| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | Multipurpose plate | JP19432999 | 1999-07-08 | JP2001017155A | 2001-01-23 | KAWAMURA KENJI |
| PROBLEM TO BE SOLVED: To provide a plate useful for tissue culture and immunoassay, and capable of being used for the multipurpose such as morphological observation, absorbency measurements and fluorescent/fermentation measurements. SOLUTION: This plate is composed of a multi-well plate 10 which has a thickness of ≤0.5 mm and is made of a transparent resin and a holder 11 for holding the plate 10 which has the same shape as the multi-well plate, has a thickness of ≥1 mm and is formed of a transparent or colored resin. The holder 11 can closely contact with the inside of the transparent resin plate and can be used as a transparent plate or a colored plate when the holder 11 has been attached to the transparent resin plate. COPYRIGHT: (C)2001,JPO | ||||||
| 82 | Device for detecting microorganism in sample | JP4154296 | 1996-02-28 | JPH08256757A | 1996-10-08 | ALSPECTOR BEJAMIMIN |
| PROBLEM TO BE SOLVED: To provided a small-sized microorganisms assay device capable of being used for collection of samples and culture of microorganisms, avoiding misinterpretation of analyzed results due to exogenous microorganisms and environmental pollution due to collected microorganisms and enabling precise analysis of microorganisms. SOLUTION: This microorganisms assay device comprises an open sealable assay vessel 1, an assembly 2 for collection and analyzing of samples detachably accommodated in the vessel 1 and having a carrying member 3 and a slide 10. The vessel 1 has a bottom and a wall with a neck portion extending from the bottom and the carrying member 3 has a head portion with a cap 4 for sealing the neck portion of the vessel 1, a main body portion having at least one surface that bears a culture medium 8, and a tip portion 7. The slide 10 can reciprocate on the carrier member 3 between the head portion and tip 7 and has a sleeve 11 with at least one applicator tongue 13 designed for resilient bias on to the culture medium 8. COPYRIGHT: (C)1996,JPO | ||||||
| 83 | 細胞および/または細胞生成物の製造システム、製造装置および製造方法 | JP2017559911 | 2016-02-08 | JP2018504931A | 2018-02-22 | カスティーヨ,ホセ |
| 【構成】本発明は、細胞および/または細胞生成物の生成システムおよび生成方法を提供するものである。本発明システムは細胞を培養する少なくとも一つのバイオリアクターを有する少なくとも一つの細胞培養ユニット、この細胞培養ユニットに少なくとも流体接続し、細胞成長パラメーターを制御する少なくとも一つの操作制御ユニット、および培養ユニットに流体接続し、周囲空気を処理する少なくとも一つの空気処理ユニットを有する。本発明システムは、自律的であることを特徴とし、さらにバイオリアクターの総容量が1000L以下であることを特徴とする。【選択図】図1 | ||||||
| 84 | Method of incubator apparatus, and it is operated | JP2013500387 | 2011-03-23 | JP2013523086A | 2013-06-17 | ラポポルト,ダニエル; クルゼ,シャルリ; ヴェント,デニス |
| 移動可能なインキュベータ設備は、少なくとも1つの細胞培養物を受け入れるよう配置された培養チャンバと、培養チャンバの温度を調節することができる加熱装置と、少なくとも1種のガスを培養チャンバ内へ導入することができるガス供給装置と、加熱装置および/またはガス供給装置に電気エネルギを供給するよう配置されたエネルギ貯蔵装置と、を含んでいる。
【選択図】図1 |
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| 85 | 細胞保存方法、及び細胞輸送方法 | JP2010534725 | 2009-10-23 | JPWO2010047133A1 | 2012-03-22 | 洋子 一丁田; 剛 田崎; 福田 始弘; 始弘 福田; 鶴田 仁志; 仁志 鶴田; 英樹 谷口 |
| 生細胞の機能を維持したい状態で生細胞を保存する細胞保存方法を提供する。細胞保存方法の一態様は、複数のマイクロ容器(11)を有する細胞培養容器(20)を用いて生細胞(40)を保存する方法であって、生細胞を複数のマイクロ空間の表面に接着させて培養し、培養後、複数のマイクロ容器(11)を覆うように、培地(50)を細胞培養容器(20)へ注入して保存する。適切な大きさの細胞培養容器に生細胞を接着させ、培養して、三次元構造体を形成させることにより、生細胞の三次元構造体を維持し、機能を維持した状態で生細胞を保存することが可能になる。 | ||||||
| 86 | Microscope for environmental chamber and environmental control means | JP2006527331 | 2004-09-20 | JP4694489B2 | 2011-06-08 | ピルシュ,マティアス; フンメル,シュテファン |
| 87 | Microscopic observation for incubator | JP2003080329 | 2003-03-24 | JP4562165B2 | 2010-10-13 | 秀治 土屋 |
| 88 | Simple portable incubator | JP2007307126 | 2007-11-28 | JP2009125062A | 2009-06-11 | NAKAMURA AKIFUMI; HANDA YOJI; CLARK GEORGE C; ANDREW CHU |
| PROBLEM TO BE SOLVED: To provide an incubator which is a simple portable incubator and having an incubating performance not inferior to conventionally available commercial incubators. SOLUTION: The incubator is characterized by comprising an opening/closing opening 12 for taking in and out a plate, etc., a highly airtight and generally rectangular shaped container body 10 provided with a gas blowing port 13, and container storing spaces 22a, 22b formed by a shock absorbing material 21b installed inside of the container body 10. Expiration of an operator can be blown-in from the gas blowing port 13 in feeding CO 2 gas. COPYRIGHT: (C)2009,JPO&INPIT | ||||||
| 89 | Dish | JP16485096 | 1996-06-25 | JP3642445B2 | 2005-04-27 | 文隆 百瀬 |
| 90 | Portable cassette to be used to maintain and culture the biological cells | JP50199497 | 1996-06-07 | JPH11507229A | 1999-06-29 | アームストロング,アール.ダグラス; マルータ,ジェームズ; ダブリュ. ローカー,デビッド |
| (57)【要約】 細胞を外部環境にさらすことなく、携帯用カセット内の生体外で生物細胞を受け入れ、維持および培養するための装置および方法が開示される。 携帯用カセットは、カセットに成長させる細胞を初めに接種し、細胞を細胞培養室内で所定のパターンで(例えば、均一に)分布させるプロセッサ装置と共に使用される。 その後、携帯用カセットは、細胞がもっともよく増殖するように、細胞培養室を恒温培養する培養基装置と共に使用される。 その後、該プロセッサ装置が携帯用カセットから増殖した細胞を採集するために使用される。 どちらの装置も、カセットの無菌システムを妨げることなく、細胞培養プロセスの諸段階を通じて携帯用カセットの条件を調節するよう構成されている。 さらに、カセットに関連するアップデート可能なメモリ装置が、細胞培養プロセスのさまざまな段階でカセットとその条件に関する重要な情報を記録する。 こうした情報は、後の記録目的と、何らかの装置の故障や重大な警報状態が生じた場合細胞培養プロセスの再開を促進する目的とのために有用である。 | ||||||
| 91 | Petri dish | JP16485096 | 1996-06-25 | JPH104951A | 1998-01-13 | MOMOSE FUMITAKA |
| PROBLEM TO BE SOLVED: To prevent a failure in gripping a lid unit and dropping the lid unit when aseptically performing operations to culture a bacterium or a cell by using a large-diameter Petri dish. SOLUTION: This Petri dish is obtained by providing four semicylindrical protrusions 3, 3, 3 and 3 on the outer peripheral surface of a peripheral wall part 15 of a lid unit 2 and is aseptically, safely and readily operable by touching fingers on the protrusions 3 and 3 and thereby preventing a failure in gripping the lid unit 2 when holding the lid unit 2 with the fingers in the Petri dish comprising the Petri dish body 1 and the lid unit 2. | ||||||
| 92 | JPS5018683A - | JP5723574 | 1974-05-20 | JPS5018683A | 1975-02-27 | |
| 93 | SYSTEM, APPARATUS AND METHOD FOR THE PRODUCTION OF CELLS AND/OR CELL PRODUCTS | EP16703326.5 | 2016-02-08 | EP3256565A1 | 2017-12-20 | CASTILLO, José |
| The present invention provides a system and a method for the production of cells and/or cell products. The system comprises at least one cell culture unit comprising at least one bioreactor for culturing cells, at least one technical control unit for controlling a cell growth parameters, said technical control unit is at least fluidly connected to the cell culture unit, and at least one air treatment unit for treating ambient air, said air treatment unit is fluidly connected to the cell culture unit. The system is characterized in that the system is autonomous and the bioreactor total volume is at most 1000 L. | ||||||
| 94 | CELL CULTURE CARRIER | EP12860052.5 | 2012-11-27 | EP2796537A1 | 2014-10-29 | YORI, Kouichirou |
A cell culture transferring instrument (10) includes a cylindrical body (12) held by an operator not shown in the drawing, a plunger (14) inserted through the interior of the cylindrical body (12), a plurality of support members (16) connected to a distal end (14a) of the plunger (14), and an adsorbent (20) capable of adsorbing a sheet-shaped cell culture (18) held by the support members (16). The support members (16) in contact with the distal end of the cylindrical body (12) are elastically deformed by displacing the plunger (14) toward the proximal end (14b) side with respect to the cylindrical body (12) in a state in which the sheet-shaped cell culture (18) is adsorbed to the adsorbent (20), whereby the adsorbent (20) and the sheet-shaped cell culture (18) are deformed and housed in a housing hole (22) in the cylindrical body (12). |
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| 95 | CELL STORAGE METHOD AND CELL TRANSPORT METHOD | EP09821833 | 2009-10-23 | EP2345714A4 | 2013-10-16 | ITCHODA YOKO; TAZAKI GO; FUKUDA MOTOHIRO; TSURUTA HITOSHI; TANIGUCHI HIDEKI |
| To provide a cell storage method to store living cells while maintaining the functions of the living cells. An aspect of the cell storage method is a method to store living cells (40) by using a cell culture chamber (20) including a plurality of the microchambers (11), the method including: culturing the living cells by being adhered to the surfaces of a plurality of micro spaces; and after the culturing, pouring the culture medium (50) into the cell culture chamber (20) so as to cover the plurality of microchambers (11), and storing the living cells. The living cells are adhered to a cell culture chamber of an appropriate size and cultured to form a three-dimensional structure. This enables maintaining the three-dimensional structure of the living cells and storage of the living cells while maintaining the functions thereof. | ||||||
| 96 | IMPROVED BIOARTIFICIAL KIDNEYS | EP10820925.5 | 2010-10-04 | EP2482867A1 | 2012-08-08 | YING, Jackie Y.; CHOW, Edwin Pei Yong; TEO, Jeremy C.M.; SCHUMACHER, Karl; LOH, Jeremy Ming Hock; QI, Rosa Yue; ONG, Qunya |
| The present invention generally relates to improved bioartificial kidneys (BAKs), and in certain embodiments to improved bioartificial kidneys that are portable and/or wearable by a user. In some embodiments, the BAKs may comprise an ultrafiltration unit and a reabsorption unit. The reabsorption unit may contain a reabsorption membrane having a layer of renal proximal tubule cells disposed thereon, where the renal proximal tubule cells selectively allow solutes to pass through the reabsorption membrane. In some embodiments, at least the reabsorption unit may be configured as a substantially flat-plate filtration device, which can impart advantageous properties such as improved maintenance of the renal proximal tubule cell layer, more facile monitoring of the renal proximal tubule cell layer as well as enhanced profile for wearability. | ||||||
| 97 | Fermentationsvorrichtung | EP07017652.4 | 2007-09-10 | EP1900805A1 | 2008-03-19 | Zerr, Walter; Corell, Jean |
Die Erfindung bezieht sich auf eine Fermentationsvorrichtung 1. Diese umfasst einen Behälter 10, in den Fermentationsmasse und Biomasse über mindestens eine Öffnung einbringbar ist. Sie weist ferner eine Rühreinrichtung zum Rühren von Fermentationsmasse und Biomasse sowie einen Deckel 2 auf. In diesen Deckel 2 ist ausschließlich die Rühreinrichtung und zwar in dessen Mitte eingebracht. Ferner sind der Behälter 10 und der Deckel 2 aus einem Kunststoff geformt.
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| 98 | SELF-CONTAINED INCUBATOR FOR GROWTH OF MICROORGANISM | EP96932350.0 | 1996-09-27 | EP0853658B1 | 2000-11-22 | NAQUI, Ali; WORKMAN, Erwin, F., Jr.; GU, Haoyi; PIERSON, Mark, W. |
| A container for growth of a microorganism is provided. The container includes a removable vessel cap that includes a barrier separating the sample from a material capable of disinfecting the sample, thereby preventing contact of the sample and the material for a desired time period. The vessel cap may be used independently in other applications. |
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| 99 | SELF-CONTAINED INCUBATOR FOR GROWTH OF MICROORGANISM | EP96932350.0 | 1996-09-27 | EP0853658A1 | 1998-07-22 | NAQUI, Ali; WORKMAN, Erwin, F., Jr.; GU, Haoyi; PIERSON, Mark, W. |
| A container for growth of a microorganism is provided. The container includes a removable vessel cap that includes a barrier separating the sample from a material capable of disinfecting the sample, thereby preventing contact of the sample and the material for a desired time period. The vessel cap may be used independently in other applications. |
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| 100 | APPARATUS AND METHOD FOR MAINTAINING AND GROWING BIOLOGICAL CELLS | EP96921439.0 | 1996-06-07 | EP0832182A1 | 1998-04-01 | ARMSTRONG, R., Douglas; MALUTA, James; ROECKER, David, W. |
| An apparatus and related method are disclosed, for receiving, maintaining and growing biological cells ex vivo within a portable cassette, without exposing the cells to the external environment. The portable cassette is used in combination with a processor instrument that facilitates an initial inoculation of the cassette with cells of the kind to be grown and to distribute those cells in a predeterminded pattern (e.g., uniformly) throughout a cell growth chamber. Thereafter, the portable cassette is used in combination with an incubator instrument that incubates the cell growth chamber so that the cells are optimally expanded. The same processor instrument then is used to harvest the expanded cells from the portable cassette. Both instruments are configured to condition the portable cassette during stages of the cell growth process, without disturbing the cassette's sterile system. In addition, an updatable memory device associated with the cassette stores significant information about the cassette and its condition during the various steps of the cell growth process. Such information is useful both for subsequent archival purposes and for facilitating a resumption of the cell growth process in the event of any instrument failure or significant alarm condition. | ||||||
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