Q3750942 (Q3750942): Difference between revisions
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(Changed an Item: Edited by the infer coords bot - inferring coordiantes from postal codes) |
(Created claim: summary (P836): The project aims to explore the commercial potential of smart cell breeding platforms for the design, production and functionality of smart cell breeding platforms, as well as the commercial potential of the value network of characterisation. The project focuses in particular on verifying the functionality of the real-time cell growth measurement method (invention) and on exploring the commercialisation potential of the measurement method. If th...) |
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The project aims to explore the commercial potential of smart cell breeding platforms for the design, production and functionality of smart cell breeding platforms, as well as the commercial potential of the value network of characterisation. The project focuses in particular on verifying the functionality of the real-time cell growth measurement method (invention) and on exploring the commercialisation potential of the measurement method. If the customer needs are simple, cell breeding platforms should operate in use and there will be an increasing need for culture media in the future. Without an appropriate measurement method, verification of structural flooding in casting and cell growth verification is too slow with existing measurement methods (microscopy, SEM description). Micro-optics-based optical measurement integrated directly into the culture medium is a quick and simple way to measure a product in the casting and growth process (machine vision systems). Stem cells used for rearing are expensive, i.e. a failed breeding experiment due to poor breeding medium represents a significant loss for the entire value network (material suppliers, producers of breeding media, breeders and final exploiters).The target customer group of the commercialisation project is: in vitro diagnostic manufacturers, manufacturers of medicated injection molding products, pharmaceutical industry drug development environments, pharmaceutical companies, environmental health product manufacturers and testing facilities (home and microbiological disadvantages), developers of personalised drug therapies (sound cell therapies and human spare parts). (English) | |||||||||||||||
| Property / summary: The project aims to explore the commercial potential of smart cell breeding platforms for the design, production and functionality of smart cell breeding platforms, as well as the commercial potential of the value network of characterisation. The project focuses in particular on verifying the functionality of the real-time cell growth measurement method (invention) and on exploring the commercialisation potential of the measurement method. If the customer needs are simple, cell breeding platforms should operate in use and there will be an increasing need for culture media in the future. Without an appropriate measurement method, verification of structural flooding in casting and cell growth verification is too slow with existing measurement methods (microscopy, SEM description). Micro-optics-based optical measurement integrated directly into the culture medium is a quick and simple way to measure a product in the casting and growth process (machine vision systems). Stem cells used for rearing are expensive, i.e. a failed breeding experiment due to poor breeding medium represents a significant loss for the entire value network (material suppliers, producers of breeding media, breeders and final exploiters).The target customer group of the commercialisation project is: in vitro diagnostic manufacturers, manufacturers of medicated injection molding products, pharmaceutical industry drug development environments, pharmaceutical companies, environmental health product manufacturers and testing facilities (home and microbiological disadvantages), developers of personalised drug therapies (sound cell therapies and human spare parts). (English) / rank | |||||||||||||||
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| Property / summary: The project aims to explore the commercial potential of smart cell breeding platforms for the design, production and functionality of smart cell breeding platforms, as well as the commercial potential of the value network of characterisation. The project focuses in particular on verifying the functionality of the real-time cell growth measurement method (invention) and on exploring the commercialisation potential of the measurement method. If the customer needs are simple, cell breeding platforms should operate in use and there will be an increasing need for culture media in the future. Without an appropriate measurement method, verification of structural flooding in casting and cell growth verification is too slow with existing measurement methods (microscopy, SEM description). Micro-optics-based optical measurement integrated directly into the culture medium is a quick and simple way to measure a product in the casting and growth process (machine vision systems). Stem cells used for rearing are expensive, i.e. a failed breeding experiment due to poor breeding medium represents a significant loss for the entire value network (material suppliers, producers of breeding media, breeders and final exploiters).The target customer group of the commercialisation project is: in vitro diagnostic manufacturers, manufacturers of medicated injection molding products, pharmaceutical industry drug development environments, pharmaceutical companies, environmental health product manufacturers and testing facilities (home and microbiological disadvantages), developers of personalised drug therapies (sound cell therapies and human spare parts). (English) / qualifier | |||||||||||||||
point in time: 22 November 2021
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Revision as of 22:57, 22 November 2021
Project Q3750942 in France
| Language | Label | Description | Also known as |
|---|---|---|---|
| English | No label defined |
Project Q3750942 in France |
Statements
176,102 Euro
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251,575.0 Euro
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70.0 percent
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1 August 2017
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31 December 2018
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Karelia Ammattikorkeakoulu Oy
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62°35'33.72"N, 29°47'20.08"E
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80200
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Älykkäät solunkasvatusalustat tutkimuksesta liiketoimintaan projekti tähtää älykkäiden solunkasvatusalustojen suunnittelun, tuotannon ja toiminnallisuuden sekä karakterisoinnin arvoverkoston kaupallisen potentiaalin selvittämiseen. Hankkeessa keskitytään erityisesti solukon reaaliaikaisen kasvun mittaamisen menetelmän (keksintö) toimivuuden todentamiseen ja mittausmenetelmän kaupallistamispotentiaaliin selvittämiseen.Kiteytettynä asiakastarve on yksinkertainen, solunkasvatusalustojen tulee toimia käytössä ja kasvatusalustoja tarvitaan jatkossa yhä enemmän. Ilman asianmukaista mittausmenetelmää rakenteiden täyttymisen valussa ja solukon kasvun todentaminen on liian hidasta nykyisillä mittausmenetelmillä (mikroskopia, SEM kuvaus). Suoraan kasvatusalustaan integroitu mikro-optiikkaan perustuva optinen mittaaminen on nopea ja yksinkertainen tapa mitata tuotetta valuprosessissa ja kasvuprosessissa (konenäköjärjestelmät). Kasvatuksessa käytettävät kantasolut ovat kalliita eli epäonnistunut kasvatuskoe huonon kasvatusalustan takia merkitsee merkittävää tappiota koko arvoverkostossa (materiaalitoimittajat, kasvatusalustojen valmistajat, kasvattajat ja lopulliset hyödyntäjät).Kaupallistamishankkeen tavoiteltuna asiakasryhmänä ovat: in vitro diagnostiikan valmistajat, medikaalisten ruiskuvalutuotteiden valmistajat, lääketeollisuuden lääkekehitysympäristöt, lääketeollisuusyritykset ympäristöterveystuotteiden valmistajat sekä testauslaitokset (home- ja mikrobiologiset haittatekijät), personoitujen lääkehoitomuotojen kehittäjät (kantasoluhoidot ja ihmisten varaosat). (Finnish)
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The project aims to explore the commercial potential of smart cell breeding platforms for the design, production and functionality of smart cell breeding platforms, as well as the commercial potential of the value network of characterisation. The project focuses in particular on verifying the functionality of the real-time cell growth measurement method (invention) and on exploring the commercialisation potential of the measurement method. If the customer needs are simple, cell breeding platforms should operate in use and there will be an increasing need for culture media in the future. Without an appropriate measurement method, verification of structural flooding in casting and cell growth verification is too slow with existing measurement methods (microscopy, SEM description). Micro-optics-based optical measurement integrated directly into the culture medium is a quick and simple way to measure a product in the casting and growth process (machine vision systems). Stem cells used for rearing are expensive, i.e. a failed breeding experiment due to poor breeding medium represents a significant loss for the entire value network (material suppliers, producers of breeding media, breeders and final exploiters).The target customer group of the commercialisation project is: in vitro diagnostic manufacturers, manufacturers of medicated injection molding products, pharmaceutical industry drug development environments, pharmaceutical companies, environmental health product manufacturers and testing facilities (home and microbiological disadvantages), developers of personalised drug therapies (sound cell therapies and human spare parts). (English)
22 November 2021
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