• It's time to question bio-engineering - Paul Root Wolpe

    Bioethicist Paul Root Wolpe describes an astonishing series of recent bio-engineering experiments, from glowing dogs to mice that grow human ears. He asks: Isn't it time to set some ground rules? (Filmed at TEDxPeachtree.) Talk by Paul Root Wolpe.

    published: 15 Aug 2013
  • Julie Legault's Amino bio-engineering kit creates a bacterial Tamagotchi

    Canadian designer Julie Legault has developed a desktop biolab to make synthetic biology more accessible, allowing users to hack DNA at home and monitor the progress of their creations. Read the full story on Dezeen: http://www.dezeen.com/?p=790252 Subscribe to our YouTube channel for the latest architecture and design movies: http://bit.ly/1tcULvh

    published: 28 Oct 2015
  • Bio Inspired Engineering and Theo Jansen Mechanism

    In this video the topics of Bio Inspired Engineering and Theo Jansen Mechanism are explored. There is been leaps and bound development Bio Engineering. Most recently, aircraft based on birds and insects and sea vessels based on dolphins and jelly fish have been designed. Theo Jansen Mechanism has been extremely fascinating for Engineers. It can be said to be an evolution of the wheel. Theo Jansen's Mechanism can be used for a variety of applications, including a walking bike, a legged wheel chair and load transportation vehicle. Engineering of Iron Man Suit : https://youtu.be/aNLm0q7bM1Q

    published: 18 Jul 2017
  • What does a Biomedical Engineer do?

    A student interested in helping people and improving the lives of others through better health care and medicine has a lot of career options, and one such option is in the field of engineering! Biomedical engineering combines biology, medicine and engineering to advance human health. Biomedical engineering (BME) is the application of engineering principles and design concepts to medicine and biology for healthcare purposes (e.g. diagnostic or therapeutic). This field seeks to close the gap between engineering and medicine: It combines the design and problem solving skills of engineering with medical and biological sciences to advance health care treatment, including diagnosis, monitoring, and therapy. Biomedical engineering has only recently emerged as its own study, compared to many oth...

    published: 25 May 2014
  • Bio Nano Technology-New Frontiers in Molecular Engineering: Andreas Mershin at TEDxAthens

    http://www.tedxathens.com/ 1080p HD mode available. About speaker: Andreas Mershin is a Research Scientist at the MIT Center for Bits and Atoms. He leads the "Label Free" research group demolishing boundaries between physics, biology and materials science. From inexpensive photosynthetic solar panels to quantum effects in biomolecules, and from cytoskeletal memory encoding and machine olfaction to bioenergy harvesting, his research and the technologies it spawns are used by industry and government, exhibited at the Boston Museum of Science and Designer's Open Exhibition, awarded consumer product awards and regularly covered by global media including CNN, BBC, NYT, Discovery Channel, Wired, New Scientist, Nature and Science. Having won the TAMU Center for New Ventures Business Idea comp...

    published: 24 Jan 2013
  • Autonomous fish robots and bio-inspired engineering | Kristi Morgansen | TEDxRainier

    This talk was given at a local TEDx event, produced independently of the TED Conferences. See how engineers are learning from biological systems to solve problems beyond what our current technologies have been able to achieve. Mathematical models, based on studies of fish, is allowing designed engineered systems to prototype robotic fish that can operate in dynamic ocean conditions over months of continuous use. Kristi Morgansen collaborates across University of Washington departments and colleges on a daily basis. In fact, she chose to work at UW based on its strong interdisciplinary approach and potential. Dr. Morgansen has worked for the UW Department of Aeronautics and Astronautics since 2002, pursuing her research interests including nonlinear and coordinated control systems, bio- i...

    published: 05 Jan 2015
  • Difference Between Bioengineering and Biomedical Engineering

    Difference between bioengineering and biomedical engineering . , . . . . The difference between bioengineering and biomedical engineering is that bioengineering is a global term which encompasses the biomedical engineering and it is applied to all life sciences and medicine while biomedical engineering more focuses on medical and healthcare here are some more compilation of topics and latest discussions relates to this video, which we found thorough the internet. Hope this information will helpful to get idea in brief about this. There is a clear and distinct difference between the biomedical sciences and biomedical bioengineering. The biomedical sciences are concerned with the facts biomedical vs. Bioengineering. What is the difference between a biomedical engineer and a bioen...

    published: 25 Feb 2016
  • Engineers Vs Medical Students || Viral Baba

    Engineers Vs Medical Students || Viral Baba ( just for fun ) Like us on Facebook ►https://www.facebook.com/Viralbaba007/ Like, Subscribe and Comment :) Keep Watching, Keep Sharing :D lattest video :- https://youtu.be/S2Afvx6G4_w Disclaimer: DISCLAIMER: Please don't go out of your way to or hate on anyone I talk about in my videos, this channel is to entertain people, and I usually focus on joking about what the people are doing not the individual themselves, please don't go spreading hate it's all for laughs Copyright Disclaimer Under Section 107 of the Copyright Act 1976, allowance is made for "fair use" for purposes such as criticism, comment, news reporting, teaching, scholarship, and research. Fair use is a use permitted by copyright statute that might otherwise be infringing. ...

    published: 23 Jan 2017
  • Bioinspired Robotics: Smarter, Softer, Safer

    The Bioinspired Robotics platform at Harvard’s Wyss Institute for Biologically Inspired Engineering looks into Nature to obtain insights for the development of new robotic components that are smarter, softer, and safer than conventional industrial robots. By looking at natural intelligence, collective behavior, biomechanics, and material properties not found in manmade systems, scientists at the Wyss Institute and around the world are building new kinds of robots that can co-exist and coordinate with humans. In the future, researchers envision humans and robots will interact in ways we never previously imagined.

    published: 27 Aug 2015
  • Engineering a predatory bacterium as a proficient killer agent for intracellular bio-products

    Engineering a predatory bacterium as a proficient killer agent for intracellular bio-products recovery: The case of the polyhydroxyalkanoates. Virginia Martínez et al (2016), Scientific Reports http://dx.doi.org/10.1038/srep24381 This work examines the potential of the predatory bacterium Bdellovibrio bacteriovorus HD100, an obligate predator of other Gram-negative bacteria, as an external cell-lytic agent for recovering valuable intracellular bio-products produced by prey cultures. The bio-product targets to be recovered were polyhydroxyalkanoates (PHAs) produced naturally by Pseudomonas putida and Cupriavidus necator, or by recombinant Escherichia coli strains. B. bacteriovorus with a mutated PHA depolymerase gene to prevent the unwanted breakdown of the bio-product allowed the recovery...

    published: 18 Apr 2016
  • Ag & Bio Engineering: Meeting the needs of humankind, sustainably

    How do we provide the necessities of life, and more, for a growing population, without degrading our natural world? Agricultural and biological engineers are leading the way in innovative solutions.

    published: 28 Jul 2013
  • Dept. of Bio and Brain Engineering

    published: 10 Dec 2015
  • Biomedical Engineering: Is it Right for me? Is it a Good Major?

    Welcome to Episode 5 of my series on choosing an engineering discipline. The fourth discipline is: biomedical engineering! In this video I attempt to help students answer the questions: is biomedical engineering right for me and is biomedical engineering a good major? I start by exploring events where biomedical engineering may originate from and end with where I think biomedical engineering is going. My hopes are that this video will show potential students what biomedical engineering is all about, why it’s important, what the classes are like, and how it has developed and evolved. So.. who should study / pursue biomedical engineering? You, if you can appreciate how biomedical engineering started, are excited by the courses you’ll take in school, and hopeful about the future of biomedical...

    published: 27 Feb 2017
  • Bio Inspired Engineering

    published: 26 Jan 2016
  • Scientists Use 3D Printer and Living "Ink" to Create Body Parts

    Lawrence Bonassar, Ph.D., Associate Professor of Biomedical Engineering, describes a cutting-edge process he has developed in which he uses a 3D Printer and "ink" composed of living cells to create body parts such as ears.

    published: 26 Oct 2011
  • Dark Agenda ~ Bio Genetic Engineering with Nanotechnology

    Changing you from within and without your permission.

    published: 29 Nov 2015
It's time to question bio-engineering - Paul Root Wolpe

It's time to question bio-engineering - Paul Root Wolpe

  • Order:
  • Duration: 19:43
  • Updated: 15 Aug 2013
  • views: 61254
videos
Bioethicist Paul Root Wolpe describes an astonishing series of recent bio-engineering experiments, from glowing dogs to mice that grow human ears. He asks: Isn't it time to set some ground rules? (Filmed at TEDxPeachtree.) Talk by Paul Root Wolpe.
https://wn.com/It's_Time_To_Question_Bio_Engineering_Paul_Root_Wolpe
Julie Legault's Amino bio-engineering kit creates a bacterial Tamagotchi

Julie Legault's Amino bio-engineering kit creates a bacterial Tamagotchi

  • Order:
  • Duration: 2:45
  • Updated: 28 Oct 2015
  • views: 3243
videos
Canadian designer Julie Legault has developed a desktop biolab to make synthetic biology more accessible, allowing users to hack DNA at home and monitor the progress of their creations. Read the full story on Dezeen: http://www.dezeen.com/?p=790252 Subscribe to our YouTube channel for the latest architecture and design movies: http://bit.ly/1tcULvh
https://wn.com/Julie_Legault's_Amino_Bio_Engineering_Kit_Creates_A_Bacterial_Tamagotchi
Bio Inspired Engineering and Theo Jansen Mechanism

Bio Inspired Engineering and Theo Jansen Mechanism

  • Order:
  • Duration: 9:10
  • Updated: 18 Jul 2017
  • views: 142
videos
In this video the topics of Bio Inspired Engineering and Theo Jansen Mechanism are explored. There is been leaps and bound development Bio Engineering. Most recently, aircraft based on birds and insects and sea vessels based on dolphins and jelly fish have been designed. Theo Jansen Mechanism has been extremely fascinating for Engineers. It can be said to be an evolution of the wheel. Theo Jansen's Mechanism can be used for a variety of applications, including a walking bike, a legged wheel chair and load transportation vehicle. Engineering of Iron Man Suit : https://youtu.be/aNLm0q7bM1Q
https://wn.com/Bio_Inspired_Engineering_And_Theo_Jansen_Mechanism
What does a Biomedical Engineer do?

What does a Biomedical Engineer do?

  • Order:
  • Duration: 8:45
  • Updated: 25 May 2014
  • views: 97677
videos
A student interested in helping people and improving the lives of others through better health care and medicine has a lot of career options, and one such option is in the field of engineering! Biomedical engineering combines biology, medicine and engineering to advance human health. Biomedical engineering (BME) is the application of engineering principles and design concepts to medicine and biology for healthcare purposes (e.g. diagnostic or therapeutic). This field seeks to close the gap between engineering and medicine: It combines the design and problem solving skills of engineering with medical and biological sciences to advance health care treatment, including diagnosis, monitoring, and therapy. Biomedical engineering has only recently emerged as its own study, compared to many other engineering fields. Such an evolution is common as a new field transitions from being an interdisciplinary specialization among already-established fields, to being considered a field in itself. Much of the work in biomedical engineering consists of research and development, spanning a broad array of subfields (see below). Prominent biomedical engineering applications include the development of biocompatible prostheses, various diagnostic and therapeutic medical devices ranging from clinical equipment to micro-implants, common imaging equipment such as MRIs and EEGs, regenerative tissue growth, pharmaceutical drugs and therapeutic biologicals.
https://wn.com/What_Does_A_Biomedical_Engineer_Do
Bio Nano Technology-New Frontiers in Molecular Engineering: Andreas Mershin at TEDxAthens

Bio Nano Technology-New Frontiers in Molecular Engineering: Andreas Mershin at TEDxAthens

  • Order:
  • Duration: 18:49
  • Updated: 24 Jan 2013
  • views: 43825
videos
http://www.tedxathens.com/ 1080p HD mode available. About speaker: Andreas Mershin is a Research Scientist at the MIT Center for Bits and Atoms. He leads the "Label Free" research group demolishing boundaries between physics, biology and materials science. From inexpensive photosynthetic solar panels to quantum effects in biomolecules, and from cytoskeletal memory encoding and machine olfaction to bioenergy harvesting, his research and the technologies it spawns are used by industry and government, exhibited at the Boston Museum of Science and Designer's Open Exhibition, awarded consumer product awards and regularly covered by global media including CNN, BBC, NYT, Discovery Channel, Wired, New Scientist, Nature and Science. Having won the TAMU Center for New Ventures Business Idea competition and advised several MIT100K teams, he co-founded the HBN Big Idea Competition for early stage startups, and is chief consultant at Rebel Minds -specializing in rapid lab to market transition. He is the co-founder and Director of the international non-profit Molecular Frontiers Inquiry Prize (MFIP) a.k.a "Kid Nobel" open to anyone under 18 years old (www.moleclues.org) awarded annually at the Royal Swedish Academy of Sciences in Stockholm (home of the science Nobels). Winners are determined by a jury of eminent scientists including thirteen Nobel laureates. The MFIP is the world's first ever prize awarded for asking good questions. He earned his MSci in Physics at Imperial College London and received his MS and PhD in Physics from Texas A&M University. He is a Scuba divemaster, a private pilot and sometimes teaches the "hard" freshman physics class at MIT. About TEDx: In the spirit of ideas worth spreading, TEDx is a program of local, self-organized events that bring people together to share a TED-like experience. At a TEDx event, TEDTalks video and live speakers combine to spark deep discussion and connection in a small group. These local, self-organized events are branded TEDx, where x = independently organized TED event. The TED Conference provides general guidance for the TEDx program, but individual TEDx events are self-organized.* (*Subject to certain rules and regulations)
https://wn.com/Bio_Nano_Technology_New_Frontiers_In_Molecular_Engineering_Andreas_Mershin_At_Tedxathens
Autonomous fish robots and bio-inspired engineering | Kristi Morgansen | TEDxRainier

Autonomous fish robots and bio-inspired engineering | Kristi Morgansen | TEDxRainier

  • Order:
  • Duration: 10:46
  • Updated: 05 Jan 2015
  • views: 16769
videos
This talk was given at a local TEDx event, produced independently of the TED Conferences. See how engineers are learning from biological systems to solve problems beyond what our current technologies have been able to achieve. Mathematical models, based on studies of fish, is allowing designed engineered systems to prototype robotic fish that can operate in dynamic ocean conditions over months of continuous use. Kristi Morgansen collaborates across University of Washington departments and colleges on a daily basis. In fact, she chose to work at UW based on its strong interdisciplinary approach and potential. Dr. Morgansen has worked for the UW Department of Aeronautics and Astronautics since 2002, pursuing her research interests including nonlinear and coordinated control systems, bio- inspired sensing and actuation, fin-based propulsive methods, control of coordinated systems with communication constraints, vision-based sensing for state estimation, and the development of integrated human and autonomous multivehicle systems. She an MS in Mechanical Engineering from Boston University, an S.M. in Applied Mathematics and a PhD in Engineering Sciences in 1999 from Harvard. About TEDx, x = independently organized event In the spirit of ideas worth spreading, TEDx is a program of local, self-organized events that bring people together to share a TED-like experience. At a TEDx event, TEDTalks video and live speakers combine to spark deep discussion and connection in a small group. These local, self-organized events are branded TEDx, where x = independently organized TED event. The TED Conference provides general guidance for the TEDx program, but individual TEDx events are self-organized.* (*Subject to certain rules and regulations)
https://wn.com/Autonomous_Fish_Robots_And_Bio_Inspired_Engineering_|_Kristi_Morgansen_|_Tedxrainier
Difference Between Bioengineering and Biomedical Engineering

Difference Between Bioengineering and Biomedical Engineering

  • Order:
  • Duration: 2:17
  • Updated: 25 Feb 2016
  • views: 12040
videos
Difference between bioengineering and biomedical engineering . , . . . . The difference between bioengineering and biomedical engineering is that bioengineering is a global term which encompasses the biomedical engineering and it is applied to all life sciences and medicine while biomedical engineering more focuses on medical and healthcare here are some more compilation of topics and latest discussions relates to this video, which we found thorough the internet. Hope this information will helpful to get idea in brief about this. There is a clear and distinct difference between the biomedical sciences and biomedical bioengineering. The biomedical sciences are concerned with the facts biomedical vs. Bioengineering. What is the difference between a biomedical engineer and a bioengineer? are they interchangeable? because below information will help you to get some more though about the subject what is the difference between biomedical engineering and biological engineering?. What is the difference between bioengineering and biomedical engineering? for the most part, are they the same?. Bioengineering vs biomedical engineering. Both bioengineering and biomedical engineering fields are very important in today's world anyway if you want for more info, you would better continue reading. Biomedical engineering focuses on human health and understanding how the human body works both as a whole and on a molecular level for prevention and ok so i am a senior in high school and i have always been interested in biology and i recently became very interested in engineering. So, i am biomedical engineers work in areas ranging from medical imaging to the design of in working at the interface between engineering and biomedical sciences even though bioengineering and biomedical engineering sounds similar, both are entirely different streams of study. Bioengineering deals with the integration what is the differences between biotechnology,biomedical science and biomedical engineering ? it have a technical distinction between it and other terms like bioengineering but i've never heard a good definition have started college! i was interested in going into biomedical engineering, but it. How drastic are the differences between the two? are the the short answer is that biomedical engineers take and use more math! there is to healthcare. The chart below will help explain some of the differences the differentiation between biological engineering and biomedical engineering can be unclear, as many universities loosely use the terms 'bioengineering' and with so many special fields becoming important, many students ask me the question what is the difference between biomedical engineering and biotechnology, colleges will call the major either biomedical engineering or bioengineering. Difference between computational biology major and biomedical eng major?. Biomechanical engineering, also called bioengineering, is the engineering discipline that is usually recognized as a subset of biomedical engineering. This is . In the academic world there are biomedical engineers and bioengineers graduating from the engineering curricula and biomedical electronic though both terms sound alike, there are some subtle differences between the two of biological systems bioengineering, biophysics, biomedical engineering, Most Discuss Difference between bioengineering and biomedical engineering. More interesting heading about this are what is the difference between biomedic
https://wn.com/Difference_Between_Bioengineering_And_Biomedical_Engineering
Engineers Vs Medical Students || Viral Baba

Engineers Vs Medical Students || Viral Baba

  • Order:
  • Duration: 8:57
  • Updated: 23 Jan 2017
  • views: 2674492
videos
Engineers Vs Medical Students || Viral Baba ( just for fun ) Like us on Facebook ►https://www.facebook.com/Viralbaba007/ Like, Subscribe and Comment :) Keep Watching, Keep Sharing :D lattest video :- https://youtu.be/S2Afvx6G4_w Disclaimer: DISCLAIMER: Please don't go out of your way to or hate on anyone I talk about in my videos, this channel is to entertain people, and I usually focus on joking about what the people are doing not the individual themselves, please don't go spreading hate it's all for laughs Copyright Disclaimer Under Section 107 of the Copyright Act 1976, allowance is made for "fair use" for purposes such as criticism, comment, news reporting, teaching, scholarship, and research. Fair use is a use permitted by copyright statute that might otherwise be infringing. Non-profit, educational or personal use tips the balance for fair use.
https://wn.com/Engineers_Vs_Medical_Students_||_Viral_Baba
Bioinspired Robotics: Smarter, Softer, Safer

Bioinspired Robotics: Smarter, Softer, Safer

  • Order:
  • Duration: 6:24
  • Updated: 27 Aug 2015
  • views: 16641
videos
The Bioinspired Robotics platform at Harvard’s Wyss Institute for Biologically Inspired Engineering looks into Nature to obtain insights for the development of new robotic components that are smarter, softer, and safer than conventional industrial robots. By looking at natural intelligence, collective behavior, biomechanics, and material properties not found in manmade systems, scientists at the Wyss Institute and around the world are building new kinds of robots that can co-exist and coordinate with humans. In the future, researchers envision humans and robots will interact in ways we never previously imagined.
https://wn.com/Bioinspired_Robotics_Smarter,_Softer,_Safer
Engineering a predatory bacterium as a proficient killer agent for intracellular bio-products

Engineering a predatory bacterium as a proficient killer agent for intracellular bio-products

  • Order:
  • Duration: 0:30
  • Updated: 18 Apr 2016
  • views: 352
videos
Engineering a predatory bacterium as a proficient killer agent for intracellular bio-products recovery: The case of the polyhydroxyalkanoates. Virginia Martínez et al (2016), Scientific Reports http://dx.doi.org/10.1038/srep24381 This work examines the potential of the predatory bacterium Bdellovibrio bacteriovorus HD100, an obligate predator of other Gram-negative bacteria, as an external cell-lytic agent for recovering valuable intracellular bio-products produced by prey cultures. The bio-product targets to be recovered were polyhydroxyalkanoates (PHAs) produced naturally by Pseudomonas putida and Cupriavidus necator, or by recombinant Escherichia coli strains. B. bacteriovorus with a mutated PHA depolymerase gene to prevent the unwanted breakdown of the bio-product allowed the recovery of up to 80% of that accumulated by the prey bacteria, even at high biomass concentrations. This innovative downstream process highlights how B. bacteriovorus can be used as a novel, biological lytic agent for the inexpensive, industrial scale recovery of intracellular products from different Gram-negative prey cultures.
https://wn.com/Engineering_A_Predatory_Bacterium_As_A_Proficient_Killer_Agent_For_Intracellular_Bio_Products
Ag & Bio Engineering: Meeting the needs of humankind, sustainably

Ag & Bio Engineering: Meeting the needs of humankind, sustainably

  • Order:
  • Duration: 2:51
  • Updated: 28 Jul 2013
  • views: 7785
videos
How do we provide the necessities of life, and more, for a growing population, without degrading our natural world? Agricultural and biological engineers are leading the way in innovative solutions.
https://wn.com/Ag_Bio_Engineering_Meeting_The_Needs_Of_Humankind,_Sustainably
Dept. of Bio and Brain Engineering

Dept. of Bio and Brain Engineering

  • Order:
  • Duration: 4:11
  • Updated: 10 Dec 2015
  • views: 658
videos
https://wn.com/Dept._Of_Bio_And_Brain_Engineering
Biomedical Engineering: Is it Right for me? Is it a Good Major?

Biomedical Engineering: Is it Right for me? Is it a Good Major?

  • Order:
  • Duration: 9:07
  • Updated: 27 Feb 2017
  • views: 32225
videos
Welcome to Episode 5 of my series on choosing an engineering discipline. The fourth discipline is: biomedical engineering! In this video I attempt to help students answer the questions: is biomedical engineering right for me and is biomedical engineering a good major? I start by exploring events where biomedical engineering may originate from and end with where I think biomedical engineering is going. My hopes are that this video will show potential students what biomedical engineering is all about, why it’s important, what the classes are like, and how it has developed and evolved. So.. who should study / pursue biomedical engineering? You, if you can appreciate how biomedical engineering started, are excited by the courses you’ll take in school, and hopeful about the future of biomedical engineering. Accompanying Article: http://bit.ly/2loKptq ✦✧✦✧✦✧✦✧✦ →Want to Support the Channel? Patreon: http://patreon.com/freedominthought ✦✧✦✧✦✧✦✧✦ →Social Media Instagram: https://www.instagram.com/justintht Twitter: http://twitter.com/justintht Facebook: https://facebook.com/freedomintht Blog: http://freedominthought.com ✦✧✦✧✦✧✦✧✦ →STUDIES & LINKS [1] Bioinformatics: http://bit.ly/2lVS2e2 [2] Mechanical Engineering Video: http://bit.ly/2lVHhbm [3] Bionic Arm: http://bit.ly/2bwAZa6 ✦✧✦✧✦✧✦✧✦ →Credits Music by Jack Tung YouTube: http://bit.ly/2lAbTQl Twitter: http://bit.ly/2lagjwg Instagram: http://bit.ly/2lFA9ws Facebook: http://bit.ly/2lFA5wI Soundcloud: http://bit.ly/2l5VUsB
https://wn.com/Biomedical_Engineering_Is_It_Right_For_Me_Is_It_A_Good_Major
Bio Inspired Engineering

Bio Inspired Engineering

  • Order:
  • Duration: 0:22
  • Updated: 26 Jan 2016
  • views: 1
videos
https://wn.com/Bio_Inspired_Engineering
Scientists Use 3D Printer and Living "Ink" to Create Body Parts

Scientists Use 3D Printer and Living "Ink" to Create Body Parts

  • Order:
  • Duration: 1:52
  • Updated: 26 Oct 2011
  • views: 107041
videos
Lawrence Bonassar, Ph.D., Associate Professor of Biomedical Engineering, describes a cutting-edge process he has developed in which he uses a 3D Printer and "ink" composed of living cells to create body parts such as ears.
https://wn.com/Scientists_Use_3D_Printer_And_Living_Ink_To_Create_Body_Parts
Dark Agenda ~ Bio Genetic Engineering with Nanotechnology

Dark Agenda ~ Bio Genetic Engineering with Nanotechnology

  • Order:
  • Duration: 55:01
  • Updated: 29 Nov 2015
  • views: 186
videos
Changing you from within and without your permission.
https://wn.com/Dark_Agenda_~_Bio_Genetic_Engineering_With_Nanotechnology
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