Patents by Inventor Takako Ueno

Takako Ueno has filed for patents to protect the following inventions. This listing includes patent applications that are pending as well as patents that have already been granted by the United States Patent and Trademark Office (USPTO).

  • Patent number: 10639823
    Abstract: A product having a microneedle array is provided wherein the composition distribution has been adjusted with good accuracy. A droplet-delivery apparatus of a microneedle-array manufacturing apparatus is configured capable of delivering, to each recessed part, droplets of a raw-material liquid in a prescribed amount that is less than the capacity of the recessed part. An aligning apparatus can align the relative position of the droplet-delivery apparatus and a mold such that the droplets from the droplet-delivery apparatus are caused to land in each of the recessed parts. The droplet-delivery apparatus delivers a plurality of the droplets to each of the recessed parts; and the aligning apparatus aligns the relative position of the droplet-delivery apparatus and the mold such that a second droplet lands in each of the recessed parts on the center part side of a first droplet.
    Type: Grant
    Filed: December 14, 2015
    Date of Patent: May 5, 2020
    Assignees: NISSHA PRINTING CO., LTD., BIOSERENTACH CO., LTD.
    Inventors: Shinya Yamada, Masateru Chiyama, Kensaku Akita, Takako Ueno, Yuko Ide, Sachi Nagai, Osanobu Akao, Ichiro Ono, Kanji Takada
  • Publication number: 20180140815
    Abstract: A microneedle patch with which a treatment is reliably completed in a short time when a microneedle is administered into skin or mucous membrane is provided. A microneedle patch (100F) includes a base member (101) and a plurality of microneedles (103g) supported by the base member (101). Each microneedle (103g) includes a top-section layer (104) comprising a biologically active substance to be inserted in dermis (310), and an intermediate layer (106) provided between the top-section layer (104) and the base member (101), having a composition having breaking strength weaker than breaking strength of a composition of the top-section layer (104), and having a thickness of 5 ?m and 100 ?m inclusive.
    Type: Application
    Filed: December 15, 2015
    Publication date: May 24, 2018
    Applicants: Labo Juversa Co., Ltd., BIOSERENTACH CO., LTD.
    Inventors: Ichiro ONO, Shinya YAMADA, Masateru CHIYAMA, Kensaku AKITA, Takako UENO, Yuko IDE, Sachi NAGAI, Osanobu AKAO, Kanji TAKADA
  • Publication number: 20170348880
    Abstract: A product having a microneedle array is provided wherein the composition distribution has been adjusted with good accuracy. A droplet-delivery apparatus of a microneedle-array manufacturing apparatus is configured capable of delivering, to each recessed part, droplets of a raw-material liquid in a prescribed amount that is less than the capacity of the recessed part. An aligning apparatus can align the relative position of the droplet-delivery apparatus and a mold such that the droplets from the droplet-delivery apparatus are caused to land in each of the recessed parts. The droplet-delivery apparatus delivers a plurality of the droplets to each of the recessed parts; and the aligning apparatus aligns the relative position of the droplet-delivery apparatus and the mold such that a second droplet lands in each of the recessed parts on the center part side of a first droplet.
    Type: Application
    Filed: December 14, 2015
    Publication date: December 7, 2017
    Inventors: Shinya YAMADA, Masateru CHIYAMA, Kensaku AKITA, Takako UENO, Yuko IDE, Sachi NAGAI, Osanobu AKAO, Ichiro ONO, Kanji TAKADA
  • Publication number: 20170101242
    Abstract: A conical-projections-sheet packaging body includes a conical-projections sheet, a conical-projections forming sheet, and a sealing sheet. The conical-projections sheet includes a substrate and a plurality of conical projections formed on a surface of the substrate. The conical-projections forming sheet has a plurality of conical-recess parts, which is used to form the plurality of conical projections and wherein the plurality of conical projections is disposed. The conical-projections forming sheet protects the conical projections in a state wherein the plurality of conical projections is tightly adhered to the surface of the substrate. The sealing sheet, by being fixed to the conical-projections forming sheet, seals the conical-projections sheet between the conical-projections forming sheet and the sealing sheet.
    Type: Application
    Filed: March 25, 2015
    Publication date: April 13, 2017
    Inventors: Shinya YAMADA, Takako UENO, Chika KAEDE, Hiroyuki NAGAI, Yuki KATOU, Yuka NISHIMURA
  • Patent number: 9566423
    Abstract: A low cost transdermal patch comprises water soluble microneedles and has good performance. A transdermal patch comprises a microneedle sheet, which comprises a plurality of water soluble microneedles, moisture permeable sheet, wherethrough water vapor passes, and a reinforcing film. The reinforcing film is adhered, by an adhesive layer having an adhesive strength less than that of an adhesive layer, onto an outer surface of the moisture permeable sheet, which is the side opposite the skin opposing surface. The reinforcing film includes a water vapor barrier sheet, which blocks the passage of water vapor through at least a first area, and a removable portion around the water vapor barrier sheet. The removable portion is configured such that it can be separated from and peeled off the water vapor barrier sheet.
    Type: Grant
    Filed: April 22, 2014
    Date of Patent: February 14, 2017
    Assignee: NISSHA PRINTING CO., LTD.
    Inventors: Takako Ueno, Chika Kaede, Shinya Yamada, Yoichi Yamaguchi
  • Patent number: 9448678
    Abstract: A capacitive transparent touch sheet has excellent visibility and durability without changing the sensitivity, size, or the like of a touch panel. The capacitive transparent touch sheet comprises: a first conductive sheet including a first substrate to be adhered to the hard substrate, and a plurality of strip shaped first electrodes formed separately on a surface of the first substrate to be adhered to the hard substrate; a second conductive sheet including a second substrate disposed to oppose the first substrate, a plurality of strip shaped second electrodes formed on a surface of the second substrate opposing the first substrate and arranged to cross the first electrodes, and at least one insulation part formed continuously with the second electrodes, the at least one insulation part having a thickness the same as that of the second electrodes; and an adhesive layer that bonds the first and second conductive sheets together.
    Type: Grant
    Filed: May 28, 2013
    Date of Patent: September 20, 2016
    Assignee: NISSHA PRINTING CO., LTD.
    Inventors: Katsumi Tokuno, Takanori Yoshida, Yoshihiro Nii, Takako Ueno, Yuhei Abe, Tsunetomo Aisaka, Eiko Seki, Yoko Kawashima, Kaori Maenaka, Kazumasa Takahashi
  • Publication number: 20160082240
    Abstract: A low cost transdermal patch comprises water soluble microneedles and has good performance. A transdermal patch comprises a microneedle sheet, which comprises a plurality of water soluble microneedles, moisture permeable sheet, wherethrough water vapor passes, and a reinforcing film. The reinforcing film is adhered, by an adhesive layer having an adhesive strength less than that of an adhesive layer, onto an outer surface of the moisture permeable sheet, which is the side opposite the skin opposing surface. The reinforcing film includes a water vapor barrier sheet, which blocks the passage of water vapor through at least a first area, and a removable portion around the water vapor barrier sheet. The removable portion is configures such that it can be separated from and peeled off the water vapor barrier sheet.
    Type: Application
    Filed: April 22, 2014
    Publication date: March 24, 2016
    Inventors: Takako UENO, Chika KAEDE, Shinya YAMADA, Yoichi YAMAGUCHI
  • Publication number: 20150193046
    Abstract: A capacitive transparent touch sheet has excellent visibility and durability without changing the sensitivity, size, or the like of a touch panel. A capacitive transparent touch sheet is a capacitive transparent touch sheet that comprises: a substrate; strip shaped first electrodes comprising a transparent metal oxide and formed separately on a first surface of the substrate; strip shaped second electrodes formed on a second surface of the substrate opposite to the first surface and to cross the first electrodes; and at least one insulation part formed continuously with the second electrodes and having a thickness the same as that of the second electrodes. The second electrodes comprise conductive nanofibers conductively connected with each other, and a binder resin for holding the conductive nanofibers on the substrate; and the at least one insulation part comprises the binder resin that constitutes the second electrodes without the conductive nanofibers.
    Type: Application
    Filed: May 28, 2013
    Publication date: July 9, 2015
    Inventors: Katsumi Tokuno, Takanori Yoshida, Yoshihiro Nii, Takako Ueno, Yuhei Abe, Tsunetomo Aisaka, Eiko Seki, Yoko Kawashima, Kaori Maenaka, Kazumasa Takahashi
  • Publication number: 20150138139
    Abstract: A capacitive transparent touch sheet has excellent visibility and durability without changing the sensitivity, size, or the like of a touch panel. The capacitive transparent touch sheet comprises: a first conductive sheet including a first substrate to be adhered to the hard substrate, and a plurality of strip shaped first electrodes formed separately on a surface of the first substrate to be adhered to the hard substrate; a second conductive sheet including a second substrate disposed to oppose the first substrate, a plurality of strip shaped second electrodes formed on a surface of the second substrate opposing the first substrate and arranged to cross the first electrodes, and at least one insulation part formed continuously with the second electrodes, the at least one insulation part having a thickness the same as that of the second electrodes; and an adhesive layer that bonds the first and second conductive sheets together.
    Type: Application
    Filed: May 28, 2013
    Publication date: May 21, 2015
    Inventors: Katsumi Tokuno, Takanori Yoshida, Yoshihiro Nii, Takako Ueno, Yuhei Abe, Tsunetomo Aisaka, Eiko Seki, Yoko Kawashima, Kaori Maenaka, Kazumasa Takahashi