Red Bull | 5 ways CRISPR will save your life Red Bull ... biotech innovation, making it 99 percent cheaper to edit genes, not to mention much more precise. As a result, just about anyone with a good idea, motivation and a little technical savvy can get into bioengineering and biohacking. But don't just ... |
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5 ways CRISPR will save your life - Red Bull
CU Denvers first group of bioengineering undergraduates
We were all in it together
Thats how Jacob Altholz, a recent CU Denver graduate, remembers his experience in the undergraduate bioengineering program, which is part of the College of Engineering and Applied Science with upper division courses taught on CU Anschutz Medical Campus. Jacob and 14 of his classmates are the first group of students to graduate from the program, which is the first of its kind in Colorado.
His fellow classmate, Rachelle Walter, also remembers how much she enjoyed learning how to work together. The program created a cohesive environment that allowed students to work closely with one another and make friendships to last a lifetime.
There were definitely a few late nights and waves of emotion, but we had each other, Walter said. I know something about each of my classmates and I will even be continuing my bioengineering education alongside one of them.
A Colorado native, Altholz had excelled at math and science in high school, so an engineering degree seemed like the right path. He chose bioengineering because of its biological nature and the opportunity to work in a field related to health policy, another area of interest for him. I think of biology as a people-based study and Im a social person, so I like being around other people, he said. The bioengineering program gave him the chance to work with others while also challenging his intellectual skills. Little did he know hed also meet some of his closest friends and be given so many opportunities along the way.
Both Altholz and Walter went through the program while working at the same time, and CU Denver offered them the flexibility to do so. Both found CU Denver to be the perfect atmosphere for students trying to get a degree and start a career at the same time. Walter also enjoyed the diversity of students at CU Denver. With students coming from all over Colorado, CU Denver is the perfect intersection for students of different backgrounds to meet and form friendships, she said.
At the undergraduate level bioengineering offers rigorous training, combining mathematical and physical sciences with engineering principles. At the core of bioengineering is a focus on catalyzing technology to cure and prevent disease.
CU Denver gave us skills that we can sell, Altholz explained. Bioengineering is a relatively new field with big potential for the future, but as Altholz sees it, the degree is meaningless unless you also have skills and experience when you get it. An engineering degree already puts graduates ahead of the game, but in such a rapidly growing field, students need hands-on experience now more than ever. Thats where CU Denver meets the needs of its students head-on.
The CU Denver undergraduate bioengineering program offered research and collaborative opportunities across departments. In fact, Walter had the opportunity to do an American Physiological Society Undergraduate Summer Research Fellowship, where she was published alongside Associate Professor Richard Benninger, PhD, and Post-doctoral Research Fellow Nikki Farnsworth, PhD.
Between working in a prosthetics lab and working in the cardiology department of the Colorado Childrens Hospital, Altholz was able to get hands-on experience through numerous internships, while being connected to faculty and students of other departments along the way. Everything I was doing felt relevant, he said.
By attending CU Denver, Walter and Altholz benefited from new facilities and a program tailored to face the needs of the bioengineering field, as Altholz describes it. Unlike similar degree programs, which start with a mechanical engineering core and add biological components, CU Denvers program was created with bioengineering in mind.
We had the opportunity to learn skills and concepts directly in the context of bioengineering, said Walter. Using CU Denvers resources and keeping the integrative focus of the program in mind, professors brought in guest lecturers and faculty from other departments to create well-rounded courses.
By maintaining a small core group of students, faculty had the opportunity to offer more one-on- one feedback and really get to know the students capabilities. In more than one way, they got to grow up together, leaning on one another when the going got tough, and celebrating one another when they succeeded.
While Walter has decided to continue to get her masters degree in bioengineering, Altholz has decided to begin medical school this fall. Even in this new field, he is staying true to the core of bioengineering the cure and prevention of disease.
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Prepared for the future - CU Denver Today (press release)
Lehigh has established a new Department of Bioengineering that will build upon the universitys existing bioengineering undergraduate and graduate programs, according to an announcement from Provost Patrick V. Farrell.
The department, which was formally announced on July 1, will be chaired by Professor Anand Jagota, a member of the chemical and biomolecular engineering faculty who has chaired the bioengineering program since 2004.
As Lehigh moves toward the creation of a new College of Health, the new Department of Bioengineering will form an essential connection point for ongoing interdisciplinary research and serve as a natural channel of partnership between the colleges, Farrell wrote.
The initial department faculty includes 17 members with academic appointments, as well as 17 affiliated members, according to the announcement. Their research is supported by, among others, the National Institutes of Health, the National Science Foundation, the U.S. Department of Defense and the U.S. Department of Energy.
The field of bioengineering was born out of a combination of elements from other well-established disciplines, Jagota told University Communications. In recent years, it has developed its own language, its own tools, its own gravitational pull, so to speak. Thus, the timing is right for Lehigh to recognize this evolution by organizing the faculty and students working in this space into a self-standing department.
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Lehigh establishes new Department of Bioengineering - The Brown and White
Studying a laminated poster of a human cell diagram on the wall of his fifth-grade classroom, with its kaleidoscope-colored blobs and globules the names and functions of which he barely understood, a young Jake Potts found his gaze wandering to the image of the endoplasmic reticulum.
He remembered observing how from a birds-eye view the circular grooves of the membrane system bore a striking resemblance to an orchestra. Only later in life did Potts come to understand the significance of that moment, epiphanizing, A seed of synesthesia between biology and music took root in my soul.
That was nearly a decade ago. Today, Potts is a bioengineering student at Northeastern on the path to earning a doctoral degree in genetics. He plays solo and ensemble violin as a member of the Northeastern University Symphony Orchestra and the Harvard Medical School Chamber Music Society.
In his third year of genetics research and eleventh playing violin, the harmony of these dual identities continues to pulsate within Potts. He imagines himself at once a composer whose imagination comes alive in the lab as he inscribes genetic code, and as a musician held captive to the whims of a conductor leading a string ensemblemuch like the nucleus in a cell directs the synthesis of ribosomes.
As a researcher at Northeastern, Potts has applied his analytical and engineering mind to the study of genetics and disease in the classroom and in the lab, cultivating strong chemistry and biology skills required to work in gene editing. And, he has helped to develop better cancer detection methods from improved computational image processing.
Potts participated in a Dialogue of Civilizations program in Chile, where he acquired and analyzed samples of microbes from the Atacama Desert to search for new antibiotics. He also completed a semester abroad in Paris, where he joined a Sorbonne University lab and applied bioengineering concepts to optimize a protocol to study DNA resilience in tardigrades.
Potts has been awarded a Fulbright scholarship, a prestigious award that provides grants for research projects or English teaching assistant programs. He says he will use the scholarship to return to the Sorbonne to try to determine how certain cancerous mutations happen as DNA is misrepaired, a process that occurs when, say, radiation or harsh chemicals break the two strands of our DNA, and our cells respond by trying to repair this damage. His research could result in therapeutic strategies to prevent or slow the progression of cancer.
I really took to not only all the fascinating gene-editing work they were doing there [at Sorbonne University], but the sense of camaraderie and candor I felt with them, and thats what I have to look forward to, Potts says.
Timothy Lannin, an assistant teaching professor of bioengineering at Northeastern who has taught three of Pottss courses, including his capstone, where Potts helped develop a tool to investigate the mechanical properties of lung tissue, lauded Potts as a superlative student and researcher.
I must admit that conversations with Jake have been so stimulating that Ive missed my train to continue talking, Lannin says. He has synthesized knowledge from his other courses to teach me things I didnt know about cellular engineering.
Potts says he was proud and elated to have been chosen for the Fulbright. Past winners have included former United States Rep. Gabrielle Giffords, author Jonathan Franzen, and soprano Renee Fleming.
It felt like validation of how I chose to approach genetics research, he says. I decided early on here at Northeastern that by working in various labs and thus putting myself into more environments where I have to learn anew, Id gain a broader exposure to techniques and ideas, and challenge myself to be more creative. The result of that is my Fulbright project proposal, which I used concepts from different lab experiences to come up with. Now that the idea is there, I get to see if it works.
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This Fulbright scholar wants to find ways to prevent or slow the spread of cancer - News@Northeastern
Aspartic acid, is an -amino acid that is used in the biosynthesis of proteins. Similar to all other amino acids, it contains an amino group and a carboxylic acid Aspartic acidis commonlyused toreduce feelings of tiredness, improve athletic performance, and increase the size and strength of muscles. But there is limited scientific research to support theseuses.
Aspartic Acid Market research is an intelligence report with meticulous efforts undertaken to study the right and valuable information. The data which has been looked upon is done considering both, the existing top players and the upcoming competitors. Business strategies of the key players and the new entering market industries are studied in detail. Well explained SWOT analysis, revenue share and contact information are shared in this report analysis.
For product type segment, this report listed main product type of Aspartic Acid market in gloabal and china.
* Food Grade
* Pharmaceutical Grade
For end use/application segment, this report focuses on the status and outlook for key applications. End users sre also listed.
* Food
* Feed
* Medical
Aspartic Acid Market is growing at a High CAGR during the forecast period 2020-2026. The increasing interest of the individuals in this industry is that the major reason for the expansion of this market.
Top Key Players Profiled in This Report: AJINOMOTO, DSM, Evonik Industries, Flexible Solutions International, Tocris Cookson, AnaSpec, Anhui Huaheng Biotechnology, Beijing FortuneStar S&T Development, Changmao Biochemical Engineering Company Limited, Changzhou Yabang Chemical, ChemPep, IRIS BIOTECH, KYOWA HAKKO BIO, Langen Suzhou, Nanjing Libang Chemical, Prinova, Taiyuan Qiaoyou Chemical Industrial, Tokyo Chemical Industry, Yantai Hengyuan Bioengineering
The key questions answered in this report:
Various factors are responsible for the markets growth trajectory, which are studied at length in the report. In addition, the report lists down the restraints that are posing threat to the global Aspartic Acid market. It also gauges the bargaining power of suppliers and buyers, threat from new entrants and product substitute, and the degree of competition prevailing in the market. The influence of the latest government guidelines is also analyzed in detail in the report. It studies the Aspartic Acid markets trajectory between forecast periods.
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Table of Contents:
Global Functional Fitness Equipment Market Research Report
Global Aspartic Acid Market Research Report
Chapter 1 Aspartic Acid Market Overview
Chapter 2 Global Economic Impact on Industry
Chapter 3 Global Market Competition by Manufacturers
Chapter 4 Global Production, Revenue (Value) by Region
Chapter 5 Global Supply (Production), Consumption, Export, Import by Regions
Chapter 6 Global Production, Revenue (Value), Price Trend by Type
Chapter 7 Global Market Analysis by Application
Chapter 8 Manufacturing Cost Analysis
Chapter 9 Industrial Chain, Sourcing Strategy and Downstream Buyers
Chapter 10 Marketing Strategy Analysis, Distributors/Traders
Chapter 11 Market Effect Factors Analysis
Chapter 12 Global Aspartic Acid Market Forecast
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Global Pandemic to Disrupt Aspartic Acid industry affecting AJINOMOTO, DSM, Evonik Industries, Flexible Solutions International, Tocris Cookson,...
The Ultrafiltration Membrane Filtration market report is a most important research for who looks for complete information on the Ultrafiltration Membrane Filtration market. The report covers all information on the global and regional markets including historic and future trends for market demand, size, trading, supply, competitors, and prices as well as global predominant vendors information. The forecast market information, SWOT analysis, Ultrafiltration Membrane Filtration market scenario, and feasibility study are the vital aspects analysed in this report.
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Global Ultrafiltration Membrane Filtration Market Split by Product Type and Applications:
This report segments the global Ultrafiltration Membrane Filtration market on the basis ofTypesare:Food & BeverageIndustrial & MunicipalHealthcare & BioengineeringSeawater Reverse OsmosisPotable Water Treatment
On the basis of Application, the Global Ultrafiltration Membrane Filtration market is segmented into:Inorganic MembraneOrganic Membrane
Regional Analysis for Ultrafiltration Membrane Filtration Market:
For comprehensive understanding of market dynamics, the global Ultrafiltration Membrane Filtration market is analyzed across key geographies namely United States, Europe, China, Japan, Southeast Asia, India, Central & South America. Each of these regions is analyzed on basis of market findings across major countries in these regions for a macro-level understanding of the market.
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Ultrafiltration Membrane Filtration Market Overview Global Ultrafiltration Membrane Filtration Market Competition, Profiles/Analysis, Strategies Global Ultrafiltration Membrane Filtration Capacity, Production, Revenue (Value) by Region (2015-2020) Global Ultrafiltration Membrane Filtration Supply (Production), Consumption, Export, Import by Region (2015-2020) Global Ultrafiltration Membrane Filtration Market Regional Highlights Industrial Chain, Sourcing Strategy and Downstream Buyers Marketing Strategy Analysis, Distributors/Traders Market Effect Factors Analysis Market Decisions with respect to present scenario Global Ultrafiltration Membrane Filtration Market Forecast (2020-2026) Case Studies Research Findings and Conclusion
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MarketInsightsReports provides syndicated market research on industry verticals including Healthcare, Information and Communication Technology (ICT), Technology and Media, Chemicals, Materials, Energy, Heavy Industry, etc. Contact Us: Irfan Tamboli (Head of Sales) Market Intelligence Data Phone: + 1704 266 3234 | +91-750-707-8687 https://www.linkedin.com/company/marketintelligencedatahttps://twitter.com/MIDconsultant Read the rest here:
Ultrafiltration Membrane Filtration Market 2020 Analysis and Opportunities During COVID-19 Pandemic - Cole of Duty
Your sleep position can make or break your sleep quality -- here's how.
How you sleep is just as personal as what kind of mattress and pillow you prefer. People fall into three categories: sleeping on your side, back or stomach (or a combination of positions). But if you find yourself tossing and turning at night, disturbing your partner by snoring, or waking up more than you prefer, it may be time to take a second look at how you are sleeping.
Some sleeping positions are better for helping ensure you have a good night's rest, especially if you suffer from complaints like snoring or other aches that can keep you up at night.
Dr. Ben Smarr is a sleepscience adviser for Oura and an assistant professor of bioengineering and data science at UC San Diego. Through Smarr's research, he's seen that people who sleep in certain positions tend to report better sleep quality overall. Since personal preferences and health concerns are a big factor, it's important to consult your doctor on your specific situation.
Keep reading to find out more about the benefits of different sleeping positions and how they affect different sleep issues and health concerns.
Side sleeping is best for sleep apnea since you can breathe better in this position.
Snoring can be a huge sleep complaint, especially if you sleep with a partner. Although not a medical concern on it its own, snoring is one sign that you may have sleep apnea -- a serious medical condition that causes you to stop breathing in your sleep.
One of the best positions for snoring or sleep apnea is on your side. "While many people are most comfortable on their backs, side sleepers snore less, so that is usually recommended," Smarr says.
Whether you snore or not, side sleeping is the preferred position for most people according to The Sleep Better Council. Sleeping on your left side specifically is the best position if you suffer from acid reflux, heartburn or indigestion at night. If you do have back pain or hip pain while sleeping on your side, you can place a pillow between your legs or knees to relieve the pressure.
Sleeping on your stomach is better than sleeping on your back if you have sleep apnea since it still allows your airways to stay open, helping you breathe better. This is true for snoring too since keeping your airways as open as possible can help the issue.
The downside of sleeping on your stomach is that if you have neck pain or lower back pain, it could make it worse. This is because sleeping on your stomach can cause your neck to be positioned at an awkward angle. Also sleeping on your stomach takes your back out of a neutral position to one that's more arched, which can aggravate low back pain. If you sleep on your stomach and don't have issues, then don't worry about changing positions.
Sleeping on your back is not good for breathing-related problems like sleep apnea.
Sleeping on your back is not a good idea if you have lower back pain or sleep apnea, according to The Better Sleep Council. And Smarr agrees, especially if you snore or have sleep apnea.
"When on your back, your airway can collapse more easily, as it has more flex front to back than side to side. Lifting your head up can help weight shift away from your neck and reduce the chance of nose or neck closing on themselves, but it's a compromise between verticality and breathing, which is a hard trade to come out on top of," Smarr explains.
That said, if you don't have sleep apnea, sleeping on your back has several benefits. Sleeping on your back is good for your spine since your weight is more centered and evenly distributed in this position. If you have acid reflux,sleeping on your back is helpful since you are facing up and less likely to experience indigestion.
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The information contained in this article is for educational and informational purposes only and is not intended as health or medical advice. Always consult a physician or other qualified health provider regarding any questions you may have about a medical condition or health objectives.
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The best sleeping position if you snore or have lower back pain - CNET
Bacillus Licheniformis Market 2018: Global Industry Insights by Global Players, Regional Segmentation, Growth, Applications, Major Drivers, Value and Foreseen till 2024
The report provides both quantitative and qualitative information of global Bacillus Licheniformis market for period of 2018 to 2025. As per the analysis provided in the report, the global market of Bacillus Licheniformis is estimated to growth at a CAGR of _% during the forecast period 2018 to 2025 and is expected to rise to USD _ million/billion by the end of year 2025. In the year 2016, the global Bacillus Licheniformis market was valued at USD _ million/billion.
This research report based on Bacillus Licheniformis market and available with Market Study Report includes latest and upcoming industry trends in addition to the global spectrum of the Bacillus Licheniformis market that includes numerous regions. Likewise, the report also expands on intricate details pertaining to contributions by key players, demand and supply analysis as well as market share growth of the Bacillus Licheniformis industry.
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Bacillus Licheniformis Market Overview:
The Research projects that the Bacillus Licheniformis market size will grow from in 2018 to by 2024, at an estimated CAGR of XX%. The base year considered for the study is 2018, and the market size is projected from 2018 to 2024.
Leading manufacturers of Bacillus Licheniformis Market:
The following manufacturers are covered:Wuhan Natures Favour BioengineeringHenan Yi Kang BioengineeringBeihai Qunlin Shengwu GongchengXianpuairui TechnologyCangzhou Industrial Biological TechnologyZhengzhou Jinbaihe Biology EngineeringShandong Gaolong Biology TechnologyCangzhou Wangfa Biology TechnologyCangzhou Huayu Biology TechnologyCangzhou Zhongxin Biology TechnologyShandong Tianxing Bio-Fechnology
Segment by RegionsNorth AmericaEuropeChinaJapanSoutheast AsiaIndia
Segment by TypePowderSolutionOthers
Segment by ApplicationMedicalAgricultureOthers
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Bacillus Licheniformis Market: Drivers, Restraints, Opportunities, and Threats (20192025) - News Times
The global "Fumaric Acid Market" report is an information bank that delivers comprehensive information about the market ranging from the establishment to the predictable growth trend. The key points, on which the report would focus, include the production strategies incorporated by the leading market contenders, global sales growth, factors influencing and restricting the market growth, and thorough analysis by market segmentation. The global Fumaric Acid market provides a giant platform for several firms, organizations, and manufacturers established across the world Yantai Hengyuan Bioengineering, Bartek Ingredients, Polynt, Thirumalai Chemical, Isegen, Fuso Chemicals, Jiangsu Jiecheng Bioengineering, Changzhou Yabang Chemical, NIPPON SHOKUBAI, Sealong Biotechnology, Changmao Biochemical Engineering, Suzhou Youhe Science and Technology, XST Biological that are competing with each other in terms of offering best possible products and services to their customers and hold significant share over the market. The report provides summarized analytical data of the market contenders globally using advanced methodological approaches, such as SWOT analysis.
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The report presents a demand for individual segment in each region. It demonstrates various segments Technical grade, Food grade and sub-segments Food and beverage industry, Unsaturated Polyester, Others of the global Fumaric Acid market. The Fumaric Acid market report offers a comprehensive forecast based on ongoing business techniques and trends. The Fumaric Acid market report thoroughly explains minor variations in the product profile, as this variation may directly or indirectly affect the production with the appropriate description. Moreover, the global Fumaric Acid market report focuses on the current and upcoming policies and regulations to be incorporated by the federal bodies, which may enhance or suppress the market growth.
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Apart from this, the global Fumaric Acid market can be better analyzed through geographical as well as regional categorization of the market, which is also included in the report. The evaluation of the Fumaric Acid market characteristics and performance depends on the qualitative as well as quantitative methods to clarify about the current position and forecast trends in the Fumaric Acid market on the global basis. For making the information better understandable, the professionals and analysts have incorporated diagrams, statistical figures, flow charts, and case studies in the global Fumaric Acid market report.
There are 15 Chapters to display the Global Fumaric Acid market
Chapter 1, Definition, Specifications and Classification of Fumaric Acid , Applications of Fumaric Acid , Market Segment by Regions;Chapter 2, Manufacturing Cost Structure, Raw Material and Suppliers, Manufacturing Process, Industry Chain Structure;Chapter 3, Technical Data and Manufacturing Plants Analysis of Fumaric Acid , Capacity and Commercial Production Date, Manufacturing Plants Distribution, R&D Status and Technology Source, Raw Materials Sources Analysis;Chapter 4, Overall Market Analysis, Capacity Analysis (Company Segment), Sales Analysis (Company Segment), Sales Price Analysis (Company Segment);Chapter 5 and 6, Regional Market Analysis that includes United States, China, Europe, Japan, Korea & Taiwan, Fumaric Acid Segment Market Analysis (by Type);Chapter 7 and 8, The Fumaric Acid Segment Market Analysis (by Application) Major Manufacturers Analysis of Fumaric Acid ;Chapter 9, Market Trend Analysis, Regional Market Trend, Market Trend by Product Type Technical grade, Food grade, Market Trend by Application Food and beverage industry, Unsaturated Polyester, Others;Chapter 10, Regional Marketing Type Analysis, International Trade Type Analysis, Supply Chain Analysis;Chapter 11, The Consumers Analysis of Global Fumaric Acid ;Chapter 12, Fumaric Acid Research Findings and Conclusion, Appendix, methodology and data source;Chapter 13, 14 and 15, Fumaric Acid sales channel, distributors, traders, dealers, Research Findings and Conclusion, appendix and data source.
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This report provides pin-point analysis for changing competitive dynamicsIt provides a forward looking perspective on different factors driving or restraining market growthIt provides a six-year forecast assessed on the basis of how the market is predicted to growIt helps in understanding the key product segments and their futureIt provides pin point analysis of changing competition dynamics and keeps you ahead of competitorsIt helps in making informed business decisions by having complete insights of market and by making in-depth analysis of market segments
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Global Fumaric Acid Market Executive Summary and Analysis by Top Players 2020-2025: Yantai Hengyuan Bioengineering, Bartek Ingredients, Polynt,...
Technology/23 February 2020, 3:48pm/Louis Fourie
CAPE TOWN One of the areas of the Fourth Industrial Revolution (4IR) that has seen phenomenal growth over the past few years is that of bioscience and bioengineering. But when bioscience is combined with computer science, it seems that we may one day have biological computing devices that could partly replace the current hard drives, silicon microprocessors and microchips.
At least this is what some scientists firmly belief is possible.
Through the study of genetics we know that all living organisms consists of genes and deoxyribonucleic acid or DNA. These strings of DNA contains huge amounts of data that can last thousands of years as is evident from the 45 000 year old human femur bone from Siberia that was DNA-sequenced or decoded a few years ago.
It is exactly this remarkable data density and longevity of DNA that got scientists interested. Scientists have therefore been researching a synthetic form of DNA sequencing to store large quantities of data for an indefinite period of time. Recently scientists from Microsoft and the University of Washington announced that they were making very good progress. Already in 2018 they were already able to store 200 MB of data in DNA format and were able to retrieve it with zero errors.
Since 2018 much progress has been made and it seems very likely that DNA storage could complement current data storage methods or even replace some of them in the future. Perhaps Microsoft Researchs target of a DNA storage system functioning within a data centre by the turn of the decade is not so far-fetched.
Due to advances in nano- and biotechnology scientists at the Queen Mary University in London are taking research further and are using microbes to network and communicate at nanoscale, which is of particular interest to the Internet of Things (IoT).
In a 2019 paper by Raphael Kim and Stefan Poslad titled The thing with E.coli: Highlighting Opportunities and Challenges of Integrating Bacteria in IoT and HCI the researchers explain that it is not only the minute size, but also the autonomous nature of bacteria that caught their attention and presents interesting possibilities. Bacteria have an embedded, natural propeller motor or whip-like structure, called flagella, that propels them forward.
The research is still at an early stage but the exploitation of similarities between bacteria and computing devices is of great interest to the future of computing. The microbes share interesting similarities with some components of typical IoT devices, which indicate that bacteria could be used as a living form of an IoT device.
A good example would be the field of environmental IoT where bacteria could be programmed and deployed in the sea or in smart cities to detect toxins or pollutants, gather data, and even undertake the biomediation processes.
Likewise, in healthcare and medicine, bacteria could be programmed and deployed to treat specific diseases. The bacteria could swim to a pre-determined destination in the human body, then produce and release encoded hormones when triggered by the microbes internal sensor.
Microbes have exceptional chemical sensing, as well as actuating, communication and processing capabilities typical of a computerised IoT and could even outperform the best electronic devices. Bacteria cannot only detect chemicals, but also electromagnetic fields, light, mechanical stress, and temperature, as is normally done by traditional electronic sensors. The bacteria can also respond to these stimuli through movement using their flagella, or through the production of coloured proteins.
In fact bacteria are better than electronic chip-based sensors, since they are much more sensitive, stable and responsive than their digital counterparts. This superior qualities makes bacteria especially useful as a living form of IoT device and also valuable in the field of Human Computer Interaction (HCI).
Just like a digital control unit, memory and processor, the programmed DNA controls the bacteria and functions as a control unit with regard to the collection (sensing), processing and storing of data. Genomic DNA contains the instructions for the functioning of the bacteria, while the smaller circular plasmids (a form of DNA used to introduce genes into organisms) determine the process functions through gene addition and subtraction, as well as the storage of new data.
According to the team from the Queen Mary University the cellular membrane functions as the transceiver and allows for both the transmission and reception of communication. This molecular communication or the DNA exchange between cells forms the basis of a bacterial nanonetwork or signalling pathway.
This possibility of bacterial networks as an example of molecular communication such as the widely known E.coli bacterium that could act as an information carrier has in particular excited the IoT community.
The research with digital-to-DNA data and back again from DNA-to-digital data is showing great promise for the future. The idea of the researchers is to use the bacteria to create a potential substrate for the Internet of Bio-Nano Things (IoBNT), which entails the networking and communication through nanoscale and biological entities. Some of the often-despised bacteria may indeed change our connected world of sensors and IoT devices in the future.
Interesting is that the researchers from the Queen Mary University, London closes their research paper with a passionate plea for experimentation with do-it-yourself technology by enthusiasts to promote the IoBNT. They refer to the easily obtainable and affordable educational products like the Amino Labs Kit that are widely available to the public and allow, for example, many bioengineering experiments such as the generation of specific colours from bacteria through the programming of K12 E.coli DNA. Tools, data, and materials of biotechnology that enable the broader public to run small-scale experiments with microorganisms are currently easily accessible and affordable.
The Amino Labs Kit, for instance, caters for people who are interesting in manipulating and genetically engineering E.coli bacteria. The kit enables the user to create customised living colours and smells through the building of genetic circuits that can be triggered through a variety of pre-determined environmental stimuli.
This call by the researchers is not so unusual since technology hobbyists that experimented with very affordable Arduino microcontrollers and Rasberry Pi mini-computers were the very people that significantly advanced the traditional IoT. The mini-computers and the building of sensors and IoT controller devices were the learning space of many very successful technologists and scientists.
Due to the hard work of bioscientists around the world, programming of DNA is improving our quality of life in many instances and is keeping diseases at bay. It is therefore logical that the number of genetically engineered products will continue to rise in the future since it is one of of the 4IR.
Biotechnology en bioengineering will play an increasingly important role as major building blocks of the 4IR. Do-it-yourself and educational bio-kits can therefore teach potential future scientists how to effectively program bacteria. And perhaps some of the young bioengineers, learning the skills and concepts of the future, may one day become the scientists that solve the challenges of cancer, hunger, waste and climate change.
Todays adventures in science create tomorrows innovators. And it all starts with a string of DNA and an unpretentious bacterium.
Professor Louis C H Fourie is a futurist and technology strategist.[emailprotected]
BUSINESS REPORT
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E.coli bacteria running the Internet of Things - IOL
Lesley Chow, an assistant professor at Lehigh, felt inspired to develop a novel method to fabricate scaffolds that resemble native biological tissues. To do so, her research takes place in The Chow Lab.
Chow, who completed her Ph.D at Northwestern as a polymer chemist, and her lab work primarily with polymer modification. She works in the bioengineering and materials science department, said her lab takes the polymers and modifies them with peptides, which are thought of as the building block to make different types of molecules to form cells with respective specialties.
We started adding peptides onto the polymers because that allowed us to create something which we call bioactive, Chow said. Its almost like giving a signal to the cell to check out a molecule on the surface, and then bossing them around and trying to tell them all the different things they need to do.
Intrigued and aware of the intricately-organized structure of tissues, Chow said the lab then tries to use 3D printing to control where each of the molecules go to replicate the organization of different tissues.
Diana Hammerstone, 20, a materials science and engineering student, said the labs overarching project is to try to regenerate the osteochondral tissues, the cartilage in the knee that does not regenerate on its own.
We use solvent-cast 3D printing to fabricate scaffolds made of biodegradable polymers, Hammerstone said. We can independently change the physical and biochemical cues the scaffolds give cells using this technique.
In one specific project, Chow said they found that cells responded differently in their material that has organized signals, rather than just being mixed together, which illustrates how intelligent cells are.
Chow said one of the biggest things the lab is doing is taking some of its technologies in vivo, or with the living, to implant them into animals and see how the existing cells in the animal would respond.
We want to try and demonstrate the ability for our materials to be useful and hopefully one day make materials that can be implanted in the clinic, Chow said. What would be really cool, is if our small, little material helps regenerate that tissue. For instance, say you have an injury, you could just get this material implanted in your body, and then itll heal itself better.
The research team collaborates as a whole to achieve its overarching research goal.
As a new member of the team, Yaa Donkor, 23, chemical and biological engineering student, said a lot of her collaboration is asking and clarifying questions to her lab members.
When my team and I need to figure something out, each of us shares our ideas and talks through the problems together to achieve the goal of our project, Doker said.
Chow said the team has a broad, big picture goal of being able to make materials that guide the organization of tissues, and each student in the lab has a specific job that fits within that larger goal.
Chow said the dynamic of the lab is like a dream situation for her, and she said she values the way the group interacts with each other.
Matthew Fainor, 20, said every undergraduate in the lab is paired with a graduate student to collaborate on larger projects.
I work with my graduate student, and then the graduate students work together to piece together the bigger picture of the research, and we all work with Dr. Chow to communicate that research and make sure everything is coming together cohesively, Fainor said.
Hammerstone said the biomaterials lab allows her to apply her material science and engineering background in a bioengineering setting. She said her research experience will be helpful as she transitions to a graduate researcher.
Hammerstone said the most rewarding part of her research is getting to work with experienced and bright engineers to make a difference in peoples lives, as osteoarthritis affects millions of people worldwide, according to the Mayo Clinic.
As someone who will be leaving the lab in a few months, Fainor said he hopes that the projects he is working on can be handed off successfully to someone and made easy for them to understand.
I really believe in the goal our lab has and looking forward to seeing how Dr. Chow, and the graduate students that will continue to be there, continue to move toward our goal, Fainor said.
In the future, Donker said she hopes that The Chow Lab will continue to be the heartwarming place that contributes to life-improving medical knowledge.
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'The Chow Lab' researches to fabricate scaffolds - The Brown and White
Global Cold Plasma Market is valued approximately at USD 1.30 billion in 2018 and is anticipated to grow with a healthy compounded growth rate of more than 15.6% over the forecast period 2019-2026. Cold plasma, which is also known as non-equilibrium plasma or non-thermal plasma, is a classification of plasma and is considered as the fourth state of matter. It has several applications in bioengineering, medical and therapeutics. It is mainly used for sterilization of biomedical surfaces, medication of living biological tissues, and surface variation of biomedical devices and materials, due to its antimicrobial & bactericidal properties. Rising cases of Hospital-Acquired Infections (HAIs), due to the lack of sanitation and precaution; increasing application of cold plasma in various industries and growing benefits of cold plasma technology are the few factors responsible for high CAGR of the market over the forecast period. For instance, according to theto the Centers for Disease Control and Prevention (CDC), about 1 in 25 hospital patients has at least one HAI every year. Similarly, according to the European Centre for Disease Prevention and Control, in 2015, 11,788 (around 8.0%) patients admitted in Intensive Care Unit (ICU) for over two days suffered from at least one ICU-developed HAI. Moreover, growing application of cold plasma in the medical industry along with growing demand from developing nations is the major factor which is likely to create lucrative growth opportunity to the market in the upcoming years. However, huge capital incurred for implementing cold plasma technology is one of the major factorfactors anticipated to limiting the growth of global Cold Plasma market during the forecast period.
The regional analysis of global Cold Plasma Market is considered for the key regions such as Asia Pacific, North America, Europe, Latin America and Rest of the World. North America is the leading/significant region across the world in terms of market share owing to the early adoption of technologically advanced products, rise in demand for advanced procedures for various treatments, increasing HAI cases, and rising awareness about applications of cold plasma in medicine across the region. However, Asia-Pacific is anticipated to exhibit highest growth rate / CAGR over the forecast period 2019-2026 due to the increasing demand for decontaminated frozen food, growing manufacturing facilities of textiles, and the rising production of polymers in the region.
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Global Cold Plasma Market Size study, by Industry (Textile Industry, Polymer & Plastic Industry, Electronics & Semiconductor Industry, Food...
Global Mixed Tocopherols Market Professional Survey Report 2019 is latest research study released by HTF MI evaluating the market, highlighting opportunities, risk side analysis, and leveraged with strategic and tactical decision-making support. The study provides information on market trends and development, drivers, capacities, technologies, and on the changing capital structure of the Global Mixed Tocopherols Market. Some of the key players profiled in the study are Archer Daniels Midland, DSM, BASF, Dupont Danisco, Sigma Aldrich, Nutralliance, The Scoular, Vitae Naturals, B&D Nutrition Industries, Davos Life Science & Cofco Tech Bioengineering.
Mixed Tocopherols Market Overview:
If you are involved in the Mixed Tocopherols industry or intend to be, then this study will provide you comprehensive outlook. Its vital you keep your market knowledge up to date segmented by Food & Beverage, Feed, Dietary Supplements, Pharmaceuticals & Cosmetics, , Soybean Oil, Rapeseed Oil, Sunflower Oil & and Corn Oil and major players. If you have a different set of players/manufacturers according to geography or needs regional or country segmented reports we can provide customization according to your requirement.
You can get free access to samples from the report here:https://www.htfmarketreport.com/sample-report/2154228-global-mixed-tocopherols-market-1
Mixed Tocopherols Market: Demand Analysis & Opportunity Outlook 2023
Research study is to define market sizes of various segments & countries in previous years and to forecast the values to the next 5-8 years. The report is designed to comprise each qualitative and quantitative elements of the industry facts including: market share, market size (value and volume 2012-17, and forecast to 2023) with admire to each of the areas and countries concerned inside the examination. Furthermore, the report additionally caters the detailed statistics about the vital elements which includes drivers & restraining factors which will define the future growth of the market.
Furthermore, the years considered for the study are as follows:Historical year 2013-2017Base year 2018Forecast period** 2018 to 2023 [** unless otherwise stated]
Moreover, it will also include the opportunities available in micro markets for stakeholders to invest, detailed analysis of competitive landscape and product services of key players.
The designated segments and sub-section of the market are explained below:
The Study is segmented by following Product Type: , Soybean Oil, Rapeseed Oil, Sunflower Oil & and Corn Oil
Major applications/end-users industry are as follows: Food & Beverage, Feed, Dietary Supplements, Pharmaceuticals & Cosmetics
Some of the key Manufacturers Involved in the Market are Archer Daniels Midland, DSM, BASF, Dupont Danisco, Sigma Aldrich, Nutralliance, The Scoular, Vitae Naturals, B&D Nutrition Industries, Davos Life Science & Cofco Tech Bioengineering
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For each region, market size and end users are analyzed as well as segment markets by types, applications and companies. If opting for the Global version of Mixed Tocopherols Market analysis is provided for major regions as follows: North America (USA, Canada and Mexico) Europe (Germany, France, UK, Russia and Italy) Asia-Pacific (China, Japan, Korea, India and Southeast Asia) South America (Brazil, Argentina, Columbia etc.) Middle East and Africa (Saudi Arabia, UAE, Egypt, Nigeria and South Africa)
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Key Answers Captured in Study areWhich geography would have better demand for product/services?What are the strategies adopted by big players in the regional market?Which country would see the steep rise in CAGR & year-on-year (Y-O-Y) growth?What is the current & expected market size in next five years?What is the market feasibility for long term investment?What opportunity the country would offer for existing and new players in the Mixed Tocopherols market?What is risk involved for suppliers in the geography?What factors would drive the demand for the product/service in near future?What is the impact analysis of various factors in the Global Mixed Tocopherols market growth?What are the recent trends in the regional market and how successful they are?
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There are 15 Chapters to display the Global Mixed Tocopherols market.Chapter 1, About Executive Summary to describe Definition, Specifications and Classification of Global Mixed Tocopherols market, Applications [Food & Beverage, Feed, Dietary Supplements, Pharmaceuticals & Cosmetics], Market Segment by Regions North America, Europe, China, Japan, Southeast Asia & India;Chapter 2, objective of the study.Chapter 3, to display Research methodology and techniques.Chapter 4 and 5, to show the Overall Market Analysis, segmentation analysis, characteristics;Chapter 6 and 7, to show the Market size, share and forecast; Five forces analysis (bargaining Power of buyers/suppliers), Threats to new entrants and market condition;Chapter 8 and 9, to show analysis by regional segmentation[North America, Europe, China, Japan, Southeast Asia & India ], comparison, leading countries and opportunities; Regional Marketing Type Analysis, Supply Chain AnalysisChapter 10, focus on identifying the key industry influencers, overview of decision framework accumulated through Industry experts and strategic decision makers;Chapter 11 and 12, Market Trend Analysis, Drivers, Challenges by consumer behaviour, Marketing Channels and demand & supply.Chapter 13 and 14, describe about the vendor landscape (classification and Market Positioning)Chapter 15, deals with Global Mixed Tocopherols Market sales channel, distributors, traders, dealers, Research Findings and Conclusion, appendix and data source.
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Mixed Tocopherols Market Analysis by Production, Revenue, Consumption, Export & Import Forecast 2025 - Info Street Wire
Posted Thursday, January 23, 2020 - 6:19 pm
By Sandra Sims
The Beverly Hills High School (BHHS) Robotics Team hosted a Women in STEM event for Beverly Vista Middle School (BVMS) students on Jan. 17. Senior Eva Danesh,President of the Business-Robotics Team called MorTorq, said that the motivation behind the event was to outreach and inspire younger students especially femaleswho may not otherwise consider careers in the male-dominated STEM field. MorTorqs mission is to empower and inspire younger generations to explore careers and pathways in the fields of science, engineering, technology, and entrepreneurship, Danesh told the Courier.
The panel discussion took place at Beverly Vista Middle School in the auditorium right after lunch period. Students attended as part of 7th grade science classes.I am happy that our middle school students are having a chance to see what futures in STEM can look like, saidBVMS teacher Alana Castanon.
Danesh added that MorTorq wanted to convene a panel that represented diverse professions in the STEM field. STEM is not only aerospace engineering it is programming, medicine, and more. She added, We finalized with four successful women who truly exemplified the meaning of our series: Dr. Liz Warren, an Operations Lead for the International Space Station Medical Project; Alexis Crane, former NASA researcher and current BVMS STEM teacher; Ariella Simoni, a former lead programmer of our team and current USC bioengineering major; and Dr. Taraneh Noorvash, a local orthodontist. They each spoke about how they achieved their phenomenal success, the obstacles they overcame, and the drive they were able to discover within themselves. Their words truly resonated with our audience and their presence demonstrated the power and opportunity girls have in STEM.
For full story see the print edition of The Beverly Hills Courier, or downloadthe e-edition.
https://bhcourier.com/?p=233711
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Beverly Hills High School Robotics Team Hosts Women in STEM - The Beverly Hills Courier
The film "Angelique's Isle" follows an Ojibway woman and her husband who are stranded on an island off Isle Royale. provided photo
I love all of them, of course, said Erin Smith, director of the 41 North Film Festival, when asked to name her favorites.
The film festival features 24 films this year, starting on Thursday morning and running through Sunday night. The event is free and open to the public, but tickets are required to track attendance and seating.
Smith was eventually able to narrow her favorites down, starting with Angeliques Isle, which shows Saturday evening.
A lot of people are familiar with the story, Smith said.
The film follows an Ojibway woman and her voyageur husband who are left for dead on an island off Isle Royale while working with copper speculators. One of the directors, Anishinaabe filmmaker Michelle Derosier, will be in attendance at the film festival for the showing.
A still from the movie "Picture Character". provided photo
Earlier in the day on Saturday, a grouping of films relating to environmental transformations will be shown. Anthropocene, Biggest Little Farm, and Honeyland all focus on the ways people and the environment are impacting each other.
Were actually having a little farmers market in the lobby, Smith said.
Honeyland will also be followed by a panel discussion with Kathleen Halvorsen, Victor Busov, and Melissa Hronkin, experts in beekeeping, forestry and biodiversity.
The last favorite Smith was allowed to name is a film shown on opening day, Human Nature. The film dives into the possibilities and perils of gene editing unlocked by CRISPR.
Its a very hot topic, Smith said.
"Angelique's Isle" is playing Saturday night. provided photo
Following the film, a panel discussion will be held with Paul Goetsch, Caryn Heldt, and Alexandra Morrison who have doctoral degrees in biochemistry, bioengineering, and philosophy, respectively.
Between films, the lobby of the Rozsa Center will play host to several local musicians and activities including cookie decorating and a costume contest.
Smith, as director, chooses the films for the festival each year, looking for ones that arent going to be shown at other venues in Copper Country. She said she tries to strike a balance between things that Michigan Tech students and community members will be interested in, as well as a balance between addressing serious issues and being entertaining.
Sometimes people will send me suggestions for films that end up being part of the program as well, she said.
Maiden, a film about the first competitive all-female sailboat crew showing on Sunday, was suggested and sponsored by the local yacht club.
The film "Human Nature" shows Thursday night. provided photo
Smith also took the chance to recognize others contribution to the festival.
We have some incredible volunteers, she said.
For tickets and more information, visit http://41northfilmfest.mtu.edu/2019/ or contact the Rozsa Center for the Performing Arts.
Schedule-
Thursday, Oct. 31, 2019
9:30 a.m. 10:30 a.m. Fortier / Acting
5 p.m. 6:30 p.m. American Factory
6:45 p.m. 7:30 p.m. Music in the Lobby
7:30 p.m. 9:30 p.m. Human Nature
9:30 p.m. 10 p.m. Music in the Lobby
10 p.m. 11:30 p.m. Scream Queen! My Nightmare on Elm Street
Friday, Nov. 1, 2019
3:30 p.m. 4:45 p.m. Shorts Program 1
5 p.m. 6:30pm Midnight Traveler
6:30 p.m. 7:30 p.m. Music in the Lobby
7:30 p.m. 9:15 p.m. Picture Character
9 p.m. 10:30 p.m. Music in the Lobby / Emoji Cookie Decorating
10:30 p.m. 12 a.m. Greener Grass
Saturday, Nov. 2, 2019
10:15 a.m. 11:15 a.m. Michelle Derosier and students
12 p.m. 1:30 p.m. Anthropocene
2 p.m. 3:30 p.m. Biggest Little Farm
4 p.m. 6 p.m. Honeyland
6 p.m. 7:30 p.m. Music in the Lobby
7:30 p.m. 9:45 p.m. Angeliques Isle
9:45 p.m. 10:30 p.m. Music in the Lobby
10:30 p.m. 12 a.m. Give Me Liberty
Sunday, Nov. 3, 2019
12 p.m. 1:30 p.m. Los Reyes
1:45 p.m. 3 p.m. Curtis Fortier
3:30 p.m. 5 p.m. The Bit Player
5:30 p.m. 6:30 p.m. Shorts Program
6:30 p.m. 7 p.m. Music in the Lobby
7 p.m. 9 p.m. Maiden
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Plan your weekend around this year's 41 North Film Festival | News, Sports, Jobs - Daily Mining Gazette
In this report, our team research the Europe Mixed Tocopherol market by type, application, region and manufacturer 2014-2020 and forcast 2021-2026. For the region, type and application, the sales, revenue and their market share, growth rate are key research objects; we can research the manufacturers sales, price, revenue, cost and gross profit and their changes. Whats more, we will display the main consumers, raw material manufacturers, distributors, etc.
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Geographically, this report split Europe into several key Regions, with sales (K Units), revenue (Million USD), market share and growth rate of Mixed Tocopherol for these regions, from 2014 to 2026 (forecast), includingGermanyUKFranceRussiaBeneluxItalySpain
Europe Mixed Tocopherol market competition by top manufacturers/players, with Mixed Tocopherol sales volume, price, revenue (Million USD) and market share for each manufacturer/player; the top players includingBASFDSMB&D Nutritional ingredientsAmerican River Nutrition, Inc.COFCO Tech BioengineeringFenchemBiotekArcher Daniels MidlandUNIQUEThorne Research Inc.Wilmar International LimitedMetabolic MaintenanceNatural Factors Inc.
On the basis of product, this report displays the sales volume (K Units), revenue (Million USD), product price (USD/Unit), market share and growth rate of each type, primarily split intoAlpha TocopherolBeta TocopherolGamma TocopherolDelta Tocopherol
On the basis on the end users/applications, this report focuses on the status and outlook for major applications/end users, sales volume (K Units), market share and growth rate of Mixed Tocopherol for each application, includingAnimal Feed NutritionCosmeticsPharmaceyticalsFood and Beverage
Table of Contents
1 Report Overview1.1 Definition and Specification1.2 Report Overview1.2.1 Manufacturers Overview1.2.2 Regions Overview1.2.3 Type Overview1.2.4 Application Overview1.3 Industrial Chain1.3.1 Mixed Tocopherol Overall Industrial Chain1.3.2 Upstream1.3.3 Downstream1.4 Industry Situation1.4.1 Industrial Policy1.4.2 Product Preference1.4.3 Economic/Political Environment1.5 SWOT Analysis2 Market Analysis by Types2.1 Overall Market Performance(Volume)2.1.1 Alpha Tocopherol Market Performance (Volume)2.1.2 Beta Tocopherol Market Performance (Volume)2.1.3 Gamma Tocopherol Market Performance (Volume)2.1.4 Delta Tocopherol Market Performance (Volume)2.2 Overall Market Performance(Value)2.2.1 Alpha Tocopherol Market Performance (Value)2.2.2 Beta Tocopherol Market Performance (Value)2.2.3 Gamma Tocopherol Market Performance (Value)2.2.4 Delta Tocopherol Market Performance (Value)3 Product Application Market3.1 Overall Market Performance (Volume)3.1.1 Animal Feed Nutrition Market Performance (Volume)3.1.2 Cosmetics Market Performance (Volume)3.1.3 Pharmaceyticals Market Performance (Volume)3.1.4 Food and Beverage Market Performance (Volume)4 Manufacturers Profiles/Analysis4.1 BASF4.1.1 BASF Profiles4.1.2 BASF Product Information4.1.3 BASF Mixed Tocopherol Business Performance4.1.4 BASF Mixed Tocopherol Business Development and Market Status4.2 DSM4.2.1 DSM Profiles4.2.2 DSM Product Information4.2.3 DSM Mixed Tocopherol Business Performance4.2.4 DSM Mixed Tocopherol Business Development and Market Status4.3 B&D Nutritional ingredients4.3.1 B&D Nutritional ingredients Profiles4.3.2 B&D Nutritional ingredients Product Information4.3.3 B&D Nutritional ingredients Mixed Tocopherol Business Performance4.3.4 B&D Nutritional ingredients Mixed Tocopherol Business Development and Market Status4.4 American River Nutrition, Inc.4.4.1 American River Nutrition, Inc. Profiles4.4.2 American River Nutrition, Inc. Product Information4.4.3 American River Nutrition, Inc. Mixed Tocopherol Business Performance4.4.4 American River Nutrition, Inc. Mixed Tocopherol Business Development and Market Status4.5 COFCO Tech Bioengineering4.5.1 COFCO Tech Bioengineering Profiles4.5.2 COFCO Tech Bioengineering Product Information4.5.3 COFCO Tech Bioengineering Mixed Tocopherol Business Performance4.5.4 COFCO Tech Bioengineering Mixed Tocopherol Business Development and Market Status4.6 FenchemBiotek4.6.1 FenchemBiotek Profiles4.6.2 FenchemBiotek Product Information4.6.3 FenchemBiotek Mixed Tocopherol Business Performance4.6.4 FenchemBiotek Mixed Tocopherol Business Development and Market Status4.7 Archer Daniels Midland4.7.1 Archer Daniels Midland Profiles4.7.2 Archer Daniels Midland Product Information4.7.3 Archer Daniels Midland Mixed Tocopherol Business Performance4.7.4 Archer Daniels Midland Mixed Tocopherol Business Development and Market Status4.8 UNIQUE4.8.1 UNIQUE Profiles4.8.2 UNIQUE Product Information4.8.3 UNIQUE Mixed Tocopherol Business Performance4.8.4 UNIQUE Mixed Tocopherol Business Development and Market Status4.9 Thorne Research Inc.4.9.1 Thorne Research Inc. Profiles4.9.2 Thorne Research Inc. Product Information4.9.3 Thorne Research Inc. Mixed Tocopherol Business Performance4.9.4 Thorne Research Inc. Mixed Tocopherol Business Development and Market Status4.10 Wilmar International Limited4.10.1 Wilmar International Limited Profiles4.10.2 Wilmar International Limited Product Information4.10.3 Wilmar International Limited Mixed Tocopherol Business Performance4.10.4 Wilmar International Limited Mixed Tocopherol Business Development and Market Status4.11 Metabolic Maintenance4.12 Natural Factors Inc.5 Market Performance for Manufacturers5.1 Europe Mixed Tocopherol Sales (K Units) and Market Share by Manufacturers 2014-20205.2 Europe Mixed Tocopherol Revenue (M USD) and Market Share by Manufacturers 2014-20205.3 Europe Mixed Tocopherol Price (USD/Unit) of Manufacturers 2014-20205.4 Europe Mixed Tocopherol Gross Margin of Manufacturers 2014-20205.5 Market Concentration
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Europe Mixed Tocopherol Market 2019 -2026 | Competitive Landscape, Trends And Opportunities - Industry Mirror
Bainafo Bioengineering Co., Ltd. was founded in December, 2007 with registered capital of 10 million RMB and a production area of 55,000 square meters. We are a high-tech enterprise researching and producing all sorts of natural biological products, such as organic food additives and pharmaceutical intermediates. We have 120 employees, and 90% of the employees have received post-secondary education or above.
The equipment for production is the most advanced in China. All the systems, including Fermentation System, Purification System and Synchronized Supporting System, are all excellent. Meanwhile, the management system is a successful example. We have obtained ISO9001:2008 quality management system and ISO22000:2006 food safety management system certifications.
Banafo is strong in scientific research, with an experienced Research and Development team. Closely and widely cooperating with many biotechnology / food industry research & industry institutions, our company is professionally committed to the research, production and popularizing of biotechnology and natural food additives based on high standards. We are dedicated to building up a world-famous brand for Chinese natural food additive industry under the entrepreneurial tenet of "Heaven's favorable weather, earth's advantageous terrain and human unity". By adhering to the spirit of "harmony, integrity, innovation and dedication" & insisting on taking scientific research as the guide; high-tech as the core; high-end market as the carrier, we have strong technical support to maintain rapid and sustainable development.
Currently, we have a set of patented technology and products with our own intellectual property rights. Glutathione, polylysine daptomycin, epothilone, nisin, and natamycin, and other biological composite preservatives for meat, starch, pickles, soup, cans and alcohol are our main products. We keep the market-oriented policy & make full use of our technology and clients to develop new competitive products that satisfy markets, to realize the great-leap-forward development and to get economic and social benefits.
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Zhengzhou Bainafo Bioengineering Co., Ltd. - Polylysine ...
Journal of Biomedical Imaging & Bioengineering is a prestigious open access, peer-reviewed journal that is keen in promoting current scientific research outcomes in this field.
The journal invites the participation of researchers that are involved in Biomedical Imaging & Bioengineering research and practice. The Journal encourages submissions & exchange of views in the form of Original researches, Review Articles, Clinical Cases, Perspective, Commentaries, and Letters to the editor by addressing various aspects of medical diagnosis, Diagnostic imaging, and Quality analytic interpretation of diagnoses.
Aims and Scope
Journal of Biomedical Imaging & Bioengineering has been designed for the wider dissemination and diffusion of new inventions and developments in the field of analytical methodologies and imaging techniques to the enthusiastic readers and potential researchers worldwide.
The Journal aims to facilitate rapid publication and circulation of novel discoveries in the field of Biomedical Imaging, Molecular Imaging, Cellular Imaging, Bioengineering, Tissue Engineering and Nuclear Medicine that could help in increase in awareness & spread of information regarding the researches in the field. The journal also focuses on Optical Imaging, Magnetic Resonance Imaging and Spectroscopy Ultrasound: Diagnostic and Interventional studies, X-ray, Electron, and Ion Beam imaging techniques, Delivery Systems and Devices for Drugs and Biologics,Image Processing, Visual Perception, Micro-Biomechanics, Integration of Implantable Medical Devices, Bio magnetic and Bioelectric Devices employed for imaging, Micro and Nano Systems; Platform Technologies of Imaging and Image-Guided Interventions,Bioengineering, Tissue Engineering, Rehabilitation Engineering, Nuclear Medicine, Tele-health, Mathematical Modeling, Simulation and Analysis etc.
You may submit manuscripts online at https://www.editorialmanager.com/alliedacademies/or you may send the article as an email attachment to the following e-mail id:[emailprotected]/[emailprotected]/[emailprotected]
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Biomedical Imaging Journals | Bioengineering | High Impact ...
Using 3D printing, a team from the University of California San Diego and Rady Childrens Hospital has reduced surgery time by approximately 25 percent.
The project focused on treatment of the most common hip disorder occurring in children aged between 9 and 16. The finding of the study are published in the Journal of Childrens Orthopaedics.
Engineers working together with pediatric orthopedic surgeons created surgical planning models using a 3D printer. The study compared the operating time on 5 patients where the 3D printed models were used to a control group of a further 5 patients.
Dr. Vidyadhar Upasani, pediatric orthopedic surgeon at Rady Childrens and UC San Diego, is the lead author of the study. Speaking about the results he said, Being able to practice on these 3D-models is crucial, said and the papers senior author.
Saving money and time with 3D printing
The study calculates that by using a 3D printed model to plan the surgery the time savings translate into a cost saving of $2700 per surgery. The models were produced using a moderately priced 3D printer costing $2200. The material cost for each model was approximately $10.
The research looked at a condition called slipped capital femoral epiphysis. This condition causes the patients femur to move against the bones growth plate leading to deformation. Surgery is required to remove part of the femur and help restore hip function.
Performing this task in the operating room can be problematic as the areas of focus are not directly visible. Therefore using a 3D printed model to understand the anatomy and challenges of a particular operation in advance is desirable.
Prior to adopting this new approach surgical teams would use X-rays for planning and also during the operation. Using X-ray fluoroscopy in the operating room was not only time-consuming, but also meant additional exposure to radiation for the patient.
Future research goals
The work was performed in conjunction with Jason Caffrey, Ph.D. candidate in bioengineering at UCSD, and Lillia Cherkasskiy, currently studying for an M.D. Bioengineering professor Robert Sah, and colleagues were also assisted with the study.
Input data for the 3D prints came from CT scans of the patients pelvis. A computer model was then created to visualize the bone and growth plate.
Seeing the benefit of 3D printing, Rady Childrens orthopedics department now has its own 3D printer. Dr. Upasani said. Ive seen how beneficial 3D models are, he said. Its now hard to plan surgeries without them.
Members of the research team are now investigating 3D printed models to assist in the treatment of infant hip dysplasia.
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3D printing saves $2700 per surgery finds new research - 3D Printing Industry
Message from the Director
The Clemson University - Medical University of South Carolina (CU-MUSC) program in Bioengineering is approaching its 15th anniversary in the Fall of 2018. This program, developed to advance the research, education and scholarship of engineering in medicine, was founded as a partnership between Clemson and MUSC. It has grown out of a desire for inter-institutional collaboration to enhance bioengineering research and education focused on clinical needs and to develop economic opportunities in the engineering and technologies associated with healthcare delivery.
Our mission is to be a premier program in Bioengineering in South Carolina and the South-East US with a clinical, translational and entrepreneurial educational and research focus.
The program currently has five full-time tenured or tenure-track faculty from Clemson working and teaching on the MUSC campus, with a full complement of state-of-the-art laboratories and teaching facilities for graduate education in Bioengineering. The unique opportunities for students in this program include clinical immersion, direct collaboration with clinicians and basic life sciences and to work and live in a premier health-care and life sciences educational environment. Innovation and translational research are a particular focus of the program and the potential for health-care economic development opportunities that may arise from the close interactions of engineers with clinicians.
The CU-MUSC Program in Bioengineering is poised for the next step in this exciting process of integrating bioengineering into medicine.
News and Events:
Ying Mei has been awarded an NIH R01! Congratulations Ying!
Jenny Yao, Charleston Academic High School trainee in Dr. Meis lab, wins Special Award at the 2017 International Science Fair in Los Angeles and named semifinalist in the Siemens Competition.
Robert Coyle awarded NIH T32 Predoctoral Fellowship Scholarship.
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Clemson & MUSC Joint Bioengineering Program