Abstract: A microparticle dispersion liquid manufacturing apparatus 10 includes a controller 11, a light source 12, an irradiation optical system 13, and a container 14. A solid object 1 is contained in and a solvent 2 is injected into an interior of the container 14 to enable attainment of a state where the solid object 1 is in contact with the solvent 2. The light source 12 repeatedly outputs pulsed light. By repeatedly irradiating the solvent 2 with the pulsed light from the light source 12, expansion and contraction of the solvent 2 is made to occur repeatedly at the irradiated portion, thereby generating a pressure wave in the solvent 2, and the pressure wave is made to act on the solid object 1 to finely pulverize the solid object 1 and thereby manufacture a microparticle dispersion liquid in which microparticles are dispersed in the solvent.

Abstract: A method and an apparatus enabling manufacture of a microparticle dispersion liquid at high efficiency in a short time while suppressing drug degradation, etc., are provided. In a dissolving step, a poorly soluble drug and a dispersion stabilizer are dissolved in a volatile organic solvent in a container 13. In a fixing step following the dissolving step, the organic solvent, contained in a solution, is eliminated by evaporation, a pellet-form residue 1 is obtained by the organic solvent elimination, and the residue 1 is fixed on an inner wall of the container 13. In a water injecting step following the fixing step, water 2 is injected into an interior of the container 13.

Abstract: In a dissolving step, a poorly soluble drug and a dispersion stabilizer are dissolved in a volatile organic solvent. In a fixing step, the organic solvent, contained in a solution obtained in the dissolving step, is removed by evaporation, pellet-form residues 1 are obtained by the organic solvent removal, and the residues 1 are fixed on respective bottom surfaces of a plurality of locations of a container 30. In a water injecting step, water 2 is injected into each of a plurality of recesses 31 of the container 30. In an irradiating step, laser light L, emitted from a light irradiating unit 20, is irradiated simultaneously or successively on the residues 1 fixed on the respective bottom surfaces of the recesses 31 of the container 30, and the residues 1 are thereby pulverized and made into microparticles and a microparticle dispersion liquid, constituted of the microparticles being dispersed in the water 2, is manufactured.

Abstract: In a dissolving step, a poorly soluble drug and a dispersion stabilizer are dissolved in a volatile organic solvent. In a fixing step, the organic solvent, contained in a solution obtained in the dissolving step, is removed by evaporation, pellet-form residues 1 are obtained by the organic solvent removal, and the residues 1 are fixed on respective bottom surfaces of a plurality of locations of a container 30. In a water injecting step, water 2 is injected into each of a plurality of recesses 31 of the container 30. In an irradiating step, laser light L, emitted from a light irradiating unit 20, is irradiated simultaneously or successively on the residues 1 fixed on the respective bottom surfaces of the recesses 31 of the container 30, and the residues 1 are thereby pulverized and made into microparticles and a microparticle dispersion liquid, constituted of the microparticles being dispersed in the water 2, is manufactured.

Abstract: A microparticle dispersion liquid manufacturing apparatus 10 includes a controller 11, a light source 12, an irradiation optical system 13, and a container 14. A solid object 1 is contained in and a solvent 2 is injected into an interior of the container 14 to enable attainment of a state where the solid object 1 is in contact with the solvent 2. The light source 12 repeatedly outputs pulsed light. By repeatedly irradiating the solvent 2 with the pulsed light from the light source 12, expansion and contraction of the solvent 2 is made to occur repeatedly at the irradiated portion, thereby generating a pressure wave in the solvent 2, and the pressure wave is made to act on the solid object 1 to finely pulverize the solid object 1 and thereby manufacture a microparticle dispersion liquid in which microparticles are dispersed in the solvent.

Abstract: In a dissolving step, a poorly soluble drug and a dispersion stabilizer are dissolved in a volatile organic solvent. In a fixing step, the organic solvent, contained in a solution obtained in the dissolving step, is removed by evaporation, pellet-form residues are obtained by the organic solvent removal, and the residues are fixed on respective bottom surfaces of a plurality of locations of a container. In a water injecting step, water is injected into each of a plurality of recesses of the container. In an irradiating step, laser light L, emitted from a light irradiating unit, is irradiated simultaneously or successively on the residues fixed on the respective bottom surfaces of the recesses of the container, and the residues are thereby pulverized and made into microparticles and a microparticle dispersion liquid, constituted of the microparticles being dispersed in the water, is manufactured.

Abstract: In a dissolving step, in a container 13, a poorly soluble drug and a dispersion stabilizer (polyvinylpyrrolidone and sodium lauryl sulfate) are dissolved in a volatile organic solvent. In a solid composition forming step following the dissolving step, the organic solvent contained in the solution is removed by evaporation, and by the organic solvent removal, a solid composition 1 is obtained as a residue, and the solid composition 1 becomes fixed on the inner wall of the container 13. In a water injecting step following the solid composition forming step, water 2 is injected into the interior of the container 13. In a microparticle dispersion liquid preparing step following the water injecting step, laser light L emitted from a laser light source 11 is irradiated on the solid composition 1 fixed on the inner wall of the container 13 and optical energy is thereby applied to the solid composition 1.

Abstract: In a dissolving step, a poorly soluble drug and a dispersion stabilizer are dissolved in a volatile organic solvent. In a fixing step, the organic solvent, contained in a solution obtained in the dissolving step, is removed by evaporation, pellet-form residues 1 are obtained by the organic solvent removal, and the residues 1 are fixed on respective bottom surfaces of a plurality of locations of a container 30. In a water injecting step, water 2 is injected into each of a plurality of recesses 31 of the container 30. In an irradiating step, laser light L, emitted from a light irradiating unit 20, is irradiated simultaneously or successively on the residues 1 fixed on the respective bottom surfaces of the recesses 31 of the container 30, and the residues 1 are thereby pulverized and made into microparticles and a microparticle dispersion liquid, constituted of the microparticles being dispersed in the water 2, is manufactured.

Abstract: A to-be-treated body, which contains raw material particles 5 of a substance and with which a solvent 4 of a to-be-treated liquid 2 is made solid, is used, and a laser light source 10, which supplies a laser light of a predetermined wavelength to a treatment chamber 3 that contains the to-be-treated body, is provided to arrange a production apparatus 1A. The laser light from the laser light source 10 is illuminated onto the to-be-treated body to microparticulate the substance in solvent 4. As the to-be-treated body of solid form, a solidified body 6, with which water 4 is solidified by a cooling device 50 and the solidified state is maintained by a thermally insulating layer 30, may be used. Or, as the to-be-treated body, a gel body, with which the solvent is gelled, may be used. The substance can thereby microparticulated efficiently by photo-pulverization.

Abstract: A production apparatus which includes: a treatment chamber, containing a to-be-treated liquid, made up of water, which is a solvent, and raw material particles of a substance; a laser light source, illuminating laser light for microparticulation onto the to-be-treated liquid; an ultrasonic transducer, irradiating ultrasonic waves for preventing aggregation of microparticles; and a controlling device, controlling the laser light illumination by the laser light source and the ultrasonic wave irradiation by the ultrasonic transducer. A vibration amplitude of the treatment chamber is monitored by means of a microphone and a vibration amplitude measuring device to set the frequency of the ultrasonic waves to a resonance vibration frequency. A microparticle production method and production apparatus that enable substances to be microparticulated efficiently by photo-pulverization, and microparticles are thus realized.

Abstract: A method and an apparatus enabling manufacture of a microparticle dispersion liquid at high efficiency in a short time while suppressing drug degradation, etc., are provided. In a dissolving step, a poorly soluble drug and a dispersion stabilizer are dissolved in a volatile organic solvent in a container 13. In a fixing step following the dissolving step, the organic solvent, contained in a solution, is eliminated by evaporation, a pellet-form residue 1 is obtained by the organic solvent elimination, and the residue 1 is fixed on an inner wall of the container 13. In a water injecting step following the fixing step, water 2 is injected into an interior of the container 13.

Abstract: In a dissolving step, in a container 13, a poorly soluble drug and a dispersion stabilizer (polyvinylpyrrolidone and sodium lauryl sulfate) are dissolved in a volatile organic solvent. In a solid composition forming step following the dissolving step, the organic solvent contained in the solution is removed by evaporation, and by the organic solvent removal, a solid composition 1 is obtained as a residue, and the solid composition 1 becomes fixed on the inner wall of the container 13. In a water injecting step following the solid composition forming step, water 2 is injected into the interior of the container 13. In a microparticle dispersion liquid preparing step following the water injecting step, laser light L emitted from a laser light source 11 is irradiated on the solid composition 1 fixed on the inner wall of the container 13 and optical energy is thereby applied to the solid composition 1.

Abstract: In a dissolving step, a poorly soluble drug and a dispersion stabilizer are dissolved in a volatile organic solvent. In a fixing step, the organic solvent, contained in a solution obtained in the dissolving step, is removed by evaporation, pellet-form residues 1 are obtained by the organic solvent removal, and the residues 1 are fixed on respective bottom surfaces of a plurality of locations of a container 30. In a water injecting step, water 2 is injected into each of a plurality of recesses 31 of the container 30. In an irradiating step, laser light L, emitted from a light irradiating unit 20, is irradiated simultaneously or successively on the residues 1 fixed on the respective bottom surfaces of the recesses 31 of the container 30, and the residues 1 are thereby pulverized and made into microparticles and a microparticle dispersion liquid, constituted of the microparticles being dispersed in the water 2, is manufactured.

Abstract: A to-be-treated body, which contains raw material particles 5 of a substance and with which a solvent 4 of a to-be-treated liquid 2 is made solid, is used, and a laser light source 10, which supplies a laser light of a predetermined wavelength to a treatment chamber 3 that contains the to-be-treated body, is provided to arrange a production apparatus 1A. The laser light from the laser light source 10 is illuminated onto the to-be-treated body to microparticulate the substance in solvent 4. As the to-be-treated body of solid form, a solidified body 6, with which water 4 is solidified by a cooling device 50 and the solidified state is maintained by a thermally insulating layer 30, may be used. Or, as the to-be-treated body, a gel body, with which the solvent is gelled, may be used. The substance can thereby microparticulated efficiently by photo-pulverization.

Abstract: A production apparatus 1A includes: a treatment chamber 3, containing a to-be-treated liquid 2, made up of water 4, which is a solvent, and raw material particles 5 of a substance; a laser light source 10, illuminating laser light for microparticulation onto the to-be-treated liquid 2; an ultrasonic transducer 20, irradiating ultrasonic waves for preventing aggregation of microparticles; and a controlling device 15, controlling the laser light illumination by the laser light source 10 and the ultrasonic wave irradiation by the ultrasonic transducer 20. A vibration amplitude of the treatment chamber 3 is monitored by means of a microphone 30 and a vibration amplitude measuring device 35 to set the frequency of the ultrasonic waves to a resonance vibration frequency. A microparticle production method and production apparatus that enable substances to be microparticulated efficiently by photo-pulverization, and microparticles are thereby realized.

Abstract: In a method for finely pulverizing an organic compound 5 in treatment target liquid 2 to manufacture fine particles of the organic compound 5, a laser beam having a wavelength which is longer than the light absorption band of the organic compound 5 or corresponds to an absorption wavelength of solvent is irradiated to the treatment target liquid 2 to finely pulverize the organic compound 5, thereby manufacturing fine particles of the organic compound 5. According to this manufacturing method, the fine particles can be manufactured with sufficiently preventing photochemical reactions of the organic compound 5 in the treatment target liquid 2. Accordingly, a fine particle manufacturing method and apparatus that can manufacture fine particles while sufficiently preventing photochemical reactions in the organic compound, fine particles, and injectable agent and a manufacturing method for the injectable agent can be implemented.