| No. | Publication Number | Title | Publication/Patent Number Publication/Patent Number |
Publication Date
Publication Date
|
Application Number Application Number |
Filing Date
Filing Date
|
Inventor Inventor | Assignee Assignee |
IPC
IPC
|
|||||
|
1 | US2021038876A1 |
IMPLANTABLE ULTRASOUND CONDUCTING AND DRUG DELIVERING APPARATUS
|
Publication/Patent Number: US2021038876A1 | Publication Date: 2021-02-11 | Application Number: 17/049,743 | Filing Date: 2018-07-02 | Inventor: Liu, Tse-ying Chen ming hong | Assignee: LIU, Tse-Ying | IPC: A61M37/00 | Abstract: An implantable ultrasound conducting and drug delivering apparatus includes a drug-accommodating member and a shell-shaped ultrasound-scattering member mounted on a bottom of the drug-accommodating member. The shell-shaped ultrasound-scattering member thereon has a plurality of scattering through-holes. The drug-accommodating member has at least one linking through-hole formed on the bottom thereof to communicate the bottom of the drug-accommodating member with the shell-shaped ultrasound-scattering member. The shell-shaped ultrasound-scattering member is fitted to be disposed within a physical cavity of a patient. A drug is injected into an accommodating room of the drug-accommodating member. The drug passes through the scattering through-holes and delivers to the physical cavity. An ultrasound propagates to the scattering through-holes, and is scattered by the scattering through-holes to the tissue liquid in the physical cavity, all surfaces of an inner wall of the physical cavity and all tissues neighboring the inner wall of the physical cavity. | |||
|
|
2 | US10773098B2 |
Therapy for glioblastoma multiforme
|
Publication/Patent Number: US10773098B2 | Publication Date: 2020-09-15 | Application Number: 15/878,279 | Filing Date: 2018-01-23 | Inventor: Liu, Tse-ying Chen ming hong | Assignee: National Yang-Ming University | IPC: A61N5/10 | Abstract: The invention provides a therapy method for glioblastoma multiforme (GBM). The therapy method uses a low-dose radiation to realize GBM tumor cell-targeted radiotherapy via sequentially administration of radiation enhancer-incorporated nanocarriers, 5-aminolevulinic acid, therapeutic ultrasound and therapeutic radiation. | |||
|
3 | TWI655010B |
Implantable ultrasound conducting and drug delivering apparatus
|
Publication/Patent Number: TWI655010B | Publication Date: 2019-04-01 | Application Number: 107102344 | Filing Date: 2018-01-23 | Inventor: Liu, Tse Ying Chen, Ming Hong | Assignee: National Yang-Ming University | IPC: A61N7/00 | Abstract: The invention discloses an implantable ultrasound conducting and drug delivering apparatus which includes a drug-accommodating member and a shell-shaped ultrasound-scattering member. The shell-shaped ultrasound-scattering member is mounted on a bottom of the drug-accommodating member. The drug-accommodating member has a plurality of linking through-holes formed on the bottom thereof. The bottom of the drug-accommodating member via the linking through-holes communicates with the shell-shaped ultrasound-scattering member. The shell-shaped ultrasound-scattering member thereon has a plurality of scattering through-holes. The shell-shaped ultrasound-scattering member is fitted to be disposed within a physical cave of a patient. A drug is injected into an accommodating room of the drug-accommodating member. The drug passes through a plurality of scattering through-holes of the shell-shaped ultrasound-scattering member and delivers to the physical cave. An ultrasound propagates to the plurality of scattering through-holes of the shell-shaped scattering member, and is scattered by the plurality of scattering through-holes of the shell-shaped ultrasound-scattering member to the tissue liquid in the physical cave, all surface of an inner wall of the physical cave and all tissues neighboring the inner wall of the physical cave. | |||
|
|
4 | WO2019205285A1 |
IMPLANTABLE ULTRASONIC CONDUCTION AND DRUG DELIVERY APPARATUS
|
Publication/Patent Number: WO2019205285A1 | Publication Date: 2019-10-31 | Application Number: 2018094082 | Filing Date: 2018-07-02 | Inventor: Liu, Tse-ying Chen ming hong | Assignee: LIU, Tse-Ying | IPC: A61M37/00 | Abstract: An implantable ultrasonic conduction and drug delivery apparatus (1, 4), comprising a drug containing component (10, 40) and a shell-shaped ultrasonic scattering component (12, 42). The shell-shaped ultrasonic scattering component (12, 42) is fixed onto the bottom of the drug containing component (10, 40). The drug containing component (10, 40) has multiple connected through holes (108, 408) formed on the bottom (106, 406). The multiple connected through holes (108, 408) communicate the bottom (106, 406) of the drug containing component (10, 40) with the shell-shaped ultrasonic scattering component (12, 42). The shell-shaped ultrasonic scattering component (12, 42) has multiple scattering through holes (122, 422). The shell-shaped ultrasonic scattering component (12, 42) is cooperatively placed in a body cavity (20) of a patient. A drug is injected into a containing space (104, 404) of the drug containing component (10, 40). The drug is conveyed to the body cavity (20) by means of the multiple scattering through holes (122, 422) of the shell-shaped scattering component (12, 42). Directional ultrasonic waves are transferred to the multiple scattering through holes (122, 422) of the shell-shaped ultrasonic scattering component (12, 42), and are then uniformly scattered to tissue fluid in the body cavity (20), all surfaces of the inner wall of the body cavity (20), and all tissues adjacent to the surfaces of the inner wall of the body cavity (20) by means of the multiple scattering through holes (122, 422). The apparatus can improve the drug administration efficiency. | |||
|
|
5 | TW201932214A |
Method for reducing surface defects of Caster that comprises a preparation step, a temperature measurement step, a temperature data analysis and determination step, and an adjustment step
|
Publication/Patent Number: TW201932214A | Publication Date: 2019-08-16 | Application Number: 107103177 | Filing Date: 2018-01-30 | Inventor: Lin, Yi-jie Chen ming hong Wang, Zhao-yun Chen, Guo-ben | Assignee: China Steel Corporation | IPC: G01N21/85 | Abstract: A method for reducing surface defects of Caster is applicable to a fabrication process of making a Caster in a casting channel. It comprises a preparation step, a temperature measurement step, a temperature data analysis and determination step, and an adjustment step. The preparation step includes setting up an automatic temperature abnormality feed-back system and a casting channel to be separated from each other, and includes a non-contact temperature meter, an analysis and determination device, a control device, and a water-spraying cooling device. The temperature measurement step includes using the non-contact temperature meter to measure a widthwise temperature data set of Caster in the casting channel. The temperature data analysis and determination step includes dividing the widthwise temperature data set into multiple continuous temperature zones for transmission to the analysis and determination device. When one of the temperature zones is lower than a predetermined temperature or the absolute temperature difference between the adjacent temperature zones is greater than a characteristic temperature, an abnormality signal is generated to the control device. The adjustment step includes lowering down the amount of water spraying by the water-spraying cooling device to the Caster that have not been subjected to temperature measurement, or lowering down the amount of water spraying by the water-spraying cooling device to the temperature zone of the Caster that corresponds to the abnormality signal. | |||
|
|
6 | TWI645922B |
Method for reducing surface defects of Caster that comprises a preparation step, a temperature measurement step, a temperature data analysis and determination step, and an adjustment step
|
Publication/Patent Number: TWI645922B | Publication Date: 2019-01-01 | Application Number: 107103177 | Filing Date: 2018-01-30 | Inventor: Lin, Yi-jie Chen ming hong Wang, Zhao-yun Chen, Guo-ben | Assignee: China Steel Corporation | IPC: G01N21/85 | Abstract: A method for reducing surface defects of Caster is applicable to a fabrication process of making a Caster in a casting channel. It comprises a preparation step, a temperature measurement step, a temperature data analysis and determination step, and an adjustment step. The preparation step includes setting up an automatic temperature abnormality feed-back system and a casting channel to be separated from each other, and includes a non-contact temperature meter, an analysis and determination device, a control device, and a water-spraying cooling device. The temperature measurement step includes using the non-contact temperature meter to measure a widthwise temperature data set of Caster in the casting channel. The temperature data analysis and determination step includes dividing the widthwise temperature data set into multiple continuous temperature zones for transmission to the analysis and determination device. When one of the temperature zones is lower than a predetermined temperature or the absolute temperature difference between the adjacent temperature zones is greater than a characteristic temperature, an abnormality signal is generated to the control device. The adjustment step includes lowering down the amount of water spraying by the water-spraying cooling device to the Caster that have not been subjected to temperature measurement, or lowering down the amount of water spraying by the water-spraying cooling device to the temperature zone of the Caster that corresponds to the abnormality signal. | |||
|
|
7 | TWM562829U |
Multi-chamber bottle cap
|
Publication/Patent Number: TWM562829U | Publication Date: 2018-07-01 | Application Number: 106218301 | Filing Date: 2017-12-08 | Inventor: Chen ming hong | Assignee: ZENG, BO-YUAN | IPC: B65D43/00 | ||||
|
|
8 | TW201827094A |
Implantable ultrasound conducting and drug delivering apparatus
|
Publication/Patent Number: TW201827094A | Publication Date: 2018-08-01 | Application Number: 107102344 | Filing Date: 2018-01-23 | Inventor: Liu, Tse Ying Chen, Ming Hong | Assignee: National Yang-Ming University | IPC: A61N7/00 | Abstract: The invention discloses an implantable ultrasound conducting and drug delivering apparatus which includes a drug-accommodating member and a shell-shaped ultrasound-scattering member. The shell-shaped ultrasound-scattering member is mounted on a bottom of the drug-accommodating member. The drug-accommodating member has a plurality of linking through-holes formed on the bottom thereof. The bottom of the drug-accommodating member via the linking through-holes communicates with the shell-shaped ultrasound-scattering member. The shell-shaped ultrasound-scattering member thereon has a plurality of scattering through-holes. The shell-shaped ultrasound-scattering member is fitted to be disposed within a physical cave of a patient. A drug is injected into an accommodating room of the drug-accommodating member. The drug passes through a plurality of scattering through-holes of the shell-shaped ultrasound-scattering member and delivers to the physical cave. An ultrasound propagates to the plurality of scattering through-holes of the shell-shaped scattering member, and is scattered by the plurality of scattering through-holes of the shell-shaped ultrasound-scattering member to the tissue liquid in the physical cave, all surface of an inner wall of the physical cave and all tissues neighboring the inner wall of the physical cave. | |||
|
|
9 | TWM558349U |
Gas detection device
|
Publication/Patent Number: TWM558349U | Publication Date: 2018-04-11 | Application Number: 106213368 | Filing Date: 2017-09-08 | Inventor: Chen ming hong Xiao, Yong-jing | Assignee: JI, LI-NA TIAN, YI-NAN TIAN, YI-LING | IPC: G01N1/22 | ||||
|
|
10 | TWM564456U |
Implantable ultrasound conducting and drug delivering apparatus
|
Publication/Patent Number: TWM564456U | Publication Date: 2018-08-01 | Application Number: 107201096 | Filing Date: 2018-01-23 | Inventor: Chen ming hong Liu, Tse-ying | Assignee: National Yang-Ming University | IPC: A61N7/00 | Abstract: The invention discloses an implantable ultrasound conducting and drug delivering apparatus which includes a drug-accommodating member and a shell-shaped ultrasound-scattering member. The shell-shaped ultrasound-scattering member is mounted on a bottom of the drug-accommodating member. The drug-accommodating member has a plurality of linking through-holes formed on the bottom thereof. The bottom of the drug-accommodating member via the linking through-holes communicates with the shell-shaped ultrasound-scattering member. The shell-shaped ultrasound-scattering member thereon has a plurality of scattering through-holes. The shell-shaped ultrasound-scattering member is fitted to be disposed within a physical cave of a patient. A drug is injected into an accommodating room of the drug-accommodating member. The drug passes through a plurality of scattering through-holes of the shell-shaped ultrasound-scattering member and delivers to the physical cave. An ultrasound propagates to the plurality of scattering through-holes of the shell-shaped scattering member, and is scattered by the plurality of scattering through-holes of the shell-shaped ultrasound-scattering member to the tissue liquid in the physical cave, all surface of an inner wall of the physical cave and all tissues neighboring the inner wall of the physical cave. | |||
|
|
11 | US2018207447A1 |
THERAPY FOR GLIOBLASTOMA MULTIFORME
|
Publication/Patent Number: US2018207447A1 | Publication Date: 2018-07-26 | Application Number: 15/878,279 | Filing Date: 2018-01-23 | Inventor: Chen ming hong Liu, Tse-ying | Assignee: National Yang-Ming University | IPC: A61N7/00 | Abstract: The invention provides a therapy method for glioblastoma multiforme (GBM). The therapy method uses a low-dose radiation to realize GBM tumor cell-targeted radiotherapy via sequentially administration of radiation enhancer-incorporated nanocarriers, 5-aminolevulinic acid, therapeutic ultrasound and therapeutic radiation. | |||
|
|
12 | TW201837825A |
Server, claim processing server, and method for processing insurance claims
|
Publication/Patent Number: TW201837825A | Publication Date: 2018-10-16 | Application Number: 106112508 | Filing Date: 2017-04-14 | Inventor: Chen ming hong Chu, Chi-fu Wu, Yun-chiao Lo, Tsung-lun | Assignee: NAN SHAN LIFE INSURANCE CO., LTD. | IPC: G06Q40/08 | Abstract: The present disclosure provides a server. The server includes a processing module, before receiving a first information and a first value, the processing module is configured to determine a second value, and a communication module configured to transmit the second value and receive the first information, the first value and a third value, wherein the processing module is configured to determine a fourth value based on the first information and the first value. | |||
|
|
13 | TWI583462B |
Sprue photographic apparatus for continuous casting system
|
Publication/Patent Number: TWI583462B | Publication Date: 2017-05-21 | Application Number: 104116046 | Filing Date: 2015-05-20 | Inventor: Chen ming hong | Assignee: China Steel Corporation | IPC: B22D2/00 | Abstract: This invention discloses a sprue photographic apparatus for continuous casting system. The continuous casting system comprises a plurality of rollers which are correspondingly disposed and define a sprue. The sprue photographic apparatus comprises a dummy bar | |||
|
|
14 | TWM537073U |
Sealing structure specific for tea bag cap
|
Publication/Patent Number: TWM537073U | Publication Date: 2017-02-21 | Application Number: 105214578 | Filing Date: 2016-09-23 | Inventor: Chen ming hong Zhang, Jin-zhou | Assignee: Chen ming hong ZHANG, JIN-ZHOU | IPC: B65D51/18 | ||||
|
|
15 | TWI577120B |
High-power power supply apparatus capable of reducing volume of output inductor
|
Publication/Patent Number: TWI577120B | Publication Date: 2017-04-01 | Application Number: 104107130 | Filing Date: 2015-03-06 | Inventor: Chen, Jia-bin Chen ming hong Zhang, Shun-de Ye, Jia-an | Assignee: Acbel Polytech Inc. | IPC: H02M1/44 | Abstract: Provided is a high-power power supply apparatus capable of reducing the volume of an output inductor | |||
|
|
16 | TWM548855U |
Server and claim processing server
|
Publication/Patent Number: TWM548855U | Publication Date: 2017-09-11 | Application Number: 106205271 | Filing Date: 2017-04-14 | Inventor: Chen ming hong Chu, Chi-fu Wu, Yun-chiao Lo, Tsung-lun | Assignee: NAN SHAN LIFE INSURANCE CO., LTD. | IPC: G06Q40/08 | Abstract: The present disclosure provides a server. The server includes a processing module | |||
|
|
17 | TWI571337B |
Spray nozzle detection apparatus
|
Publication/Patent Number: TWI571337B | Publication Date: 2017-02-21 | Application Number: 104116245 | Filing Date: 2015-05-21 | Inventor: Chen ming hong Wu, Zong-han Liao, Yong-zhi Huang, He-gui Chen, Shi-jiang | Assignee: China Steel Corporation | IPC: B22D2/00 | Abstract: A spray nozzle detection apparatus comprises a support unit and a positioning unit disposed on the support unit. The support unit comprises two upright stands and a transverse frame disposed laterally between the stands. The positioning unit comprises a first longitudinal sliding rail disposed in a vertical direction on the transverse frame; a transverse sliding rail disposed in a horizontal direction on the transverse frame; a second longitudinal sliding rail disposed in a vertical direction on the transverse sliding rail and spaced apart from the first longitudinal sliding rail; two sliding tables respectively disposed on the first longitudinal sliding rail and the second longitudinal sliding rail; two clamping mechanisms respectively pivoted on the sliding tables for clamping a tubing of a nozzle; and two adjusting mechanisms respectively disposed on the clamping mechanisms | |||
|
|
18 | TW201716589A |
An electron-beam vacuum refining furnace which can reduce the problem of crucible splash resulted from feeding actions of the material or scattering of the material out of the crucible
|
Publication/Patent Number: TW201716589A | Publication Date: 2017-05-16 | Application Number: 104137463 | Filing Date: 2015-11-13 | Inventor: Wang, Shea-jue Bor, Hui-yun Chen ming hong Tsai, Yueh-hsuan Chen, Shih-fan Hong, Rong-hong Wei, Chiao-nien | Assignee: NATIONAL CHUNG-SHAN INSTITUTE OF SCIENCE AND TECHNOLOGY | IPC: C22B9/04 | Abstract: An electron-beam vacuum refining furnace includes: a refining furnace main body; an electron-beam unit | |||
|
|
19 | TW201641185A |
Sprue photographic apparatus for continuous casting system
|
Publication/Patent Number: TW201641185A | Publication Date: 2016-12-01 | Application Number: 104116046 | Filing Date: 2015-05-20 | Inventor: Chen ming hong | Assignee: China Steel Corporation | IPC: B22D2/00 | Abstract: This invention discloses a sprue photographic apparatus for continuous casting system. The continuous casting system comprises a plurality of rollers which are correspondingly disposed and define a sprue. The sprue photographic apparatus comprises a dummy bar | |||
|
|
20 | TWM524636U |
Carrot ice cream
|
Publication/Patent Number: TWM524636U | Publication Date: 2016-07-01 | Application Number: 105205282 | Filing Date: 2016-04-15 | Inventor: Chen ming hong Jiang, Bo-yuan Zheng, Qing-qing | Assignee: JIANG, BO-YUAN | IPC: A23G9/44 |
3.Current Quota