Category Archives: Biotechnology

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3SBio: Is this Chinese Biotechnology Stock a Buy? Barron's Shenyang-based 3SBio (1530.HK) is a biopharmaceutical pioneer that offers a unique play on China's rising demand for healthcare. The company is best known for its rheumatoid arthritis drug YSP, which accounts for 33% of revenues, and TPIAO, ...

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3SBio: Is this Chinese Biotechnology Stock a Buy? - Barron's

Use of cell imaging technology enables cutting-edge research into the assessment of bioactive compounds in cell lines

Matis is a leading food and biotechnology research institute in Iceland. Matis vision is to increase the value of food processing and food production, and to ensure the safety and quality of food and food products. SelectScience spoke to Dr. Eva Kuttner, to learn more about the technology the company is using in its research.

SS: Could you briefly introduce yourself and your place of work?

EK: My name is Dr. Eva Kuttner, Im a Project Leader in the Analysis and Structure division at Matis (mat=food + is=Iceland). Matis is a government owned, non-profit, independent research company in Iceland. The main focus of Matis is research and development, aligned to the food and biotechnology industries, as well as providing Iceland's leading food analytical testing service for public and private authorities.

I personally am German, and I hold a Diploma (equal to an MSc) in Botany, from the Universitt Braunschweig in Germany. I received my PhD in Integrative Biology (2007-2012) from the University of Guelph (Ontario, Canada).

SS: Could you describe your job role and work at Matis?

EK: My job title is Regional Manager, which means I am responsible for the 2 locations of Matis in the North of Iceland, Saurkrkur and Akureyri. My main work is that of a project leader (bioactives) in the Analysis and Structure Division and I am specialized in screening for bioactive secondary metabolites using in vitro chemical and cell-based assays.

Our laboratory focus is on identifying and describing compounds regarding antioxidant activity for healthcare (anti-diabetes, anti-inflammatory) and skin care. We now have a fully equipped cell laboratory (currently working with two cell lines), and we routinely run chemical and cell-based assays to identify and describe the bioactivity properties of extracted and fractionated compounds.

Testing putative therapeutics

SS: Please tell us about your marine compounds project that you are working on, and the main challenges involved?

EK: We are currently looking into how marine compounds influence the mineralization in a murine chondrocyte cell line (ATDC5). The aim of the project is to test putative therapeutics, to improve joint health. Specifically, we are interested in seeing how they affect differentiation of these cells.

SS: Which methods do you use to investigate this project and how does the BioTek Cytation 5 play a part in this?

EK: We are exposing the cells to different concentrations of fractionated marine compounds in a 96-well microplate format. After 24 days of incubation we stain the cells both with calcein and Alizarin Red to quantify calcium deposition. This is when the Cytation 5 from BioTek comes in: we have a workflow set up that images (magnification 4x) each well in phase contrast and fluorescence (we are using a GFP filter cube for this assay), and also carries out a read of the fluorescence signal. We then perform the Alizarin Red staining, take more pictures and extract the bound color after several washing steps. A further reading step quantifies the Alizarin Red using an absorbance read.

The figure below shows an example read of the calcein stain: first picture, phase contrast, second picture, fluorescence channel (GFP filter cube) and the third picture, overlay of both:

Image courtesy of Dr. Eva Kuttner

SS: What are your main research findings so far?

EK: We have identified several possible inhibitors of mineralization, but we are still in the process of improving the assay protocol to make the quantification of the mineralization more reproducible. The Alizarin Red stain has proven to represent more accurate calcium deposition into the cells, when testing the assay protocol using standard inhibitors like levamisole, so we are using the calcein stain to visualize mineralization, and Alizarin Red to quantify.

SS: What is the future of your research?

EK: We are looking into setting up assays investigating blood pressure. Our project partner developed a product line based on fish protein hydrolysate using trimmings from cod (Gadus morhua). The proteins are extracted and broken down to smaller peptides that have been shown to inhibit a key enzyme involved in increasing blood pressure (ACE). For this research we will develop and perform cell-based assays.

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Improving Joint Health with Putative Therapeutics at Matis, Iceland's Food & Biotechnology Research Institute - SelectScience

3D Systems has announced a bioprinting agreement with United Therapeutics which will see the two companies develop solid-organ scaffolds for human transplants with 3D printing.

Combining their respective expertise in 3D printing and regenerative medicine and organ manufacturing, the collaboration will remain for a number of years.

The agreement will pit 3D Systems personnel alongside professionals from a United Therapeutics subsidiary, Lung Biotechnology PBC. Since the collaboration will primarily focus on the development of 3D printing systems for solid-organ lung scaffolds, Lung Biotechnology PBC is seen as best placed to work with 3D Systems.

The printing system will target collagen, and other building block proteins, as scaffold raw materials. Lung Biotechnology PBC will cellularize the scaffolds with patient-specific biological material, including re-differentiated stem cells.

Our partnership with 3D Systems is a major step forward in creating an unlimited supply of tolerable transplanted organs, said Martine Rothblatt, Ph.D., Chairman and Chief Executive Officer of United Therapeutics. By cellularizing scaffolds created with 3D Systems printers with a patients own cells, there will no longer be a need for immunosuppression and a vastly greater number of patients can extend their enjoyment of life through organ transplantation.

3D Systems is a company with a wealth of experience in the medical sector. Its precision healthcare capabilities include simulation, virtual surgical planning, and the printing of medical and dental devices. Two of 3D Systems leading executives are not only confident in their companys own knowledge of the medical 3D printing sector, but also of United Therapeutics own expertise. Though conceding the challenge is not straight forward, the pair foresee new solutions being born from the partnership.

As a global leader in healthcare solutions, we are part of many developments and applications for 3D printing coming together including bioprinting, said Vyomesh Joshi, Chief Executive Officer, 3D Systems. We believe bioprinting is a powerful opportunity and we are uniquely positioned with the broadest portfolio of technologies to partner with companies of the calibre of United Therapeutics to provide healthcare solutions of the future.

Chuck Hull, Executive Vice President, Chief Technology Officer, 3D Systems, added: Combining the resources of United Therapeutics and 3D Systems transforms our capability to tackle this difficult challenge. This project will be based out of our new bioprinting lab in San Diego, CA, and will rely on expertise across many technical disciplines within 3D Systems as well as the domain knowledge of our technical partners at Lung Biotechnology PBC.

Meanwhile, the collaboration and joint development will add another technology alternative to United Therapeutics pursuit of an unlimited supply of organs for human transplantation.

Dr Rothblatt concludes: Our Lung Biotechnology public benefit corporation is taking personal regenerative medicine to its highest level yet with this practical, economic solution to a major health care program. Indeed, we expect one personalised organ transplant will avoid years of health care spending on palliative medical therapies.

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3D Systems and United Therapeutics partner to 3D print organ scaffolds for human transplants - TCT Magazine

250598 Shares in Puma Biotechnology Inc (PBYI) Acquired by Norges Bank The Cerbat Gem Puma Biotechnology logo Norges Bank acquired a new position in Puma Biotechnology Inc (NYSE:PBYI) during the fourth quarter, according to its most recent Form 13F filing with the SEC. The firm acquired 250,598 shares of the biopharmaceutical ... -$2.08 EPS Expected for Puma Biotechnology Inc (PBYI) This QuarterSports Perspectives Analyst Observation On 2 Stocks: Delta Technology (DELT), Puma Biotechnology (PBYI)Post Analyst all 4 news articles »

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250598 Shares in Puma Biotechnology Inc (PBYI) Acquired by Norges Bank - The Cerbat Gem

April 26, 2017 The authors artwork, illustrating the article, was also featured on the cover of Lab on a Chip. Credit: Royal Society of Chemistry

Scientists in the U.S have a designed a computer game that could help with biomedical research.

Scientists increasingly use miniscule robots to solve a range of problems, from cancer treatment to water purification. And, as with a lot of technology, the race is on to make these devices ever smaller.

However there is a limit to how far you can go with a mechanical device moving parts such as motors can physically only get so small.

So scientists are looking to the natural world to help. Single cell organisms, such as bacteria and algae, could make the parts in the miniaturised robots move, without the need for an external power source.

Such organisms respond to changes in their environment such as light and food by moving, and if these movements can be harnessed, we can use them as motors.

In a new paper just published in Lab on a Chip, Ingmar Riedel-Kruse and fellow scientists from Stanford University in the U.S. have demonstrated the use of one such organism, in the form of a game.

It's based on Euglena gracilis, single cell algae that move in response to changes in strong light. In the game, the organisms are directed around a maze or "captured" in a space on the screen by the users turning lights on and off. The ability to control the movement of the algae demonstrates their potential application in mini, single cell organism-driven motors.

In this set-up, the algae's movements are programmable a promising first step towards creating a microcomputer built on biotechnology.

Explore further: Single cell organism firm joins top ranks of Japan bourse

More information: Amy T. Lam et al. Device and programming abstractions for spatiotemporal control of active micro-particle swarms, Lab Chip (2017). DOI: 10.1039/C7LC00131B

The high-tech titans of Japanese industry were joined Wednesday in the major league of the Tokyo Stock Exchange by a company exploiting the 500-million-year-old science of a single cell organism.

Diatoms are unicellular algae that are native in many waters. They are a major component of marine phytoplankton and the food base for a large variety of marine organisms. In addition, they produce about one fifth of the ...

A new 3-D printed, easily assembled smartphone microscope developed at Stanford University turns microbiology into game time. The device allows kids to play games or make more serious observations with miniature light-seeking ...

Scientists at the John Innes Centre have discovered that Euglena gracilis, the single cell algae which inhabits most garden ponds, has a whole host of new, unclassified genes which can make new forms of carbohydrates and ...

Scientists at the Swedish Museum of Natural History have found fossils of 1.6 billion-year-old probable red algae. The spectacular finds, publishing on 14 March in the open access journal PLOS Biology, indicate that advanced ...

In an algae-eat-algae world, it's the single-celled photosynthetic organisms at the top (layer of the ocean) that absorb the most sunlight. Underneath, in the sublayers, are cryptophyte algae that must compete for photons ...

Being first in a new ecosystem provides major advantages for pioneering species, but the benefits may depend on just how competitive later-arriving species are. That is among the conclusions in a new study testing the importance ...

Giacomo Cavalli's team at the Institute of Human Genetics (University of Montpellier / CNRS), in collaboration with the French National Institute for Agricultural Research (INRA), has demonstrated the existence of transgenerational ...

(Phys.org)A pair of researchers with Harvard and Yale Universities has conducted a study of optimal human throwing techniques and found which work best under which conditions. In their paper published in the journal Royal ...

New genes are more likely to appear on the stage of evolution in full-fledged form rather than gradually take shape through successive stages of "proto genes" that become more and more refined over generations. This is the ...

Before you pop that piece of battered fish in your mouth, be aware it might just hold the key to understanding the origins of a form of DNA memory critical to human development.

Ants and bees which by all appearances seem so different are creepy-crawly cousins, according to new research published in a recent issue of Current Biology.

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Pac-Man meets biotechnology - Phys.Org

AquAdvantage salmon.

AquAdvantage

Keep Frankenfish off my Dish! a protesters sign read. Another, adorned with six red hearts, suggested that real people love real salmon. A couple of years ago, protests against the approval and sale of genetically modified salmon targeted the Food and Drug Administration and supermarket chains across the country, attempting to halt the approval and sale of the AquAdvantage salmonan Atlantic salmon modified with DNA from the Chinook salmon and the ocean pout. The borrowed genetic material lets the fish grow year-round and reach market size in half the time as its natural counterpart, but its also spurred passionate public debate.

In November 2015, the FDA approved the AquAdvantage salmon as the first genetically engineered animal for human consumption. According to the hype, the AquAdvantage salmon could help with reducing global hunger, decreasing the carbon footprint of aquaculture (the cultivation of fish and other aquatic life), and shoring up dwindling wild fish stock. The regulatory process behind the approval of the AquAdvantage salmon took almost 20 years.

But the approval was quickly followed by a flurry of controversy and charges of insufficient consideration of key issues. A consortium of environmental groups lead by Earthjustice and the Center for Food Safety sued the FDA for approving the AquAdvantage salmon, in their words, without considering or fullydisclosing the environmental and other risks of this unprecedented decision. Two months after the approval, Congress also threw a wrench in the works by adding a rider to a spending bill that tasked the FDA with spending not less than $150,000 to develop labeling and implement a program of consumer disclosure for the fish before it could be made available for sale. As a result the fish is not yet anywhere near U.S. dinner plates, caught up in a seemingly endless process of contestation, with no clear end in sight.

To many in bioscience and biotechnology circles, this is a case of politics contaminating science. In an open letter to President Obama in 2014, a group of concerned international scientists and global technology company executives argue this point:

These scientists and others offer a picture of a Manichean world divided into those who are for scientific and technological progress and those who are against ita representation of the world that we have been seeing more and more of lately in reports of a war on science. But drawing this line is dangerous. The real problem here is the regulatory process itself, which forces dissent to take the narrow form of challenges to scientific data and methodology and ignores other questions about whats at stake.

The FDA approval process for the AquAdvantage salmon took longer and included more opportunities for public comment than most products the FDA reviews. This unique openness to public input was balanced by a careful parsing of what counts as scientifically and contextually relevant and what does not. The agency received 38,000 comments in response to its draft assessment alone, but it determined that just 90 were worth considering. The remaining comments were discounted as irrelevant because they did not directly address the details of the regulation process, or they raised issues beyond the mandate of the agency. These disregarded comments focused on a wide range of concerns, including patenting and ownership regimes of seed and crops; how deploying genetically modified corn and soy would affect the United States image around the world; continuing failures of existing market configurations to address inequality and food distribution; and the long history of multinational corporations central to the commercialization of biotechnologies, such as Monsanto, intentionally obscuring the negative impacts of their chemical products and byproducts while undermining human health.

Your Cheat-Sheet Guide to Synthetic Biology

What Exactly Is Synthetic Biology? Its Complicated.

Can You Patent an Organism? The Synthetic Biology Community Is Divided.

The U.S. Regulations for Biotechnology Are Woefully Out of Date

Synthetic Biology and Queer Theory Are Cutting Down the Tree of Life You Learned About in School

Being Skeptical About Biotechnology Doesnt Make You Anti-Science

So the FDA is not the forum for deliberation on the meaning of giving entry to this new form of life into our environment, grocery stores, and dining rooms. But what is? The FDA approval process is the only existing avenue for public consideration of technological innovation of this kind. Accordingly, the agencys narrow reading of what kinds of input are relevant represents a significant dismissal of a broad range of relevant concerns.

Some might read the vast public preoccupation with a broad set of social, political, and economic issues as the contamination of science with politics. But I would suggest that this is actually a case of the reverse problem: seemingly endless conflict around the AquAdvantage salmon reflects the limitation of using narrow scientific terms to address questions of broad social, political, and economic significance. As things stand, the only legitimate way to engage in debates about the entry of the AquAdvantage salmon and other genetically modified organisms into our environments, meals, intellectual property regimes, and beyond is to contest its approval at the level of regulatory science. When the system asks the public to limit objections to narrow technical concerns, it undermines regulatory legitimacy and stultifies democratic debateand perhaps most importantly, it contributes to the problematic discourse around science itself. When our modes of public deliberation strictly define what counts as a legitimate view on these issues, we end up portraying a good portion of the population as against science, when that in fact could not be further from the truth.

The vast majority of people in the world, not being scientists or angel investors, have no say over the technological trajectories that will shape our world and our lives. We are instructed to continue funding basic science and patiently wait and watch as the world is transformed around us. Scientists often dismiss resistance to the AquAdvantage salmon and other biotechnologies as borne of scientific ignorance. But its a lot easier to understand peoples reluctance if you realize that the debate is about much broader questions than science alone can answer.

To position science on one side of these debates is not only patently false but detrimental to public discourse.

As the first genetically engineered animal developed for human consumption, the AquAdvantage salmon can be understood as an early form or precursor to products of more advanced practices of synthetic biology. Even as the power and precision of these techniques increases and the particular technical challenges associated with the salmon are left behind, the core issues and deep public resistance around the AquAdvantage salmon will likely persist and haunt continued efforts to reshape environments, economies, and human life through the biological sciences. Synthetic biology is billed as having the potential to transform the world in a way that will disrupt prevailing economic and geopolitical paradigms and reshape the very fabric of life. The one thing both sides of the fishy debate seem to agree on is that the AquAdvantage salmon is a pioneer technology, and what happens to this fish could set the stage for the role that biotechnology will play in our food system in the century to come. As one commentator opined for the New York Times:

This framing suggests that biotechnological innovation is a necessary and unmitigated good. But for many, the prospect of a world radically altered by biotechnology conjures past experiences in which scientific progress didnt go as plannedlike the devastation and political instability ushered in by nuclear weapons. Similarly, to some, a dam looks like progress, development, and economic prosperity. But to others, it looks like the violent end of a way of life, heralded by the destruction of ecosystems and entire species.

The debates over the AquAdvantage salmon arent narrow and technicaltheyre multifaceted, laden with questions of political, economic, and social values. They are about what kind of world we want to live in and what types of transformations are beneficial, desirable, and helpfuland for whom. To position science on one side of these debates is not only patently false but detrimental to public discourse and productive political deliberation.

Nonetheless, resistance to biotechnologies is often framed as a problem of the uneducated masses meddling in areas where they dont belong. The open letter to Obama by the concerned scientists and technologists, for example, claims:

Characterizing legitimate concerns about what kinds of technologies enter and help shape our world as anti-science is more likely to alienate than inspire everyday Americans to identify with this vision of what science can do, and to believe in it.

The long journey of the AquAdvantage salmon may turn out to have been a waste of time, energy, and resources on all sides, but perhaps we can make it productive in one way. Understanding the limitations of the process can help us think critically about how decision-making about synthetic biology going forward might be more open to a broader set of concerns and voices much earlier in the innovation process. The way forward is not drawing battle lines between those who are for or against science and closing down regulatory processes to all but the narrowest risk-based considerations. Rather, we should be forming and expanding spaces for a wide range of participants in creatively considering how to solve societys biggest challenges. We need new ways of thinking and talking about technological promise and possibility in the world that we live in.

This article is part of the synthetic biology installment of Futurography, a series in which Future Tense introduces readers to the technologies that will define tomorrow. Each month, well choose a new technology and break it down. Future Tense is a collaboration among Arizona State University, New America, and Slate.

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Skepticism About Biotechnology Isn't Anti-Science - Slate Magazine

WEST LAFAYETTE, Ind., April 26, 2017 /PRNewswire/ --SSCI, a division of Albany Molecular Research Inc. (AMRI), has been recognized by Global Health & Pharma (GHP) magazine as the winner of the 2017 Biotechnology Award for Best Global Research & Manufacturing Company in the United States.

"I am truly honored to accept this award on behalf of our dedicated team that is deeply committed to the mission of helping our clients achieve their product development goals and generate valuable intellectual property day in and day out," said David A. Engers, Ph.D., general manager at SSCI. "We are grateful to GHP for recognizing our commitment to client service and data integrity in order to provide unmatched value to the industries we have served for more than a quarter century."

GHP magazine recognizes that the biotechnology industry is increasingly viewed as being the frontline of medical science, and as this movement continues to gain momentum the publication is committed to following the most game-changing advances and revolutionary developments that will form the healthcare world for years to come.

Nathan Angell, GHP awards coordinator, expressed pride in every one of the award winners, "This award recognizes the hard work and dedication of the firms, such as SSCI, and the individuals behind them, that are driving innovation in this vital market. It has been my honor to recognize these dedicated professionals and I would like to wish them the very best of fortunes for the future."

About SSCIAMRI SSCI, LLC (SSCI), a division of AMRI, provides industry leading contract solid-state and analytical testing services and exists to help companies in the pharmaceutical, food, agrochemical, and other chemical industries develop better products and get them to market more quickly. SSCI provides comprehensive cGMP research and analytical services in the characterization and chemistry of solid materials, with particular expertise in small and large molecules being investigated for pharmaceutical use.To learn more about SSCI's solid-state and analytical chemistry services and capabilities,please contact 1-800-375-2179 | http://www.ssci-inc.com.

About GHP MagazineGlobal Health and Pharma (GHP) magazine is a global, information-sharing platform and a multi-disciplinary members community. The publication was established to enhance communication networks and collaboration across all themes and disciplines within three main categories; Human, Animal and Environmental Health.

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SSCI Receives a 2017 Biotechnology Award for Global Research ... - Yahoo Finance

LONDON--(BUSINESS WIRE)--

Technavio has announced the top five leading vendors in their recent global biotechnology reagents market report. This research report also lists four other prominent vendors that are expected to impact the market during the forecast period.

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The global biotechnology market is a continuously growing market and has witnessed a speedy growth in past few years. The increase in bio-related technologies, research labs, and centers and commercial requests are the main reasons behind the growth of the global biotechnology reagents market. Increasing investment in R&D of biotechnology, from private and government sector, is the key driver for the growth of the global biotechnology reagents market.

Competitive vendor landscape

According to the report, the global biotechnology reagents market consists of a sizeable number of key global players, along with regional and local players. These players have a vast geographical presence with huge production facilities located, globally. There are a considerable number of small regional vendors with significant shares in the market

The major players compete depending on the innovations, price, and quality of the product. Some players can capture the market due to lower costs compared to their competitors. Also, few suppliers financial, technological, and other resources are better as compared with their competitors who can adapt to the changes in the market demand, says Ajay Adhikari, a lead bio-chemicals and bio-materials research analyst from Technavio.

Looking for more information on this market? Request a free sample report

Technavios sample reports are free of charge and contain multiple sections of the report including the market size and forecast, drivers, challenges, trends, and more.

Top five biotechnology reagents market vendors

Agilent Technologies

Agilent Technologies is one of the leading companies in the biotechnology reagents market. The company produces control reagents, blocking reagents, buffers, diluents, and lysing, fixation, and permeabilization reagents.

BD

BD is one of the major biotechnology reagents producing companies. The company offers reagents for research, clinical, and custom services. It provides reagents for various applications such as immunoassays, cell-based assays, and clinical research.

Merck

Merck is one of the largest biotechnological reagents manufacturing companies. The company provides a wide range of reagents and solvents for different functions such as DNA and RNA synthesis, in vitro diagnostics, and instrumental inorganic analysis.

Bio-Rad Laboratories

Bio-Rad is one of the key vendors for the biotechnology reagents market. The company provides biotechnology reagents for clinical diagnostics, PCR technology, protein assay, and immunodetection reagents.

Thermo Fisher Scientific

Thermo Fisher Scientific is one of the key vendors in the biotechnology reagents market. The company offer reagents for various applications such as an immunogenic adjuvant, protein gel buffers, nucleic acid gel buffers, flow cytometer buffers and reagents, immunoassay buffers and reagents, protein purification buffers, and diagnostic testing.

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Become a Technavio Insights member and access all three of these reports for a fraction of their original cost. As a Technavio Insights member, you will have immediate access to new reports as theyre published in addition to all 6,000+ existing reports covering segments like industrial gases, olefins, and metals and minerals. This subscription nets you thousands in savings, while staying connected to Technavios constant transforming research library, helping you make informed business decisions more efficiently.

About Technavio

Technavio is a leading global technology research and advisory company. The company develops over 2000 pieces of research every year, covering more than 500 technologies across 80 countries. Technavio has about 300 analysts globally who specialize in customized consulting and business research assignments across the latest leading edge technologies.

Technavio analysts employ primary as well as secondary research techniques to ascertain the size and vendor landscape in a range of markets. Analysts obtain information using a combination of bottom-up and top-down approaches, besides using in-house market modeling tools and proprietary databases. They corroborate this data with the data obtained from various market participants and stakeholders across the value chain, including vendors, service providers, distributors, re-sellers, and end-users.

If you are interested in more information, please contact our media team at media@technavio.com.

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Top 5 Vendors in the Biotechnology Reagents Market From 2017 to 2021: Technavio - Yahoo Finance

NEW YORK, NY--(Marketwired - April 26, 2017) - Planda Biotechnology (PLPL) expects Capital Brands, LLC, the developer, marketer, and distributor of both the wildly popular NutriBullet and NutriBullet SuperFoods, to launch its reformulated product, SuperFood Fat Burning Boost, next month. SuperFood Fat Burning Boost is being reformulated to include Planda's Phytofare Catechin Complex. This is a landmark moment for a company like Planda Biotechnology that has just recently moved from solely a research and development company to focusing more on sales and marketing of its Phytofare product.

More than 40 million NutriBullet units have been sold worldwide, it's an Amazon best seller in a number of categories and even Kate Middleton, the Duchess of Cambridge and the wife of Prince William, is a big fan of NutriBullet. Capital Brands produces SuperFood formula mixes that it says is to help "give the consumer the best possible health benefits using only the best and most quality ingredients available." The company focuses on nutrient extraction in order to deliver the most nutrients possible from food and other ingredients to increase the health of people everywhere.

Capital Brands has chosen Planda Biotechnology's Phytofare as one of those quality ingredients it will deliver, and now some time next month Phytofare is expected to be introduced to Capital Brands' retailers (Target, Kohl's, Best Buy, Bed Bath & Beyond, Walmart, JC Penny, etc.) and to shoppers who use their website (nutriliving.com) as the active ingredient in SuperFood Fat Burning Boost. This is a deal that should immediately give Planda credibility. After all, Planda invested many years of hard work into the development of Phytofare, and having a worldwide brand that is well-known for using "only the best and most quality ingredients" in its products, speaks loudly to just how potent Phytofare is.

Capital Brands reformulating one of its SuperFood products to include Planda's Phytofare, should also serve as confirmation for the many years of research and the human clinical trials that Planda conducted to prove that its product is highly bioavailable. Bioavailability is essentially the measure of how much of a drug or supplement is able to be absorbed into the bloodstream and how long it can remain there so that the body can realize its health benefits. In the case of Planda's Phytofare Catechin Complex, Capital Brands obviously feels that the results will offer exactly what its customers want.

A human clinical trial showed Planda's product offers 10 times more bioavailability than the commercially available extract it was compared to, and the results from the clinical trial, which was conducted in South Africa by North West University, have allowed Planda to advertise exactly what consumers are looking for -- a more potent green tea extract.

Green tea's health benefits come from the 8 catechins, a type of antioxidant, found in the leaves of the tea plant. In Planda's clinical trial, all 8 of those catechins were present in the bloodstream versus only two found when participants consumed the commercial extract that was used in the clinical testing. Phytofare also provided 5 times greater absorption of those catechins, and the clinical trial found that the life span of the catechin's molecules in the bloodstream was doubled in Phytofare.

When consumers shop for health products, they're looking for those that have proven themselves in clinical trials, and, in turn, can boast of higher bioavailability. Capital Brands has created a worldwide brand with that thinking in mind, and it's no mistake that the company has landed at Planda's door.

The benefit to those using the Planda's Phytofare Catechin Complex is that with higher bioavailability or absorption rate, the phytonutrients are in the bloodstream in greater quantities and for twice as long, and now as the company has become fully focused on sales and marketing, the credibility of this NutriBullet deal along with powerful clinical trial results, should help the company become extremely competitive in the market.

About Stock Market Media GroupStock Market Media Group is a Content Development IR firm offering a platform for corporate stories to unfold in the media with research reports, corporate videos, CEO interviews and feature news articles.

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Plandai Biotechnology Gains Credibility with NutriBullet Deal - Yahoo Finance

No matter how many times I read or write about it, I am still overwhelmed and amazed when I see what 3D printing technology is currently able to do for the medical field, and what it has the potential to do down the line. Today, 3D Systems, a company thats nearly synonymous with precision healthcare capabilities, and biotechnology company United Therapeutics Corporation announced a joint plan to develop solid-organ scaffolds for use in human transplants. The multi-year development and collaboration is a good fit, combining 3D Systemshealthcare and 3D printing expertise with the organ manufacturing and regenerative medicine proficiency of United Therapeutics, which is also a member of the consortium that makes up the Advanced Tissue Biofabrication Manufacturing USA Institute.

Vyomesh Joshi, CEO of 3D Systems, said, As a global leader in healthcare solutions, we are part of many developments and applications for 3D printing coming together including bioprinting.We believe bioprinting is a powerful opportunity and we are uniquely positioned with the broadest portfolio of technologies to partner with companies of the caliber of United Therapeutics to provide healthcare solutions of the future.

In addition to collaborating with United Therapeutics, which is focused on developing and commercializing products that address the medical needs of patients living with chronic and life-threatening conditions, 3D Systems will also work with its organ manufacturing and transplantation-focused subsidiary, Lung Biotechnology PBC, which is the first public benefit corporation subsidiary of a public biotechnology or pharmaceutical company.

Through several technologies that expand the supply or delay the need for transplantable organs, Lung Biotechnology PBC addresses head-on the critical shortage of transplantable lungs, and other organs, in the US. Withthe subsidiary also on board with the 3D Systems collaboration, an additional technology alternative can be added to United Therapeutics pursuit of an unlimited supply of organs for human transplantation.

Dr. Martine Rothblatt, PhD, Chairman and CEO of United Therapeutics, said, Our Lung Biotechnology public benefit corporation is taking personal regenerative medicine to its highest level yet with this practical, economic solution to a major health care problem.Indeed, we expect one personalized organ transplant will avoid years of health care spending on palliative medical therapies.

The focus of the joint bioprinting agreement is to develop 3D printing systems for solid-organ scaffolds, and with Lung Biotechnology PBCs participation, obviously the first thing the companies will tackle is lung scaffolds. Scaffolds are an important part of the bioprinting process, as they give printed cells, and organs, a structure to develop and grow on. So determining the correct way to create a scaffold is incredibly important to the success of these endeavors.

Combiningthe resources of United Therapeutics and 3D Systems transforms our capability to tackle this difficult challenge.This project will be based out of our new bioprinting lab in San Diego, CA, and will rely on expertise across many technical disciplines within 3D Systems as well as the domain knowledge of our technical partners at Lung Biotechnology PBC, said Chuck Hull, Executive Vice President and Chief Technology Officer for 3D Systems.

The 3D printing system that 3D Systems and United Therapeutics hope to create will be targeting collagen, along with other building block proteins, as the raw materials for the scaffolds themselves. In turn, Lung Biotechnology PBC will then celluralize the scaffolds using patient-specific biological material, which includes re-differentiated stem cells.

Our partnership with 3D Systems is a major step forward in creating an unlimited supply of tolerable transplanted organs.By cellularizing scaffolds created with 3D Systems printers with a patients own cells, there will no longer be a need for immunosuppression and a vastly greater number of patients can extend their enjoyment of life through organ transplantation, said Dr. Rothblatt.

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Excerpt from:
3D Systems and United Therapeutics to Develop 3D Printing Biotechnology for Solid-Organ Scaffolds - 3DPrint.com