View allAll Photos Tagged biohack
Students of world's first BioHack Academy graduated and presented their work on Tuesday, April 21st, 2015.
In ten weeks, students from Waag Society's Biohack Academy built a fully functioning lab. They built everything, from homemade microscopes and centrifuges to handmade spectrometers and incubators—all with materials commonly found at home!
Students of world's first BioHack Academy graduated and presented their work on Tuesday, April 21st, 2015.
In ten weeks, students from Waag Society's Biohack Academy built a fully functioning lab. They built everything, from homemade microscopes and centrifuges to handmade spectrometers and incubators—all with materials commonly found at home!
"Inteligencia Artificial y el futuro de los humanos" moderado por Alfredo Marcos, Catedrático de Filosofía de la Ciencia.
Students of world's first BioHack Academy graduated and presented their work on Tuesday, April 21st, 2015.
In ten weeks, students from Waag Society's Biohack Academy built a fully functioning lab. They built everything, from homemade microscopes and centrifuges to handmade spectrometers and incubators—all with materials commonly found at home!
"Inteligencia Artificial y el futuro de los humanos" moderado por Alfredo Marcos, Catedrático de Filosofía de la Ciencia.
Students of world's first BioHack Academy graduated and presented their work on Tuesday, April 21st, 2015.
In ten weeks, students from Waag Society's Biohack Academy built a fully functioning lab. They built everything, from homemade microscopes and centrifuges to handmade spectrometers and incubators—all with materials commonly found at home!
"Inteligencia Artificial y el futuro de los humanos" moderado por Alfredo Marcos, Catedrático de Filosofía de la Ciencia.
(le français suit l’anglais)
Re-Purposed 46
Daniel Modulevsky and Andrew Pelling
Pelling Lab, University of Ottawa
ca. 2015
Artifact no. 2015.0072
Apples, human epithelial and fibroblast cells preserved in plastic Petri dishes in an acrylic-based epoxy.
In this physical 'biohack' and proof of concept experiment, the makers demonstrate the ability to create living biological composites without resorting to genetic engineering and the manipulation of DNA.
The use of additional photos courtesy of Daniel Modulevsky, Dr. Andrew Pelling, and the Pelling Lab, University of Ottawa.
To find out more:
Apple Derived Cellulose Scaffolds for 3D Mammalian Cell Culture
journals.plos.org/plosone/article?id=10.1371/journal.pone...
Modulevsky DJ, Lefebvre C, Haase K, Al-Rekabi Z, Pelling AE (2014) Apple Derived Cellulose Scaffolds for 3D Mammalian Cell Culture. PLoS ONE 9(5): e97835. doi:10.1371/journal.pone.0097835
Pelling Lab for Biophysical Manipulation
Canada Science and Technology Museums Corporation
www.technomuses.ca/our_corporation/index_e.asp
Photo: CSTMC/2015
_____________________________
«Re-Purposed 46»
Daniel Modulevsky et Andrew Pelling
Laboratoire Pelling, Université d'Ottawa
ca. 2015
No. d'artefact : 2015.0072
Des pommes, épithéliales humaines et des cellules de fibroblastes dans des contenants en plastique Petri conservées dans une résine époxy à base d'acrylique.
Un «biohack» physique et une preuve de concept, cette expérience démontre la capacité de créer des composites biologiques vivants sans avoir recours à l'ingénierie génétique et la manipulation de l'ADN.
L'utilisation de photos supplémentaires avec l'aimable autorisation de Daniel Modulevsky, docteur Andrew Pelling et le Laboratoire de Pelling, Université d'Ottawa.
Pour plus d'infos (en anglais seulement) :
Apple Derived Cellulose Scaffolds for 3D Mammalian Cell Culture
journals.plos.org/plosone/article?id=10.1371/journal.pone...
Modulevsky DJ, Lefebvre C, Haase K, Al-Rekabi Z, Pelling AE (2014) Apple Derived Cellulose Scaffolds for 3D Mammalian Cell Culture. PLoS ONE 9(5): e97835. doi:10.1371/journal.pone.0097835
Pelling Lab for Biophysical Manipulation
Société des musées de sciences et technologies du Canada
www.sciencetech.technomuses.ca/francais/index.cfm
Photo: SMSTC/2015
Students of world's first BioHack Academy graduated and presented their work on Tuesday, April 21st, 2015.
In ten weeks, students from Waag Society's Biohack Academy built a fully functioning lab. They built everything, from homemade microscopes and centrifuges to handmade spectrometers and incubators—all with materials commonly found at home!
Students of world's first BioHack Academy graduated and presented their work on Tuesday, April 21st, 2015.
In ten weeks, students from Waag Society's Biohack Academy built a fully functioning lab. They built everything, from homemade microscopes and centrifuges to handmade spectrometers and incubators—all with materials commonly found at home!
Students of world's first BioHack Academy graduated and presented their work on Tuesday, April 21st, 2015.
In ten weeks, students from Waag Society's Biohack Academy built a fully functioning lab. They built everything, from homemade microscopes and centrifuges to handmade spectrometers and incubators—all with materials commonly found at home!
Students of world's first BioHack Academy graduated and presented their work on Tuesday, April 21st, 2015.
In ten weeks, students from Waag Society's Biohack Academy built a fully functioning lab. They built everything, from homemade microscopes and centrifuges to handmade spectrometers and incubators—all with materials commonly found at home!
"Inteligencia Artificial y el futuro de los humanos" moderado por Alfredo Marcos, Catedrático de Filosofía de la Ciencia.
Students of world's first BioHack Academy graduated and presented their work on Tuesday, April 21st, 2015.
In ten weeks, students from Waag Society's Biohack Academy built a fully functioning lab. They built everything, from homemade microscopes and centrifuges to handmade spectrometers and incubators—all with materials commonly found at home!
Students of world's first BioHack Academy graduated and presented their work on Tuesday, April 21st, 2015.
In ten weeks, students from Waag Society's Biohack Academy built a fully functioning lab. They built everything, from homemade microscopes and centrifuges to handmade spectrometers and incubators—all with materials commonly found at home!
Students of world's first BioHack Academy graduated and presented their work on Tuesday, April 21st, 2015.
In ten weeks, students from Waag Society's Biohack Academy built a fully functioning lab. They built everything, from homemade microscopes and centrifuges to handmade spectrometers and incubators—all with materials commonly found at home!
Students of world's first BioHack Academy graduated and presented their work on Tuesday, April 21st, 2015.
In ten weeks, students from Waag Society's Biohack Academy built a fully functioning lab. They built everything, from homemade microscopes and centrifuges to handmade spectrometers and incubators—all with materials commonly found at home!
Students of world's first BioHack Academy graduated and presented their work on Tuesday, April 21st, 2015.
In ten weeks, students from Waag Society's Biohack Academy built a fully functioning lab. They built everything, from homemade microscopes and centrifuges to handmade spectrometers and incubators—all with materials commonly found at home!
"Inteligencia Artificial y el futuro de los humanos" moderado por Alfredo Marcos, Catedrático de Filosofía de la Ciencia.
Students of world's first BioHack Academy graduated and presented their work on Tuesday, April 21st, 2015.
In ten weeks, students from Waag Society's Biohack Academy built a fully functioning lab. They built everything, from homemade microscopes and centrifuges to handmade spectrometers and incubators—all with materials commonly found at home!
Students of world's first BioHack Academy graduated and presented their work on Tuesday, April 21st, 2015.
In ten weeks, students from Waag Society's Biohack Academy built a fully functioning lab. They built everything, from homemade microscopes and centrifuges to handmade spectrometers and incubators—all with materials commonly found at home!