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CN-121971606-A - Method for activating platelets to release growth factors and exosomes, electronic device and storage medium

CN121971606ACN 121971606 ACN121971606 ACN 121971606ACN-121971606-A

Abstract

The embodiment of the application provides a method for activating platelets to release growth factors and exosomes, electronic equipment and a storage medium, wherein the method comprises the steps of determining a target activation mode of platelet-rich plasma based on the target application of the platelet-rich plasma; and irradiating the platelet-rich plasma based on preset irradiation parameters when the irradiation end is started, and/or carrying out ultrasonic treatment on the platelet-rich plasma based on preset ultrasonic parameters when the ultrasonic end is started, and/or regulating the temperature of the environment where the platelet-rich plasma is positioned based on preset temperature control parameters when the temperature control end is started, so that the platelets are activated to release growth factors and exosomes. The embodiment of the application combines physical methods of ultrasound, illumination and temperature control to realize exogenous activation of the platelets, so that the platelets release the exosomes while releasing the growth factors, no chemical reagent is required to be introduced, and the health of human bodies is effectively ensured.

Inventors

  • YANG YIJIE
  • CHEN HAIYUN
  • XIANG YUAN
  • LUO JINGHUA
  • LAI CHUAN
  • WANG WAN

Assignees

  • 生命技术探索公司

Dates

Publication Date
20260505
Application Date
20260106

Claims (10)

  1. 1. A method for activating platelets to release growth factors and exosomes, applied to an electronic device, the method comprising: Determining a target activation pattern of the platelet rich plasma based on the target use of the platelet rich plasma; Starting at least one of an illumination end, an ultrasonic end and a temperature control end of the electronic equipment based on the target activation mode; Irradiating the platelet-rich plasma based on preset irradiation parameters when the irradiation end is started, and/or performing ultrasonic treatment on the platelet-rich plasma based on preset ultrasonic parameters when the ultrasonic end is started, and/or adjusting the temperature of the environment where the platelet-rich plasma is positioned based on preset temperature control parameters when the temperature control end is started, so that the platelets are activated to release growth factors and exosomes.
  2. 2. The method of claim 1, wherein the method further comprises: receiving a user input of a target use of the platelet rich plasma; Determining a target activation mode of the platelet-rich plasma based on the target use of the platelet-rich plasma input by a user, wherein the target activation mode is determined from a plurality of preset activation modes, and the plurality of preset activation modes comprise an illumination activation mode, an ultrasonic activation mode, a temperature control activation mode, an illumination and ultrasonic activation mode, an illumination and temperature control activation mode, an ultrasonic and temperature control activation mode, an illumination, ultrasonic and temperature control activation mode.
  3. 3. The method of claim 2, wherein the determining a target activation pattern of the platelet rich plasma based on the target use of the platelet rich plasma entered by a user comprises: based on the corresponding relation between the application and the preset activation mode and the target application, determining the preset activation mode corresponding to the target application, and determining the preset activation mode corresponding to the target application as the target activation mode.
  4. 4. The method of claim 2, wherein the determining a target activation pattern of the platelet rich plasma based on the target use of the platelet rich plasma entered by a user further comprises: the target activation mode is sent to an interaction end of the electronic equipment; displaying the target activation mode through the interaction end for a user to confirm, and if the user does not select the target activation mode, receiving a preset activation mode input by the user; And determining a preset activation mode input by a user as the target activation mode.
  5. 5. The method of claim 1, wherein the predetermined illumination parameters include a predetermined wavelength, a predetermined light intensity range, and a predetermined illumination time period, the illuminating the platelet rich plasma based on the predetermined illumination parameters when the illumination end is turned on, comprising: Controlling the illumination end to emit light rays with the preset wavelength; acquiring the light intensity sensed by a light sensor of the electronic equipment, and if the light intensity sensed by the light sensor is not in the preset light intensity range, adjusting the wavelength of the light until the light intensity sensed by the light sensor falls into the preset light intensity range; And controlling the illumination end to irradiate the platelet-rich plasma for the preset irradiation time.
  6. 6. The method of claim 1, wherein the preset ultrasound parameters include a preset on-time, a preset frequency, and a preset duty cycle, and wherein sonicating the platelet rich plasma based on the preset ultrasound parameters when the ultrasound tip is on comprises: And controlling the ultrasonic end to generate ultrasonic waves based on the preset frequency and the preset duty ratio, wherein the ultrasonic waves are transmitted in the platelet-rich plasma for the preset opening time.
  7. 7. The method of claim 1, wherein the predetermined temperature control parameter comprises a first predetermined temperature range, wherein the adjusting the temperature of the platelet rich plasma environment based on the predetermined temperature control parameter when the temperature control terminal is on comprises: And controlling the temperature control end to keep the environmental temperature of the platelet-rich plasma in the preset temperature range.
  8. 8. The method of claim 7, wherein the preset temperature control parameter comprises a second preset temperature range and a corresponding preset time period, and wherein adjusting the temperature of the environment in which the platelet-rich plasma is located based on the preset temperature control parameter when the temperature control terminal is turned on further comprises: Controlling the temperature control end to keep the environmental temperature of the platelet-rich plasma in the second preset temperature range for the preset time period; And controlling the temperature control end to rise, and keeping the ambient temperature of the platelet-rich plasma in the first preset temperature range.
  9. 9. An electronic device, the electronic device comprising a memory and a processor: Wherein the memory is used for storing program instructions; the processor for reading and executing the program instructions stored in the memory, which when executed by the processor, cause the electronic device to perform the method of activating platelets to release growth factors and exosomes according to any one of claims 1 to 8.
  10. 10. A computer storage medium storing program instructions which, when run on an electronic device, cause a processor of the electronic device to perform the method of activating platelets to release growth factors and exosomes according to any one of claims 1 to 8.

Description

Method for activating platelets to release growth factors and exosomes, electronic device and storage medium Technical Field The application relates to the technical field of blood treatment, in particular to a method, electronic equipment and storage medium for activating platelets to release growth factors and exosomes. Background Platelet Rich Plasma (PRP) is a Platelet concentrate prepared by centrifugation of autologous whole blood, has high Platelet concentration, and contains multiple growth factors such as Platelet-derived growth factor (PDGF) and transforming growth factor beta (TGF-beta). Platelet rich plasma typically activates platelets in vitro by exogenous activation prior to use, allowing for rapid release of growth factors. In vitro activation ensures that almost all platelets are degranulated prior to injection, facilitating the delivery of high concentrations of growth factors to the site of human injury, avoiding uncertainty in vivo activation. In the related art, exogenous activation of platelets is mainly achieved by chemical methods, which trigger the activation process of platelets by adding chemical agents. However, the chemical agents used in the chemical methods may have adverse effects on the human body, thereby affecting the health of the human body. Disclosure of Invention In view of the foregoing, it is desirable to provide a method, an electronic device and a storage medium for activating platelets to release growth factors and exosomes, which solve the problems that exogenous activation of platelets is mainly achieved by chemical methods, and chemical reagents used by the chemical methods may cause adverse effects on human bodies and may affect human health. In a first aspect, an embodiment of the present application provides a method for activating platelets to release growth factors and exosomes, applied to an electronic device, the method comprising: Determining a target activation pattern of the platelet rich plasma based on the target use of the platelet rich plasma; Starting at least one of an illumination end, an ultrasonic end and a temperature control end of the electronic equipment based on the target activation mode; Irradiating the platelet-rich plasma based on preset irradiation parameters when the irradiation end is started, and/or performing ultrasonic treatment on the platelet-rich plasma based on preset ultrasonic parameters when the ultrasonic end is started, and/or adjusting the temperature of the environment where the platelet-rich plasma is positioned based on preset temperature control parameters when the temperature control end is started, so that the platelets are activated to release growth factors and exosomes. In one possible implementation, the method further includes: receiving a user input of a target use of the platelet rich plasma; Determining a target activation mode of the platelet-rich plasma based on the target use of the platelet-rich plasma input by a user, wherein the target activation mode is determined from a plurality of preset activation modes, and the plurality of preset activation modes comprise an illumination activation mode, an ultrasonic activation mode, a temperature control activation mode, an illumination and ultrasonic activation mode, an illumination and temperature control activation mode, an ultrasonic and temperature control activation mode, an illumination, ultrasonic and temperature control activation mode. In one possible implementation, the determining the target activation mode of the platelet rich plasma based on the target use of the platelet rich plasma entered by the user includes: based on the corresponding relation between the application and the preset activation mode and the target application, determining the preset activation mode corresponding to the target application, and determining the preset activation mode corresponding to the target application as the target activation mode. In one possible implementation, the determining the target activation mode of the platelet rich plasma based on the target use of the platelet rich plasma entered by the user further includes: the target activation mode is sent to an interaction end of the electronic equipment; displaying the target activation mode through the interaction end for a user to confirm, and if the user does not select the target activation mode, receiving a preset activation mode input by the user; And determining a preset activation mode input by a user as the target activation mode. In a possible implementation manner, the preset illumination parameters include a preset wavelength, a preset light intensity range, and a preset illumination duration, and the illuminating the platelet-rich plasma based on the preset illumination parameters when the illumination end is turned on includes: Controlling the illumination end to emit light rays with the preset wavelength; acquiring the light intensity sensed by a light sensor of the electronic equipment,