Bioengineers in Prashant Mali's lab have developed a 3D bioprinting technique that works with natural materials and is easy to use, allowing researchers of varying levels of technical expertise to create lifelike tissues, such as blood vessels and a vascularized gut. The goal is to make human organ models that can be studied outside the body or used to test new drugs ex vivo.

Full story: jacobsschool.ucsd.edu/news/news_releases/release.sfe?id=2673

Photo credit: David Baillot/UC San Diego Jacobs School of Engineering

Cellular Bioengineering Inc. hosted September's Bytemarks lunch. They let us into their lab to see their secret sauce.

Cellular Bioengineering Inc. hosted September's Bytemarks lunch. They let us into their lab to see their secret sauce.

photo attribution: sean dreilinger durak.org

Todd P. Coleman

Neural Interaction Lab

coleman.ucsd.edu/

Todd P. Coleman is an Associate Professor in the Department of Bioengineering at UCSD. His graduate training at MIT was in electrical engineering, while his postdoctoral training at MIT was in neuroscience. Dr. Coleman directs the Neural Interaction Laboratory at UCSD, where his research group builds flexible ?tattoo electronics? for neurological monitoring and brain-computer interfaces applications. Dr. Coleman is a science advisor for the Science & Entertainment Exchange (National Academy of Sciences). His research has been featured in CNN, the New York Times, and Popular Science.

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view Todd Coleman - Where Will the Chips of Tomorrow Take Us? - TEDxS on a black background.

Dr. George Pantalos, bioengineering and cardiovascular and thoracic surgery professor with the UofL Cardiovascular Innovation Institute, in September took four UofL students to Houston where they conducted more tests in zero-gravity on the astrosurgery device he is developing with researchers at Carnegie Melon. This was the third time since 2012 that Dr. Pantalos and his research team tested the device in zero-G. The device is the Aqueous Immersion Surgical System – a water- and airtight-device that isolates surgical incisions and controls bleeding in a zero-gravity environment. The device seeks to control the escape of blood and bodily fluids in this environment, currently impossible to do. The ultimate goal is to develop a system that long-range space flights (such as to Mars) could use if surgery is needed onboard the spacecraft. However, applications on Earth for the device would be when sterile conditions are hard to come by, such as in war zones or areas where medical facilities are not present.

They used commercially available software to process CT scans of the patients’ pelvis and create a computerized model of bone and growth plate for 3D printing. The models allowed surgeons to practice and visualize the surgery before they operated in the real world.

They used commercially available software to process CT scans of the patients’ pelvis and create a computerized model of bone and growth plate for 3D printing. The models allowed surgeons to practice and visualize the surgery before they operated in the real world.

photo attribution: sean dreilinger durak.org

Todd P. Coleman

Neural Interaction Lab

coleman.ucsd.edu/

Todd P. Coleman is an Associate Professor in the Department of Bioengineering at UCSD. His graduate training at MIT was in electrical engineering, while his postdoctoral training at MIT was in neuroscience. Dr. Coleman directs the Neural Interaction Laboratory at UCSD, where his research group builds flexible ?tattoo electronics? for neurological monitoring and brain-computer interfaces applications. Dr. Coleman is a science advisor for the Science & Entertainment Exchange (National Academy of Sciences). His research has been featured in CNN, the New York Times, and Popular Science.

Dr. George Pantalos, bioengineering and cardiovascular and thoracic surgery professor with the UofL Cardiovascular Innovation Institute, in September took four UofL students to Houston where they conducted more tests in zero-gravity on the astrosurgery device he is developing with researchers at Carnegie Melon. This was the third time since 2012 that Dr. Pantalos and his research team tested the device in zero-G. The device is the Aqueous Immersion Surgical System – a water- and airtight-device that isolates surgical incisions and controls bleeding in a zero-gravity environment. The device seeks to control the escape of blood and bodily fluids in this environment, currently impossible to do. The ultimate goal is to develop a system that long-range space flights (such as to Mars) could use if surgery is needed onboard the spacecraft. However, applications on Earth for the device would be when sterile conditions are hard to come by, such as in war zones or areas where medical facilities are not present.

photo attribution: sean dreilinger durak.org

Todd P. Coleman

Neural Interaction Lab

coleman.ucsd.edu/

Todd P. Coleman is an Associate Professor in the Department of Bioengineering at UCSD. His graduate training at MIT was in electrical engineering, while his postdoctoral training at MIT was in neuroscience. Dr. Coleman directs the Neural Interaction Laboratory at UCSD, where his research group builds flexible ?tattoo electronics? for neurological monitoring and brain-computer interfaces applications. Dr. Coleman is a science advisor for the Science & Entertainment Exchange (National Academy of Sciences). His research has been featured in CNN, the New York Times, and Popular Science.

Jeanne Judd, chief of the Technical Support Group from Baltimore District’s Real Property Services Field Office, talks about various aspects of military construction with a group of middle school students at the Easy as Pi student outreach program hosted by the Baltimore Chapter of the Society of Military Engineers in downtown Baltimore Wednesday, March 30. Judd represented the U.S. Army Corps of Engineers, which was one of several agencies and contractors with work in Science, Technology, Engineering and Math (STEM) that participated in the event geared toward exposing students to the variety of STEM careers that exist. (U.S. Army Corps of Engineers photo by Alfredo Barraza)

Photos by Douglas Clark.

Dr. George Pantalos, bioengineering and cardiovascular and thoracic surgery professor with the UofL Cardiovascular Innovation Institute, in September took four UofL students to Houston where they conducted more tests in zero-gravity on the astrosurgery device he is developing with researchers at Carnegie Melon. This was the third time since 2012 that Dr. Pantalos and his research team tested the device in zero-G. The device is the Aqueous Immersion Surgical System – a water- and airtight-device that isolates surgical incisions and controls bleeding in a zero-gravity environment. The device seeks to control the escape of blood and bodily fluids in this environment, currently impossible to do. The ultimate goal is to develop a system that long-range space flights (such as to Mars) could use if surgery is needed onboard the spacecraft. However, applications on Earth for the device would be when sterile conditions are hard to come by, such as in war zones or areas where medical facilities are not present.

youtu.be/FF5czAvAwbgBe the first to watch, comment, and share trailers and movie teasers/clips dropping soon. Red band trailer for Gringo, starring David Oyelowo, Charlize Theron and Joel Edgerton. Mild-mannered pharmaceutical company executive Harold Soyinka (David Oyelowo) takes a business trip from Chicago to Mexico with his cutthroat bosses Richard (Joel Edgerton) and Elaine (Charlize Theron). At the company's Mexican lab, Richard orders manager Sanchez (Hernan Mendoza) to stop selling the bioengineered marijuana product Cannabax to a brutal, Beatles-loving cartel kingpin known as The Black Panther. Meanwhile, straight-arrow Harold learns he’ll be out of a job as soon as Richard and Elaine sell their newly cleaned-up company to a conglomerate. And when he turns to his wife Bonnie (Thandie Newton) back home for comfort, she confesses via Skype that she's having an affair. Targeted by the ruthless Black Panther, who hopes to gain access to the Cannabax formula, Harold disappears before his bosses return to Chicago. A few hours later they receive a call informing them he's been kidnapped, and his captors are demanding a $5 million ransom. Rather than pay, Richard dispatches his mercenary-turned-humanitarian brother Mitch (Sharlto Copley) to extract Harold. But even with some temporary assistance from warmhearted American tourist Sunny (Amanda Seyfried) and her drug-mule boyfriend Miles (Harry Treadaway), Harold's prospects for survival grow dimmer by the minute. Pursued by an army of attackers, Harold crosses the line from mild-mannered citizen to wanted criminal. But is he out of his depth? Or two steps ahead? An action-comedy roller-coaster ride brimming with black humor, white-knuckle car chases and double-dealing, Gringo takes the concept of adventure travel to a whole new level. Gringo represents the second time that Charlize Theron and Amanda Seyfried shared the silver screen together. The first time? In Seth MacFarlane's A Million Ways to Die in the West. With a cast as strong as this, it is mindblowing that the red band trailer for Gringo is the first we've heard of this film. When it comes to the premise, the verdict is still out. But, holy crap do we love the look Sharlto Copley as a mercinary-type character. Thanks for watching! Please like, comment and subscribe! Help Me Reach 100.000 Subscribers goo.gl/QFCV4u ► Follow us on TWITTER twitter.com/MoviesTendo ► We’re on Flirck ift.tt/2hFnOvU ➤ Pinterest ift.tt/2jz3Iny ➤ Tumblr ift.tt/2hI8Cyn ➤ Google Plus ift.tt/2jzqeg8 No Copyright Infringement Intended ! All rights reserved to : © Amazon Studios If my video contains your copyright, please send mail to me (moviestendo@gmail.com). Thank you #trailer #latest trailers #teaser #video

Salvatore Morgera, Professor of Electrical Engineering and Bioengineering at the University of South Florida, Florida, USA

PNNL operates the Aquatic Research Laboratory (ARL) that supports a variety of research on fish and other aquatic life, covering topics as diverse as toxicology, bioengineering, and biosensor development. Housed in PNNL’s Life Sciences Laboratory in Richland, Washington, the laboratory is operated for the U.S. Department of Energy.

Terms of Use: Our images are freely and publicly available for use with the credit line, "Andrea Starr | Pacific Northwest National Laboratory"; Please use provided caption information for use in appropriate context.

Women in Bioengineering Networking Night 2022

A student demonstrates his team's project, "A Device for Hands-Free Home Urine Testing," sponsored by Joeseph Gyekis. The team designed a device that could be installed in patients' homes that could collect a urine sample while allowing the toilet to function as normal. The team included Alex Ortega (ME), Srdan Kalaba (BioE), Chris Ignozzi (ME) and Michael Malizia (ME).

Bioengineering construction of wattle fences and live poles

Northern Lights College working with TRAN to test their skills at natural reclamation work to prevent slide activity.

www.tranbc.ca

photo attribution: sean dreilinger durak.org

Todd P. Coleman

Neural Interaction Lab

coleman.ucsd.edu/

Todd P. Coleman is an Associate Professor in the Department of Bioengineering at UCSD. His graduate training at MIT was in electrical engineering, while his postdoctoral training at MIT was in neuroscience. Dr. Coleman directs the Neural Interaction Laboratory at UCSD, where his research group builds flexible ?tattoo electronics? for neurological monitoring and brain-computer interfaces applications. Dr. Coleman is a science advisor for the Science & Entertainment Exchange (National Academy of Sciences). His research has been featured in CNN, the New York Times, and Popular Science.

follow me! FB / twitter / G+

view Todd Coleman - Where Will the Chips of Tomorrow Take Us? - TEDxS on a black background.

Núria Montserrat, Catalan Institution for Research and Advanced Studies.(ICREA) Research Professor, Institute for Bioengineering of Catalonia, Spain speaking during the Session: Tackling Cancer from Within – New Perspectives at the World Economic Forum - Annual Meeting of the New Champions in Dalian, People's Republic of China 2019. Copyright by World Economic Forum / Benedikt von Loebell

Núria Montserrat, Catalan Institution for Research and Advanced Studies.(ICREA) Research Professor, Institute for Bioengineering of Catalonia, Spain speaking during the Session: Tackling Cancer from Within – New Perspectives at the World Economic Forum - Annual Meeting of the New Champions in Dalian, People's Republic of China 2019. Copyright by World Economic Forum / Benedikt von Loebell

INSTITUTE (JBEI), LAWRENCE BERKELEY NATIONAL LABORATORY IN EMERYVILE, CA.

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(202) 586-5251

EnergyTechnologyVisualsCollectionETVC@hq.doe.gov

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Ben Almquist, Lecturer, Department of Bioengineering, Imperial College London, United Kingdom during the Session on “Unpacking New Medical Paradigms with Imperial College London”. At the World Economic Forum - Annual Meeting of the New Champions in Dalian, People's Republic of China 2017. Copyright by World Economic Forum / Faruk Pinjo

PNNL operates the Aquatic Research Laboratory (ARL) that supports a variety of research on fish and other aquatic life, covering topics as diverse as toxicology, bioengineering, and biosensor development. Housed in PNNL’s Life Sciences Laboratory in Richland, Washington, the laboratory is operated for the U.S. Department of Energy.

Terms of Use: Our images are freely and publicly available for use with the credit line, "Andrea Starr | Pacific Northwest National Laboratory"; Please use provided caption information for use in appropriate context.

Bishan–Ang Mo Kio Park, Singapore

Ramboll Studio Dreiseitl, 2012

Bioengineers in Prashant Mali's lab have developed a 3D bioprinting technique that works with natural materials and is easy to use, allowing researchers of varying levels of technical expertise to create lifelike tissues, such as blood vessels and a vascularized gut. The goal is to make human organ models that can be studied outside the body or used to test new drugs ex vivo.

Full story: jacobsschool.ucsd.edu/news/news_releases/release.sfe?id=2673

Photo credit: David Baillot/UC San Diego Jacobs School of Engineering

A tiny tattoo-like electronic device could someday provide wireless pregnancy monitoring of maternal and fetal vital signs, giving expectant mother's more mobility and improving access to prenatal care in remote areas. Noting that mobile phone usage is often high even in areas with limited health care, Professor Todd Coleman said the device could transmit bodily signals to a mobile phone, securely connecting the patient to a doctor thousands of miles away. Photo courtesy of Bioengineering Professor Todd Coleman, UC San Diego Jacobs Shool of Engineering.

Photos by Owen Egan

This photo was captured on the date of October 6th 2022 in the city of Lisle IL. The photo was taken in between the buildings of Brick and Kindlon, on the main campus of Benedictine University. This photo is presenting a fairly common site in nature, especially in days of much precipitation, such as when this photo was taken. This image shows a species of Earthworms in the Lumbricus genus and more broadly known to be in the family Lumbricide. Many people however, might know it by its more common name, which is Earthworms. Due to the fact that there are many species of Earthworms, it was very difficult to pinpoint a species. As a result, this earthworm will be referred to as the Lumbricus species (spp.). Something that is not known about the Lumbricus species is that these earthworms are not native to the United States, but rather came due to human introduction from Western Europe in the 17th century and have since become naturalized to soil, making them an invasive species. It also should be known that these earthworms managed to adapt so well to the soil, that it managed to out-compete the native earthworms. Therefore, affecting the niche of an ecosystem and in essence, this is the reason why they are known to be very effective bioengineers of an ecosystem. Besides outcompeting with the native earthworms, the Lumbricus species demonstrates intraspecific competition. The Lumbricus species are also known to be consumers of detritus (which is simply dead organic matter) and thereby produce soils, which tend to be rich in nitrogen, making them good fertilizers. Hence this is why many gardeners and farmers recommend that instead of throwing away your food as trash, you can put in the soil for the worms to decompose it. However, it is precisely this reason that these earthworms are known to be effective bioengineers as they can influence which primary producers (most often plants) come into the ecosystem. Due to the impact of vegetation in the area, they can impact interspecific competition by being prey to many surrounding predators in the surrounding vegetation.

Just thought I'd do a little arty piece to mark the inauguration and the new optimism this is going to bring to biology. During his speech, he vowed to "restore science to its rightful place". Lets hope he does.

Workshop by Nathan Thompson (AU), Guy Ben-Ary (AU), Yoko Shimizu (JP)

In-Vitro Intelligence (IVI) suggests an intelligent, bioengineered system harbouring living neural networks that function as brains outside of the body. The workshop hosts believe it is inevitable that IVI driven entities will grow more sophisticated and find widespread use in, for instance, their IVI driven “Surrogate Performers”. On Sept. 8, Futurelab Day, the workshop touched upon the challenges: What does it mean to bioengineer IVI Surrogate Performers? And what are the practical, cultural and ethical implications?

Photo showing: Yoko Shimizu

(JP/AT), Guy Ben-Ary (AU)

Photo: Ars Electronica Futurelab / Birgit Cakir

Núria Montserrat, Catalan Institution for Research and Advanced Studies.(ICREA) Research Professor, Institute for Bioengineering of Catalonia, Spain speaking during the Session: Tackling Cancer from Within – New Perspectives at the World Economic Forum - Annual Meeting of the New Champions in Dalian, People's Republic of China 2019. Copyright by World Economic Forum / Benedikt von Loebell

Dr. George Pantalos, bioengineering and cardiovascular and thoracic surgery professor with the UofL Cardiovascular Innovation Institute, in September took four UofL students to Houston where they conducted more tests in zero-gravity on the astrosurgery device he is developing with researchers at Carnegie Melon. This was the third time since 2012 that Dr. Pantalos and his research team tested the device in zero-G. The device is the Aqueous Immersion Surgical System – a water- and airtight-device that isolates surgical incisions and controls bleeding in a zero-gravity environment. The device seeks to control the escape of blood and bodily fluids in this environment, currently impossible to do. The ultimate goal is to develop a system that long-range space flights (such as to Mars) could use if surgery is needed onboard the spacecraft. However, applications on Earth for the device would be when sterile conditions are hard to come by, such as in war zones or areas where medical facilities are not present.

photo attribution: sean dreilinger durak.org

Todd P. Coleman

Neural Interaction Lab

coleman.ucsd.edu/

Todd P. Coleman is an Associate Professor in the Department of Bioengineering at UCSD. His graduate training at MIT was in electrical engineering, while his postdoctoral training at MIT was in neuroscience. Dr. Coleman directs the Neural Interaction Laboratory at UCSD, where his research group builds flexible ?tattoo electronics? for neurological monitoring and brain-computer interfaces applications. Dr. Coleman is a science advisor for the Science & Entertainment Exchange (National Academy of Sciences). His research has been featured in CNN, the New York Times, and Popular Science.

follow me! FB / twitter / G+

view Todd Coleman - Where Will the Chips of Tomorrow Take Us? - TEDxS on a black background.

Entry in category 1. Object of study; © CC-BY-NC-ND: Rosie Sims

The little black specks in this image are bioengineered Aedes aegypti mosquito eggs. They are being harvested in an insectary in Medellín, Colombia, as part of a global health intervention against dengue, Zika, and chikungunya. The eggs are needed to grow the colony of bioengineered mosquitos that are then released across the city of Medellín. This image is a reminder of our more-than-human companions in science, and that the production of life also entails waste, as embodied by the floating corpses of adult mosquitos. As an anthropologist, getting to intimately know these insects is like discovering a different world, whose minuscule dimensions force us to pay attention to our surroundings in more beautiful detail. Photograph taken with a mobile phone.

A student demonstrates his team's project, "A Device for Hands-Free Home Urine Testing," sponsored by Joeseph Gyekis. The team designed a device that could be installed in patients' homes that could collect a urine sample while allowing the toilet to function as normal. The team included Alex Ortega (ME), Srdan Kalaba (BioE), Chris Ignozzi (ME) and Michael Malizia (ME).

Núria Montserrat, Catalan Institution for Research and Advanced Studies.(ICREA) Research Professor, Institute for Bioengineering of Catalonia, Spain speaking during the Session: Tackling Cancer from Within – New Perspectives at the World Economic Forum - Annual Meeting of the New Champions in Dalian, People's Republic of China 2019. Copyright by World Economic Forum / Benedikt von Loebell

Adam Higgins, associate professor of bioengineering, developed this laboratory device which showed that the blood of jaundiced rats could be treated by pumping it through microfluidic channels and subjecting it to high-intensity LED light.

A student demonstrates his team's project, "A Device for Hands-Free Home Urine Testing," sponsored by Joeseph Gyekis. The team designed a device that could be installed in patients' homes that could collect a urine sample while allowing the toilet to function as normal. The team included Alex Ortega (ME), Srdan Kalaba (BioE), Chris Ignozzi (ME) and Michael Malizia (ME).

A team of researchers has developed a system that uses ultrasound to remotely activate genetic processes inside CAR-T cells so that they can target and kill cancer cells. This work addresses one of the major challenges of of CAR-based immunotherapy: non-specific targeting of CAR-T cells against nonmalignant tissues. Researchers say this work could ultimately lead to more precise and efficient CAR-T cell therapies that can better target malignant over benign tissues.

Press release: jacobsschool.ucsd.edu/news/news_releases/release.sfe?id=2412

Photos by David Baillot/UC San Diego Jacobs School of Engineering

Dr. George Pantalos, bioengineering and cardiovascular and thoracic surgery professor with the UofL Cardiovascular Innovation Institute, in September took four UofL students to Houston where they conducted more tests in zero-gravity on the astrosurgery device he is developing with researchers at Carnegie Melon. This was the third time since 2012 that Dr. Pantalos and his research team tested the device in zero-G. The device is the Aqueous Immersion Surgical System – a water- and airtight-device that isolates surgical incisions and controls bleeding in a zero-gravity environment. The device seeks to control the escape of blood and bodily fluids in this environment, currently impossible to do. The ultimate goal is to develop a system that long-range space flights (such as to Mars) could use if surgery is needed onboard the spacecraft. However, applications on Earth for the device would be when sterile conditions are hard to come by, such as in war zones or areas where medical facilities are not present.