidium generator; 8 - strontium-rubidium generator; 9 - output line to eliminate air bubbles; 10 - second antibacterial filter; 11 - unidirectional valve; 12 - third three-way valve; 13 - means for infusion of the eluate into a container for collecting and storing excess eluate, implemented by means of a butterfly needle; 14 - a container for collecting and storing excess eluate (sterile bottle); 15 - dose calibrator, allowing to measure the radioactivity of the eluted solution every 5 seconds; 16 - means for infusion of the eluate to the patient, implemented by means of a butterfly needle; 17 - protection of the pipeline of the RFP transportation system, made by means of lead bricks; 18 - sterile communication line of polyvinyl chloride; 19 - a disposable syringe with a volume of 50.0 ml; 20, 21, 22, 23, 24 and 26 - pipelines presented in the form of sterile communication lines made of polyvinyl chloride (PVC) with an inner diameter of 0.9 mm; 25 - a disposable needle; 27 - the third antibacterial filter.

The proposed model includes a strontium-rubidium generator of the usual type installed in a transport container. The container is placed on a trolley (not shown in the figure) equipped with protection made by lead bricks (Fig. 1, paragraph 17). In addition, the system includes a container with an eluent, namely, a solution of “isotonic sodium chloride 0.9% for injection”; programmable syringe infusion pump with a flow rate of from 1.0 to 50.0 ml / min; a system for transporting the eluent and eluate to the patient and to the container for collecting and storing excess eluate, represented by pipelines made from sterile PVC communication lines with an inner diameter of 0.9 mm and equipped with antibacterial filters that ensure sterility of the radiopharmaceutical, three-way valves designed to branch the transportation system in accordance with the steps of the infusion procedure, a unidirectional valve, preventing the reverse flow of the eluate; means of measuring radioactivity, made in the form of a dose calibrator, which allows you to measure the radioactivity of the eluted solution every 5 seconds. A container for collecting and storing excess eluate, which communicates with the atmosphere using a sterile needle, is placed in a dose calibrator.

Work with the proposed utility model is as follows: the first three-way valve is set to the position "container with eluent - syringe", while the eluent from the tank through the pipeline system through a three-way valve enters the syringe under the influence of a programmable syringe pump. Then the three-way valve is moved to the “syringe-strontium-rubidium generator” position, and the eluent is piped through the first antibacterial filter to the second three-way valve, which is installed in the “first antibacterial filter - outlet line for eliminating air bubbles” position. After elimination of air bubbles, the three-way valve is placed in the position "antibacterial filter - inlet of the strontium-rubidium generator" and test elution of the strontium-rubidium generator is performed in the eluent volume of 25 ml and at a speed of 20 ml / min with the position of the third three-way valve "unidirectional valve - capacity to collect and store excess eluate. " After 15 minutes, replace the container for collecting and storing excess eluate and repeat the elution of the strontium-rubidium generator to determine the entered integral dose of the radiopharmaceutical in the volume of the eluent of 20 ml and at a speed of 20 ml / min with the position of the third three-way valve "unidirectional valve - tank for collecting and storing excess eluate. " To determine the entered integral dose at the beginning and at the end of the elution process, the maximum radioactivity of ⁸² Rb is recorded using a dose calibrator. After determine the interval between measurements of radioactivity according to the formula:

dT (i) = t (i) -t (i-1), while t (0), which corresponds to zero radioactivity (0 MBq), is taken as the start of elution.

Then calculate the increase in radioactivity dA (i) for the time dT (i) according to the formula:

dA (i) = a (i) -a (i-1) * exp- ^{In2 * dT (i) / 76} , where 76 is the half-life of the ⁸² Rb isotope in seconds.

The integral eluted activity (Sa) is determined by summing the increase in activity in each recorded time interval according to the formula:

Sa = ΣdA (i).

According to the results of the first measurement, an individual diagnostic dose is calculated by compiling a proportion and determining the required volume of eluent. Then connect the node filled with a sterile solution of “isotonic sodium chloride 0.9% for injection”, which consists of elements of the pipeline (26), the third antibacterial filter (27) and a means for infusion to the patient (16).

The syringe is filled with eluent, the volume of which was previously calculated according to the above description, the third three-way valve is switched to the "unidirectional valve - means for infusion to the patient" position and intravenous radiopharmaceutical is performed at a rate of 20 ml / min.

Elements of the infusion system, with the exception of the programmed syringe pump, strontium-rubidium generator, lead protection of the pipeline of the radiopharmaceutical transport system and dose calibrator, are disposable and require daily replacement. Details of the infusion system located behind the unidirectional filter require replacement after each elution process.

The utility model provides radiation safety for personnel when performing a PET diagnostic procedure using radiopharmaceuticals labeled with ⁸² Rb, is simple to implement, and does not require expensive components and parts. Repeated repeated measurements of the administered dose of radioactivity showed high reproducibility: under the same conditions of elution of the generator, the measured dose of the radiopharmaceutical did not differ by more than 0.5% (measurement error).

Claims (1)

A strontium-rubidium infusion system containing three three-way valves, a container with an eluent, connected by the corresponding pipelines of the transportation system through the first three-way valve with a syringe pump, placed in a lead protective casing of strontium-rubidium generator, a unidirectional valve, two antibacterial filters installed before and after strontium a rubidium generator, means for infusion of the eluate to the patient and a container placed in a lead protective casing for collecting and storing excess eluate, data through the third three-way valve, and a means for measuring radioactivity, characterized in that the second three-way valve is installed in front of the strontium-rubidium generator at its inlet, a unidirectional valve is located behind the strontium-rubidium generator between the antibacterial filter and the third three-way valve, the collection tank and storage of excess eluate is installed in a means for measuring radioactivity, made in the form of a dose calibrator, and further comprises a lead x protection bricks radiopharmaceutical entire transport system (RFP).