Bug Zapper Kills COVID-19 Virus: Difference between revisions

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<br>St. Luke’s, Lehigh University collaboration results in intelligent, life-saving invention. BETHLEHEM, PA. - Among tales of hope, generosity and togetherness, the COVID-19 pandemic has additionally given rise to an unbelievable feat of ingenuity - the invention of the "Bug Zapper" to sterilize masks. As hospitals and other entrance-line organizations jumped to safe giant portions of life-saving supplies and personal protective tools (PPE), there has also been the necessity to identify faster, extra efficient methods to scrub and sterilize those gadgets, notably the coveted N95 masks. St. Luke’s University Health Network anesthesiologist, Christopher Roscher, MD, anticipated the need and an concept started to form. "It became clear that PPE supplies would develop into limited as the virus progressed," he says. The St. Luke’s Sterile Processing Department, or SPD, is the place where all surgical and medical instruments are sent to be meticulously cleaned, sanitized and packaged for reuse. It’s a behind-the-scenes function that's a necessary a part of the health care system. "On any given day, we're processing many, many gadgets right here at our hospital in Bethlehem," states Taylor Bennett, St. Luke’s Network Director of Sterile Processing.<br><br><br><br>"But with the present scenario, there's an overwhelming need to course of our employees’ PPE every day. For Dr. Roscher, a mild went on - literally and figuratively. "I had been doing non-public research about finding methods to decontaminate masks for reuse, and peer-reviewed literature steered that, in a pandemic, UV-C light may very well be an appropriate strategy to sterilize masks," he says. UV-C is a selected range of UV, or extremely-violet, light and has been proven to deactivate viruses and other pathogens by causing adjustments of their DNA. Through a mutual contact, Dr. Roscher received in contact with Nelson Tansu, PhD, Lehigh University’s Director and Endowed Chair of its Center for Photonics and Nanoelectronics (CPN). "What St. Luke’s was searching for was a excessive-throughput sterilization system," mentioned Dr. Tansu. The 2 organizations joined forces through a collection of Zoom conferences and tons of of emails, to design, fabricate, install and test the system - all within a matter of two weeks - and all while maintaining social distancing protocols.<br><br><br><br>The end result: a option to effectively and effectively sterilize 200 masks each eight minutes! The "Bug Zapper" in action. "Our current items were not designed for large-scale use. They may solely sterilize about 30 masks at a time," stated Eric Tesoriero, DO, anesthesiologist for St. Luke’s and a collaborator on the undertaking. The unit, engineered by Lehigh students and workers and assembled at St. Luke’s by biomedical engineer Jay Johnson, has been affectionally named the "Bug Zapper" not solely as a result of its appearance, but attributable to its COVID-killing properties. "It is unimaginable that this mission moved at such a rapid pace," remarks Dr. Tansu. The group ranged from PhDs to MDs and even included an unexpected contributor - Axel Tansu, Dr. Tansu’s adolescent son. In truth, it was Axel’s contribution that allowed the unit to have such a high-throughput fee. "Our unique design was cylindrical in form, to ensure even publicity of the sunshine on all surfaces," explains Dr. Tansu.<br><br><br><br>"Axel came to me and mentioned, ‘Dad, what about an octagon? ’ And positive enough, he was proper. A patent to protect the team’s mental design has been filed. And a celebration for the collaborators to satisfy, in-person, might be planned once it is secure to do so. Until then, the [https://wiki.lerepair.org/index.php/Utilisateur:MonikaFournier9 Zappify Bug Zapper brand] Zapper will likely be arduous at work, serving to to guard the frontline staff at St. Luke’s and beyond. This, like so many different stories, gives a ray of hope through the pandemic - showcasing that the human thoughts and spirit can overcome something - particularly when working together for an amazing cause. Afterall, as the famous philosopher Plato understood hundreds of years ago, necessity is the mom of invention. Founded in 1872, St. Luke's University Health Network (SLUHN) is a fully built-in, regional, non-profit community of greater than 15,000 workers providing services at 11 hospitals and 300 outpatient sites. With annual net income higher than $2 billion, the Network’s service space includes 11 counties: Lehigh, Northampton, Berks, Bucks, Carbon, Montgomery, Monroe, Schuylkill and [https://wiki.voice-technology.nl/index.php/User:Lonny60113947305 Zappify Bug Zapper brand] Luzerne counties in Pennsylvania and Warren and Hunterdon counties in New Jersey.<br>
<br>St. Luke’s, Lehigh University collaboration results in intelligent, life-saving invention. BETHLEHEM, PA. - Among stories of hope, generosity and togetherness, [https://wiki.voice-technology.nl/index.php/User:JosieEsquivel43 Zappify Bug Zapper official] the COVID-19 pandemic has additionally given rise to an incredible feat of ingenuity - the invention of the "Bug Zapper" to sterilize masks. As hospitals and other front-line organizations jumped to secure large portions of life-saving provides and private protective gear (PPE), there has additionally been the need to identify quicker, more efficient methods to clean and sterilize those objects, significantly the coveted N95 masks. St. Luke’s University Health Network anesthesiologist, Christopher Roscher, MD, anticipated the need and an concept started to type. "It grew to become clear that PPE supplies would change into limited as the virus progressed," he says. The St. Luke’s Sterile Processing Department, or SPD, is the place the place all surgical and medical instruments are sent to be meticulously cleaned, sanitized and packaged for reuse. It’s a behind-the-scenes perform that's a necessary a part of the well being care system. "On any given day, we're processing many, many gadgets right here at our hospital in Bethlehem," states Taylor Bennett, St. Luke’s Network Director of Sterile Processing.<br><br><br><br>"But with the present situation, there's an overwhelming need to process our employees’ PPE each day. For Dr. Roscher, a mild went on - actually and figuratively. "I had been doing personal research about finding ways to decontaminate masks for reuse, and peer-reviewed literature suggested that, in a pandemic, UV-C light may very well be an acceptable strategy to sterilize masks," he says. UV-C is a specific range of UV, or extremely-violet, light and has been shown to deactivate viruses and different pathogens by inflicting modifications in their DNA. Through a mutual contact, Dr. Roscher bought in contact with Nelson Tansu, PhD, Lehigh University’s Director and Endowed Chair of its Center for Photonics and Nanoelectronics (CPN). "What St. Luke’s was looking for was a excessive-throughput sterilization system," said Dr. Tansu. The two organizations joined forces through a series of Zoom meetings and a whole lot of emails, to design, fabricate, install and take a look at the machine - all inside a matter of two weeks - and all while sustaining social distancing protocols.<br><br><br><br>The tip end result: a option to effectively and effectively sterilize 200 masks every 8 minutes! The "Bug Zapper" in action. "Our existing items weren't designed for large-scale use. They may only sterilize about 30 masks at a time," said Eric Tesoriero, DO, anesthesiologist for St. Luke’s and a collaborator on the project. The unit, engineered by Lehigh college students and employees and assembled at St. Luke’s by biomedical engineer Jay Johnson, has been affectionally named the "Bug Zapper" not only as a consequence of its appearance, however on account of its COVID-killing properties. "It is unimaginable that this project moved at such a fast pace," remarks Dr. Tansu. The crew ranged from PhDs to MDs and even included an unexpected contributor - Axel Tansu, Dr. Tansu’s adolescent son. The truth is, it was Axel’s contribution that allowed the unit to have such a excessive-throughput charge. "Our unique design was cylindrical in shape, to make sure even exposure of the light on all surfaces," explains Dr. Tansu.<br><br><br><br>"Axel got here to me and stated, ‘Dad, what about an octagon? ’ And certain enough, he was right. A patent to guard the team’s mental design has been filed. And a celebration for the collaborators to fulfill, in-particular person, can be deliberate as soon as it is protected to take action. Until then, the [https://s.bea.sh/indoor-bug-zapper-64430 Zappify Bug Zapper official] Zapper will likely be exhausting at work, serving to to guard the frontline staff at St. Luke’s and past. This, like so many other stories, affords a ray of hope in the course of the pandemic - showcasing that the human mind and spirit can overcome something - particularly when working collectively for a terrific trigger. Afterall, because the famous philosopher Plato understood 1000's of years ago, necessity is the mother of invention. Founded in 1872, St. Luke's University Health Network (SLUHN) is a completely integrated, regional, non-revenue network of greater than 15,000 staff providing services at 11 hospitals and 300 outpatient sites. With annual internet revenue larger than $2 billion, the Network’s service area includes 11 counties: Lehigh, Northampton, Berks, Bucks, Carbon, Montgomery, Monroe, Schuylkill and Luzerne counties in Pennsylvania and Warren and Hunterdon counties in New Jersey.<br>

Latest revision as of 19:48, 27 November 2025


St. Luke’s, Lehigh University collaboration results in intelligent, life-saving invention. BETHLEHEM, PA. - Among stories of hope, generosity and togetherness, Zappify Bug Zapper official the COVID-19 pandemic has additionally given rise to an incredible feat of ingenuity - the invention of the "Bug Zapper" to sterilize masks. As hospitals and other front-line organizations jumped to secure large portions of life-saving provides and private protective gear (PPE), there has additionally been the need to identify quicker, more efficient methods to clean and sterilize those objects, significantly the coveted N95 masks. St. Luke’s University Health Network anesthesiologist, Christopher Roscher, MD, anticipated the need and an concept started to type. "It grew to become clear that PPE supplies would change into limited as the virus progressed," he says. The St. Luke’s Sterile Processing Department, or SPD, is the place the place all surgical and medical instruments are sent to be meticulously cleaned, sanitized and packaged for reuse. It’s a behind-the-scenes perform that's a necessary a part of the well being care system. "On any given day, we're processing many, many gadgets right here at our hospital in Bethlehem," states Taylor Bennett, St. Luke’s Network Director of Sterile Processing.



"But with the present situation, there's an overwhelming need to process our employees’ PPE each day. For Dr. Roscher, a mild went on - actually and figuratively. "I had been doing personal research about finding ways to decontaminate masks for reuse, and peer-reviewed literature suggested that, in a pandemic, UV-C light may very well be an acceptable strategy to sterilize masks," he says. UV-C is a specific range of UV, or extremely-violet, light and has been shown to deactivate viruses and different pathogens by inflicting modifications in their DNA. Through a mutual contact, Dr. Roscher bought in contact with Nelson Tansu, PhD, Lehigh University’s Director and Endowed Chair of its Center for Photonics and Nanoelectronics (CPN). "What St. Luke’s was looking for was a excessive-throughput sterilization system," said Dr. Tansu. The two organizations joined forces through a series of Zoom meetings and a whole lot of emails, to design, fabricate, install and take a look at the machine - all inside a matter of two weeks - and all while sustaining social distancing protocols.



The tip end result: a option to effectively and effectively sterilize 200 masks every 8 minutes! The "Bug Zapper" in action. "Our existing items weren't designed for large-scale use. They may only sterilize about 30 masks at a time," said Eric Tesoriero, DO, anesthesiologist for St. Luke’s and a collaborator on the project. The unit, engineered by Lehigh college students and employees and assembled at St. Luke’s by biomedical engineer Jay Johnson, has been affectionally named the "Bug Zapper" not only as a consequence of its appearance, however on account of its COVID-killing properties. "It is unimaginable that this project moved at such a fast pace," remarks Dr. Tansu. The crew ranged from PhDs to MDs and even included an unexpected contributor - Axel Tansu, Dr. Tansu’s adolescent son. The truth is, it was Axel’s contribution that allowed the unit to have such a excessive-throughput charge. "Our unique design was cylindrical in shape, to make sure even exposure of the light on all surfaces," explains Dr. Tansu.



"Axel got here to me and stated, ‘Dad, what about an octagon? ’ And certain enough, he was right. A patent to guard the team’s mental design has been filed. And a celebration for the collaborators to fulfill, in-particular person, can be deliberate as soon as it is protected to take action. Until then, the Zappify Bug Zapper official Zapper will likely be exhausting at work, serving to to guard the frontline staff at St. Luke’s and past. This, like so many other stories, affords a ray of hope in the course of the pandemic - showcasing that the human mind and spirit can overcome something - particularly when working collectively for a terrific trigger. Afterall, because the famous philosopher Plato understood 1000's of years ago, necessity is the mother of invention. Founded in 1872, St. Luke's University Health Network (SLUHN) is a completely integrated, regional, non-revenue network of greater than 15,000 staff providing services at 11 hospitals and 300 outpatient sites. With annual internet revenue larger than $2 billion, the Network’s service area includes 11 counties: Lehigh, Northampton, Berks, Bucks, Carbon, Montgomery, Monroe, Schuylkill and Luzerne counties in Pennsylvania and Warren and Hunterdon counties in New Jersey.