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Daily Archives: March 18, 2022
Bacterial Leather From Food Waste: Next-Gen Circular Materials Are Alive (And Ready To Scale) – Forbes
Posted: March 18, 2022 at 8:06 pm
Polybion bacterial cellulose membrane, ready for stabilisation and tanning to make Celium ... [+] 'leather-alternative'
The response to this series of next-gen materials articles has been feverish. It seems to have flung open the doors of labs and manufacturing facilities across the globe, sending a deluge of materials innovations and technology platforms my way, which all have a role to play in replacing toxic and resource-hungry incumbent materials. As a result, this series will be extended, but today, we journey to Polybion HQ in Mexico, to unravel natures most elegant and effective integrated recycling and material production unit: bacteria.
In a world where industrial recycling infrastructure is fragmented and ill-equipped to deliver material circularity, a solution in nature has been staring us in the face, literally, forever. Bacteria are Earth's most abundant species and simplest organisms, evolving for 3.5 billion years, surviving mass extinctions and extreme environmental swings along the way. This has made them highly resilient and efficient at conducting biochemical reactions in symbiosis with nature. Such reactions include metabolizing waste back into the building blocks of natureno industrial infrastructure needed.
Bacterias simplicity as single-celled organisms makes them microscopic powerhouses that produce useful substances (including cellulose) during their natural metabolic processes. Guanajuato-based startup Polybion leverages this, adding a layer of bioengineering to re-code bacterias genes to orchestrate specific metabolic outputs, thereby creating new biomaterials. The first of these is a cellulose membrane, which the bacteria bio-assembles into a skin that can be tanned and used as a leather alternative, which they call Celium.
On the subject of leather alternatives, Mycelium, which is grown from fungi, has experienced a surge in interest, winning the favor of brands including Allbirds who are working with NFWs Mirum, and Hermes with Mycoworks Fine Mycelium. So why is Polybion using bacteria instead of fungi, and what is the difference between the material outputs?
During a video interview with the Polybion team, co-founder and CEO Axel Gmez-Ortigoza explained bacteria have simpler genomes and are easier to genetically engineer than fungi. And taking natures lead, he added that cellulose is the most abundant (and perhaps versatile) polymer on the planet; so with bacteria producing it, the potential for scalable, modular, and high-yielding biomaterials is immense. Bacterias high yield is the deal-breaker, he added, offering faster scaling and more predictable, repeatable material outputs than fungi-based alternatives.
Polybion uses local agro-industrial food and water to feed their engineered bacteria in an industrial fermentation unit. The bacteria grows the cellulose membrane on the surface of the water by consuming glucose and fructose from the food waste and polymerizing it into cellulose, which takes 20 days.
Bacterial cellulose fermentation in industrial unit
The membrane is removed and transported to a nearby tannery where it is stabilized (to halt the live decay process) and tanned using a chrome-free method that is REACH and Environmental Protection Agency (EPA) compliant. Importantly, the stabilization and tanning of Celium requires no new infrastructure, just optimized chemistry and water usage within existing tanning facilities. This entire process, from raw material to finished skin happens within a 30-mile radius of Irapuato, in Guanajuato, Mexico.
In December 2021 Polybion launched the first industrial-scale, bacterial cellulose textile, biomanufacturing facility in the world: a 14,500 sq. ft solar-powered, carbon-neutral facility. Production volumes of Celium at this pilot factory are currently 350,000 sq. ft. per year, rising to 1.1 million by Q4 2023.
Production volumes are partially dependent on locally available waste, but of this, there is no shortage (as is true of any location on the planet with both people and industrial agriculture). The fruit waste within a 30-mile radius of FOAK I (Polybions pilot facility) could produce 165 million sq. ft. Celium per year: equivalent to 1% of the global leather market.
During the video interview, Axel and his co-founder, CFO, and brother, Alexis Gomez-Ortigoza, forecast that the technology will scale 10X after pilot capacity is reached in 2023, supported by licensing of the technology to drive rapid (and probably European) expansion.
Finished Celium 'canvases'
Its important to note that the R&D to reach this stage of production took 6 years, and was achieved with, incredibly, only 4 million ($4.4 million). This CapEx is tiny compared to similar next-gen material innovations, so how did they manage so much with so little? The brothers say this is a result of strictly prioritizing the development of the technology and focusing on science-based problem-solving, and avoiding marketing and promotional spending during development stages. Axels excellence in bioengineering, and Alexiss finance background, added to the nearby leather industry knowledge and infrastructure have also helped, no doubt. A key takeaway from this interview, I believe, is the promise of ingenuity and persistence, even in the face of modest financial resources. Its also a fair, and probably overdue, reminder that critical innovation is happening all over the globein every corner, in every region, and every culture.
Celiums sustainability gains are commensurate with adopting biological processes in place of synthetic ones. Microorganisms do not require land clearing, nor do they need daily water replenishment. They are not methane emitters, in contrast to livestock, and avoid PU and PVC which cause microplastic pollution. In fact, Celium is a holistically designed biomaterial, as opposed to the vast array of plant-based and plastic based leather alternatives on the market that are composites of plant fibres and plastic polymers that rendering them marketable as vegan but environmentally suspect.
Polybion provided some headline resource consumption figures to flesh out the impact reduction: cowhide tanning uses approximately 30 liters of water per square foot. By comparison, the stabilization process of Celium uses about 5 liters; Its tanning also avoids heavy metals including chrome.
Regarding up-cycling, 1,200 metric tons of fruit waste will be processed per year at maximum capacity, helping prevent around 3000 metric tons of CO2 from entering the atmosphere. Celium's carbon footprint arises wholly from transportation and logistics and stands at 0.792 kilograms of CO2eq per square foot. I balk at material impact comparisons, but to share the information they provided for context, Polybion places Celium at around half the emissions impact of animal and plastic leathers. Celiums calculated impacts will be revealed in detail upon receipt of the final Life Cycle Assessment (LCA).
Polybion FOAK I pilot facility for Celium production
The startups strategy for collaboration and expansion is to target affordable luxury and premium global brands that produce high volumes. We are working with forward-thinking, global consumer brands across multiple sectors ranging from affordable luxury to premium and high-end shares their Head of Communication and Culture, Gabriela Irastorza Dragonn. Their brand partners span fashion, accessories, shoe, and automotive sectors, and the technology they have developed is suitable for materials spanning food and pharma industries too.
With a series A funding round under their belt, led by Blue Horizon, next on Polybions agenda is genetically engineering bacteria strains to boost Celiums performance, the hand feel, and overall appearance. They are pursuing recombinant materials (from organisms with recombined genetic material) never seen before by mankind, designed and grown using lifes molecular palette. The output? Hybrid Organic Metamaterials. Meta indeed, thanks to 3.5 billion years of natures wisdom combined with advanced technology and human ingenuity: perhaps the best recipe for the next generation of environmentally responsible materials.
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Bacterial Leather From Food Waste: Next-Gen Circular Materials Are Alive (And Ready To Scale) - Forbes
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Plant Breeding & CRISPR Plants Market Research Report by Process, by Trait, by Type, by Application, by Region – Global Forecast to 2027 -…
Posted: at 8:06 pm
ReportLinker
Plant Breeding & CRISPR Plants Market Research Report by Process (Hybridization, Mutation Breeding, and Selection), by Trait (Disease Resistance, Herbicide Tolerance, and Yield Improvement), by Type, by Application, by Region (Americas, Asia-Pacific, and Europe, Middle East & Africa) - Global Forecast to 2027 - Cumulative Impact of COVID-19
New York, March 17, 2022 (GLOBE NEWSWIRE) -- Reportlinker.com announces the release of the report "Plant Breeding & CRISPR Plants Market Research Report by Process, by Trait, by Type, by Application, by Region - Global Forecast to 2027 - Cumulative Impact of COVID-19" - https://www.reportlinker.com/p06226244/?utm_source=GNW
The Global Plant Breeding & CRISPR Plants Market size was estimated at USD 8,982.77 million in 2020 and expected to reach USD 10,295.16 million in 2021, at a CAGR 15.04% to reach USD 23,956.53 million by 2027.
Market Statistics:The report provides market sizing and forecast across five major currencies - USD, EUR, JPY, GBP, AUD, CAD, and CHF. It helps organization leaders make better decisions when currency exchange data is readily available. In this report, the years 2018 and 2019 are considered historical years, 2020 as the base year, 2021 as the estimated year, and years from 2022 to 2027 are considered the forecast period.
Market Segmentation & Coverage:This research report categorizes the Plant Breeding & CRISPR Plants to forecast the revenues and analyze the trends in each of the following sub-markets:
Based on Process, the market was studied across Hybridization, Mutation Breeding, and Selection. The Hybridization is further studied across Bulk Method, Double Cross, Pedigree Method, Single Cross, and Three-Way Cross. The Selection is further studied across Mass Selection and Pure Line Selection.
Based on Trait, the market was studied across Disease Resistance, Herbicide Tolerance, and Yield Improvement.
Based on Type, the market was studied across Biotechnological Method and Conventional Breeding. The Biotechnological Method is further studied across Genetic Engineering, Genome Editing, Hybrid Breeding, and Molecular Breeding.
Based on Application, the market was studied across Cereals & Grains, Fruits & Vegetables, and Oilseeds & Pulses.
Based on Region, the market was studied across Americas, Asia-Pacific, and Europe, Middle East & Africa. The Americas is further studied across Argentina, Brazil, Canada, Mexico, and United States. The United States is further studied across California, Florida, Illinois, New York, Ohio, Pennsylvania, and Texas. The Asia-Pacific is further studied across Australia, China, India, Indonesia, Japan, Malaysia, Philippines, Singapore, South Korea, Taiwan, and Thailand. The Europe, Middle East & Africa is further studied across France, Germany, Italy, Netherlands, Qatar, Russia, Saudi Arabia, South Africa, Spain, United Arab Emirates, and United Kingdom.
Cumulative Impact of COVID-19:COVID-19 is an incomparable global public health emergency that has affected almost every industry, and the long-term effects are projected to impact the industry growth during the forecast period. Our ongoing research amplifies our research framework to ensure the inclusion of underlying COVID-19 issues and potential paths forward. The report delivers insights on COVID-19 considering the changes in consumer behavior and demand, purchasing patterns, re-routing of the supply chain, dynamics of current market forces, and the significant interventions of governments. The updated study provides insights, analysis, estimations, and forecasts, considering the COVID-19 impact on the market.
Competitive Strategic Window:The Competitive Strategic Window analyses the competitive landscape in terms of markets, applications, and geographies to help the vendor define an alignment or fit between their capabilities and opportunities for future growth prospects. It describes the optimal or favorable fit for the vendors to adopt successive merger and acquisition strategies, geography expansion, research & development, and new product introduction strategies to execute further business expansion and growth during a forecast period.
FPNV Positioning Matrix:The FPNV Positioning Matrix evaluates and categorizes the vendors in the Plant Breeding & CRISPR Plants Market based on Business Strategy (Business Growth, Industry Coverage, Financial Viability, and Channel Support) and Product Satisfaction (Value for Money, Ease of Use, Product Features, and Customer Support) that aids businesses in better decision making and understanding the competitive landscape.
Market Share Analysis:The Market Share Analysis offers the analysis of vendors considering their contribution to the overall market. It provides the idea of its revenue generation into the overall market compared to other vendors in the space. It provides insights into how vendors are performing in terms of revenue generation and customer base compared to others. Knowing market share offers an idea of the size and competitiveness of the vendors for the base year. It reveals the market characteristics in terms of accumulation, fragmentation, dominance, and amalgamation traits.
Competitive Scenario:The Competitive Scenario provides an outlook analysis of the various business growth strategies adopted by the vendors. The news covered in this section deliver valuable thoughts at the different stage while keeping up-to-date with the business and engage stakeholders in the economic debate. The competitive scenario represents press releases or news of the companies categorized into Merger & Acquisition, Agreement, Collaboration, & Partnership, New Product Launch & Enhancement, Investment & Funding, and Award, Recognition, & Expansion. All the news collected help vendor to understand the gaps in the marketplace and competitors strength and weakness thereby, providing insights to enhance product and service.
Company Usability Profiles:The report profoundly explores the recent significant developments by the leading vendors and innovation profiles in the Global Plant Breeding & CRISPR Plants Market, including Advanta Seeds Pty Ltd, AgriSeq Solutions Inc., Bayer AG, Benson Hill Biosystems, Inc., BioConsortia, Inc., Cibus, Ltd., DLF Seeds Ltd, Dow Dupont, Equinom, Eurofins Scientific, Evogene, Groupe Limagrain, Hudson River Biotechnology, J.R. Simplot Company, KWS SAAT SE & Co. KGaA, Land Olakes, Pacific Biosciences of California, Inc., Pairwise, SGS S.A., Syngenta Group, Tropic Biosciences UK LTD, and Yield10 Bioscience, Inc..
The report provides insights on the following pointers:1. Market Penetration: Provides comprehensive information on the market offered by the key players2. Market Development: Provides in-depth information about lucrative emerging markets and analyze penetration across mature segments of the markets3. Market Diversification: Provides detailed information about new product launches, untapped geographies, recent developments, and investments4. Competitive Assessment & Intelligence: Provides an exhaustive assessment of market shares, strategies, products, certification, regulatory approvals, patent landscape, and manufacturing capabilities of the leading players5. Product Development & Innovation: Provides intelligent insights on future technologies, R&D activities, and breakthrough product developments
The report answers questions such as:1. What is the market size and forecast of the Global Plant Breeding & CRISPR Plants Market?2. What are the inhibiting factors and impact of COVID-19 shaping the Global Plant Breeding & CRISPR Plants Market during the forecast period?3. Which are the products/segments/applications/areas to invest in over the forecast period in the Global Plant Breeding & CRISPR Plants Market?4. What is the competitive strategic window for opportunities in the Global Plant Breeding & CRISPR Plants Market?5. What are the technology trends and regulatory frameworks in the Global Plant Breeding & CRISPR Plants Market?6. What is the market share of the leading vendors in the Global Plant Breeding & CRISPR Plants Market?7. What modes and strategic moves are considered suitable for entering the Global Plant Breeding & CRISPR Plants Market?Read the full report: https://www.reportlinker.com/p06226244/?utm_source=GNW
About ReportlinkerReportLinker is an award-winning market research solution. Reportlinker finds and organizes the latest industry data so you get all the market research you need - instantly, in one place.
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How to grow concrete and other building materials – E&T Magazine
Posted: at 8:06 pm
When a radio talk-show host insisted last year that you can grow concrete, he was mercilessly ridiculed on social media. While his argument was uninformed, does bioengineering mean it could one day be possible to grow concrete on a small scale?
Concrete is the most widely used man-made material, and second only to water as the most-consumed resource on Earth. Incredibly, 7.3 billion cubic metres of concrete is poured every year, accounting for 8per cent of carbon dioxide emissions.
While greener concrete may help curb some of the environmental damage done by our favourite building material, we will probably need even more of it. After all, our growing global population, which is expected to top 9.7 billion by 2050, will need new homes and we will need efficient ways to maintain current houses and infrastructure too.
Self-healing concrete is one part of the solution to this global challenge. Engineers have developed forms of it that contain capsules which release a healing agent to fix cracks when they are split open. Using this new wonder material could save millions of pounds every year in maintenance costs, not to mention disruption caused by repairs to tunnels, bridges and other concrete infrastructure.
The problem with conventional reinforced concrete is that stress gradually creates small cracks, allowing water and oxygen to penetrate the steel in the concrete, causing it to corrode. This could in turn cause serious damage to the structure.
Hendrik Jonkers, professor of bio-adapted and sustainable building materials at Delft University of Technology in the Netherlands, has discovered a special ingredient that enables concrete to heal itself: bacteria that are usually found in stone. He has been able to create self-healing bio concrete by embeddingbacterial spores, which are like seeds for bacteria, in a concrete mix.
When cracks start to appear in the bio concrete, water and oxygen infiltrate it and activate the spores, causing the bacteria to multiply. This ensures a wide distribution of bacteria inside the crack. The widely dispersed bacteria will start to convert the nutrients in the spores into calcium carbonate, or limestone, which will eventually seal the crack. This essentially heals the concrete using a process found in nature called biomineralisation the same process that often results in plaque forming on your teeth.
What makes these limestone-producing bacteria so special is that they are able to survive in concrete for more than 200 years and come into play when the concrete is damaged, Professor Jonkers explains. Using this new material in construction gives buildings real longevity.
The technology, which was developed and patented in collaboration with the Delft University of Technology, has been commercialised. Basilisk Self-Healing Concrete sells an admixture, suitable for building new structures, along with two more products that can be applied to existing buildings to boost their durability.
Basilisks self-healing products have been used by a Dutch railway firm and in the construction of the Port of Rotterdam, while JP Concretes Sensicrete is the first self-healing concrete available in the UK and the company hopes to see the material being used in new builds and infrastructure in the country soon.
The only prohibitive factor is cost. Self-healing concrete is not the sort of thing that would be, currently at least, considered economically viable for normal construction. It tends to be on mission-critical infrastructure, where the benefits of long-term robustness of the material far outweigh the initial costs, says Martyn Dade-Robertson, professor of emerging technology and co-director of the Hub for Biotechnology in the Built Environment at Newcastle University.
However, he thinks biotechnology will revolutionise the construction industry, and wants to use the capacity of microorganisms to sense and respond to their environment, as well as add to it with their own structures.
The concept behind our project, Thinking Soils, is that you have bacteria in soil that can detect mechanical pressure, Dade-Robertson explains. This could trigger biomineralisation, which is the same process used by self-healing concrete. We could create a self-constructing foundation just by putting the right amount of pressure on the ground, removing the need for costly excavations and reinforced concrete slabs.
Unsurprisingly, making this a reality is difficult. His team has identified genes in certain bacteria that activate in response to pressure. We want to engineer those responses, says Dade-Robertson, who, through synthetic biology, has used genetic engineering to design bacteria that glow under pressure.
The next step is making an enzyme thats responsible for the biomineralisation process. Its a very complicated enzyme to make, but what were trying to do is get an engineered system that will lead to the enzyme being created in response to the genetic switch in bacteria being triggered by a load. The researchers are getting very close to managing this, but putting different processes together will be a challenge. They intend to create a demonstrator where they can load a material and from it produce calcium carbonate crystals, essentially using its pressure-sensing capacity to trigger biomineralisation. Dade-Robertson admits the project is ambitious, but says it is about creating a new class of material.
Growing small-scale deposits to bind particles together and fill cracks is neat. But could we one day grow materials into forms and structures that are building-ready, essentially growing parts of a house? Professor Dade-Robertson says this probably isnt too far off.
A US firm already makes decorative stone using biomineralisation, while a British start-up called Biohm soon plans to manufacture blocks of insulation from mycelium, which is the root network of a fungus.
These biotech feats are impressive, but the next step is to engineer living materials that can be used in construction. For example, biodegradable microbial cellulose materials can be grown to take the place of plastic, like in eco-friendly food packaging. But what if youcould turn the materials ability to biodegrade on and off? According to Dade-Robertson,if that was possible it could one day be used to construct environmentally friendly buildings. For example, once someone had finished living in a cellulose-based dwelling, the biodegradable switch could be turned on and the building would disappear.
The development of materials that retain their life-like properties takes this idea one step further. For example, instead of drying mycelium to produce insulating bricks, the mushroom roots could be kept alive. It could grow thicker in the winter to keep you warm, Dade-Robertson muses.
In fact, Nasa is interested in whether mycelium might be a good material to use for building on Mars. As mycelia normally excrete enzymes, it should be possible to bioengineer them to secrete other materials on demand, such as bioplastics or latex to form a biocomposite, says Lynn Rothschild at Nasa Ames Research Centre. A mycotectural building envelope could significantly reduce the energy required for building because in the presence of food stock and water it would grow itself.
A group at MIT has developed materials made of layers of bacterial spores and latex that can change their shape in response to water. While their focus was on clothing, Dade-Robertsons group is exploring whether this method could be used to make building membranes that could sweat as indoor humidity rises, negating the need for mechanical air-conditioning systems. Using latex membranes coated with bacteria spores the material will flex and open pores like sweat glands allowing air to flow through the walls, he says.
Elsewhere, others are also working on the creation of a living building material. Wil Srubar, professor of architectural engineering and materials science at the University of Colorado Boulder, has used photosynthetic cyanobacteria the green microorganisms that grow on the walls of fish tanks to help grow a building material that can be kept alive.
The cyanobacteria use carbon dioxide and sunlight to grow, and can create bio-cement, which Srubars team used to help bind particles of sand together to form a brick.
By keeping the cyanobacteria alive, we were able to manufacture building materials exponentially. We took one living brick, split it in half and grew two full bricks from the halves, he says. Such a technique could certainly come in handy on a building site and could save energy too.
While the manufacture, transport and assembly of building materials account for 11per cent of global CO2 emissions, living building materials such as cyanobacteria bricks could sequester CO2.
An expandable house could even be on the cards. Imagine youve got a building that starts growing bricks for an extension as your family grows, so your house grows with you, Dade-Robertson says. While he acknowledges this is far-reaching stuff, there is fundamental research going on that could lead us in this direction, making sci-fi-worthy ideas a reality.
If he is right, our eco-friendly homes will be a far cry from the futuristic glassy skyscrapers of Minority Report, or swanky apartments in Blade Runner, instead taking their inspiration from nature. Self-healing concrete and mushroom bricks are amazing, but we have only scratched the surface of the potential of bioengineered building materials. Organisms could bring living functions to building blocks, such as responding to temperature or pressure, self-healing or even lighting up. As Professor Srubar says: If nature can do it, living materials can be engineered to do it, too.
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How to grow concrete and other building materials - E&T Magazine
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Century Therapeutics Reports Fourth Quarter and Year-end 2021 Financial Results and Provides … – The Bakersfield Californian
Posted: at 8:06 pm
IND submission for lead program CNTY-101 on track for mid 2022; Phase 1 ELiPSE-1 trial of CNTY-101 in relapsed/refractory lymphoma expected to commence after IND submission
Entered into a strategic collaboration with Bristol Myers Squibbto develop iPSC-derived allogeneic cell therapies
Ended 2021 with cash, cash equivalents, and marketable securities of $358.8M; Cash runway into 2025, including proceeds received from Bristol Myers Squibb in connection with the Collaboration Agreement
PHILADELPHIA, March 17, 2022 (GLOBE NEWSWIRE) -- Century Therapeutics, Inc., (NASDAQ: IPSC), an innovative biotechnology company developing induced pluripotent stem cell (iPSC)-derived cell therapies in immuno-oncology, today reported financial results and business highlights for the fourth quarter and year ended December 31, 2021.
Throughout 2021, we continued to make steady progress in developing our comprehensive, next-generation iPSC-based cell therapy platform, executed on our powerful discovery engine, and we believe we are positioned to transition to a clinical stage company in 2022. With this foundation in place, we are on track to advance multiple product candidates to the clinic over the next three years, said Lalo Flores, Chief Executive Officer, Century Therapeutics. Additionally, we look forward to continuing our partnership in the years ahead with Bristol Myers Squibb, a global leader in oncology and hematology, to further expand our pipeline of iPSC-derived cell therapy products for treating hematological and solid tumor malignancies. We are committed to maximizing the potential utility of our platform technology and look forward to what we expect to be a very productive year ahead.
Business Highlights
Entered into a collaboration and license agreement with Bristol Myers Squibb in January 2022 to develop and commercialize up to four iPSC-derived, engineered natural killer cell (iNK) and / or T cell (iT) programs for hematologic malignancies and solid tumors. Under the terms of the agreement, Century received a $100 million upfront payment and Bristol Myers Squibb made a $50 million equity investment in Century Therapeutics common stock. The agreement provides for future program initiation fees and development, regulatory, and commercial milestone payments totaling more than $3 billion plus royalties on product sales.Announced that, subject to U.S. Food and Drug Administration (FDA) acceptance of its Investigational New Drug (IND) application, the Company plans to initiate a Phase 1 trial, ELiPSE-1, to assess CNTY-101 in patients with relapsed/refractory aggressive lymphoma or indolent lymphoma after at least two prior lines of therapy, including patients who have received prior CAR T cell therapy. In vivo data
demonstrated strong antitumor activity against human lymphoma cell lines with CNTY-101.Announced plans to focus its initial T cell development program on cells. Data
suggest that CAR-iT cells provide an opportunity to deliver allogeneic T cell therapies without risk for graft-versus-host disease. CNTY-102 will be a CAR- iT candidate targeting CD19, and a second antigen for relapsed/refractory B cell lymphoma and other B cell malignancies. Added to the NASDAQ Biotechnology Index (NASDAQ: NBI) in December 2021.
Upcoming Milestones
Current Good Manufacturing Practice (cGMP) manufacturing facility expected to be operational in 2022.CNTY-101 IND filing remains on track for mid-2022. Subject to U.S. FDA acceptance of its IND application, the Company plans to initiate the Phase 1 ELiPSE-1 trial of CNTY-101 in relapsed/refractory lymphoma in 2022.Expect to submit an IND for CNTY-103 in 2023. CNTY-103 is Centurys first solid tumor candidate for glioblastoma.
Fourth Quarter and Year-end 2021 Financial Results
Cash Position:Cash, cash equivalents, and marketable securities were $358.8 million as of December 31, 2021, as compared to $76.8 million as of December 31, 2020. Net cash used in operations was $89.0 million for the twelve months ended December 31, 2021, compared to $41.3 million for the twelve months ended December 31, 2020.Research and Development (R&D) expenses: R&D expenses were $75.6 million for the year ended December 31, 2021, compared to $39.7 million for the year ended December 31, 2020. The increase in R&D expenses was primarily due to an increase in personnel expenses related to increased headcount to expand the Companys R&D capabilities, costs for preclinical studies, costs for laboratory supplies, and facility costs.General and Administrative (G&A) expenses: G&A expenses were $19.2 million for the year ended December 31, 2021, compared to $9.5 million for the year ended December 31, 2020. The increase was primarily due to an increase in personnel related expense due to an increase in employee headcount and an increase in the Companys professional fees as a result of expanded operations to support its infrastructure as well as additional costs to operate as a public company.Net loss: Net loss was $95.8 million for the year ended December 31, 2021, compared to $53.6 million for the year ended December 31, 2020.
Financial Guidance
The Company expects full year GAAP Operating Expenses to be between $155 million and $165 million including non-cash stock-based compensation expense of $10 million to $15 million. The Company expects its cash, cash equivalents, and marketable securities, including proceeds from the Bristol Myers Squibb collaboration agreement, will support operations into 2025.
About Century Therapeutics
Century Therapeutics, Inc. (NASDAQ: IPSC) is harnessing the power of adult stem cells to develop curative cell therapy products for cancer that we believe will allow us to overcome the limitations of first-generation cell therapies. Our genetically engineered, iPSC-derived iNK and iT cell product candidates are designed to specifically target hematologic and solid tumor cancers. We are leveraging our expertise in cellular reprogramming, genetic engineering, and manufacturing to develop therapies with the potential to overcome many of the challenges inherent to cell therapy and provide a significant advantage over existing cell therapy technologies.We believe our commitment to developing off-the-shelf cell therapies will expand patient access and provide an unparalleled opportunity to advance the course of cancer care. For more information on Century Therapeutics please visit https://www.centurytx.com/.
Forward-Looking Statements
This press release contains forward-looking statements within the meaning of, and made pursuant to the safe harbor provisions of, The Private Securities Litigation Reform Act of 1995. All statements contained in this press release, other than statements of historical facts or statements that relate to present facts or current conditions, including but not limited to, statements regarding our cash and financial resources, our clinical development plans, the development of our U.S. manufacturing facility, and our financial guidance are forward-looking statements. These statements involve known and unknown risks, uncertainties and other important factors that may cause our actual results, performance, or achievements to be materially different from any future results, performance or achievements expressed or implied by the forward-looking statements. In some cases, you can identify forward-looking statements by terms such as may, might, will, should, expect, plan, aim, seek, anticipate, could, intend, target, project, contemplate, believe, estimate, predict, forecast, potential or continue or the negative of these terms or other similar expressions. The forward-looking statements in this presentation are only predictions. We have based these forward-looking statements largely on our current expectations and projections about future events and financial trends that we believe may affect our business, financial condition, and results of operations. These forward-looking statements speak only as of the date of this press release and are subject to a number of risks, uncertainties and assumptions, some of which cannot be predicted or quantified and some of which are beyond our control, including, among others: our ability to successfully advance our current and future product candidates through development activities, preclinical studies, and clinical trials; our reliance on the maintenance of certain key collaborative relationships for the manufacturing and development of our product candidates; the timing, scope and likelihood of regulatory filings and approvals, including final regulatory approval of our product candidates; the impact of the COVID-19 pandemic on our business and operations; the performance of third parties in connection with the development of our product candidates, including third parties conducting our future clinical trials as well as third-party suppliers and manufacturers; our ability to successfully commercialize our product candidates and develop sales and marketing capabilities, if our product candidates are approved; and our ability to maintain and successfully enforce adequate intellectual property protection. These and other risks and uncertainties are described more fully in the Risk Factors section of our most recent filings with the Securities and Exchange Commission and available at http://www.sec.gov. You should not rely on these forward-looking statements as predictions of future events. The events and circumstances reflected in our forward-looking statements may not be achieved or occur, and actual results could differ materially from those projected in the forward-looking statements. Moreover, we operate in a dynamic industry and economy. New risk factors and uncertainties may emerge from time to time, and it is not possible for management to predict all risk factors and uncertainties that we may face. Except as required by applicable law, we do not plan to publicly update or revise any forward-looking statements contained herein, whether as a result of any new information, future events, changed circumstances or otherwise.
For More Information:
Company: Elizabeth Krutoholow investor.relations@centurytx.com
Investors: Melissa Forst/Maghan Meyers century@argotpartners.com
Media: Joshua R. Mansbach century@argotpartners.com
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Research Associate in Synthetic Biology job with UNIVERSITY OF SYDNEY | 286245 – Times Higher Education
Posted: at 8:06 pm
About the opportunity
The Centre for Advanced Food Engineering (CAF) at the University of Sydney is looking for a researcher to drive an industry sponsored research in the field of cellular agriculture. We are looking for an outstanding, motivated and independent synthetic biologist to develop a novel bio-technological platform for the production of protein and cellularized edible scaffolds. The researcher will join a multidisciplinary research team and be mentored by national and international researchers with expertise in the fields of bio-engineering, genetic engineering and tissue engineering. This is an opportunity to develop many aspects of their academic career, engage with industry partners in the field of bioengineering and strengthen national and international collaborations in the emerging field of cellular agriculture.
About you
The University values courage and creativity; openness and engagement; inclusion and diversity; and respect and integrity. As such, we see the importance of recruiting talent aligned to these values and are looking for a Research Associate who has:
We are ideally looking for a candidate with experience with LC-MS, particularly lipidomics as well as experience with elemental analysis and macronutrients profiling.
To apply for this role, please address the following points in a cover letter that you attach to your application:
To keep our community safe, please be aware of our COVID safety precautions which form our conditions of entry for all staff, students and visitors coming to campus.
Sponsorship / work rights for Australia
Please note: Visa sponsorship is not available for this position.
Pre-employment checks
Your employment is conditional upon the completion of all role required pre-employment or background checks in terms satisfactory to the University. Similarly, your ongoing employment is conditional upon the satisfactory maintenance of all relevant clearances and background check requirements. If you do not meet these conditions, the University may take any necessary step, including the termination of your employment.
EEO statement
At the University of Sydney, our shared values include diversity and inclusion and we strive to be a place where everyone can thrive. We are committed to creating a University community which reflects the wider community that we serve. We deliver on this commitment through our people and culture programs, as well as key strategies to increase participation and support the careers of Aboriginal and Torres Strait Islander People, women, people living with a disability, people from culturally and linguistically diverse backgrounds, and those who identify as LGBTIQ. We welcome applications from candidates from all backgrounds.
How to apply
Applications (including a cover letter, CV, and any additional supporting documentation) can be submitted via the Apply button at the top of the page.
If you are a current employee of the University or a contingent worker with access to Workday, please login into your Workday account and navigate to the Career icon on your Dashboard. Click on USYD Find Jobs and apply.
For a confidential discussion about the role, or if you require reasonable adjustment or support filling out this application, please contact Linden Joseph or Rebecca Astar, Recruitment Operations, at recruitment.sea@sydney.edu.au. For specific enquiries about the position please contact Peter Valtchev peter.valtchev@sydney.edu.au.
The University of Sydney
The University reserves the right not to proceed with any appointment.
Applications Close
Sunday 10 April 2022 11:59 PM
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Research Associate in Synthetic Biology job with UNIVERSITY OF SYDNEY | 286245 - Times Higher Education
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War forces farmers to think again about GM crops – The Telegraph
Posted: at 8:06 pm
Even at the best of times, farming can be a tough business.
Yet as the world grapples with the impacts of Russias invasion of Ukraine, it has actually become pretty frightening times for farmers, says Hertfordshire-based farmer Stephen Roberts.
Food security has been an unfashionable topic for a long time, he adds. But now, we really cannot allow anyone to take their eye off the importance of an island nation being able to feed itself and we need to be looking at any technology that can make us more resource-efficient in farming.
Robotics, says Roberts, is one such technology, or it could be genetic engineering and genetic modification.
British farmers are searching for options to stave off the likelihood of a food crisis which has been exemplified by the Russian presidents invasion of the breadbasket of Europe, such as technology-led solutions including genetic modification (GM).
The latter is an area experts are increasingly pointing to, as the full out over Russias attack on Ukraine filters through. Already the industry was under pressure from labour shortages, after Covid led to hosts of fruit-pickers and butchers leaving Britain.
Roberts farm, which grows cereals and keeps cattle and lamb, has so far avoided the worst of the pain from Putins war - farming organically to reduce reliance on fertilisers such as ammonium nitrate. Yet his peers are struggling.
There's ammonium nitrate nearly tripling in price. Farmers are being quoted prices for diesel which have doubled within the space of 10 days, according to Roberts, with some already pulling back on planting crops such as potatoes to keep costs down.
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FluidFM – Where Nanofluidics and AFM Meet – AZoNano
Posted: at 8:06 pm
Fluidic force microscopy (FluidFM) combines atomic force microscopy (AFM) with micro-channeled probes connected to a pressure controller that enables force-sensitive nanopipette experiments under aqueous conditions.
Image Credit:FabrikaSimf/Shutterstock.com
FluidFM offers unique advantages in simultaneous three-dimensional manipulation and mechanical measurements of a wide range of materials at the micro- and nanoscale, including biological specimens, semiconductors, polymers, and colloidal nanoparticles.
AFM is a widely used characterization technique in material science, electronics, biomedical research, and many other research fields. Since its invention in 1986 by Gerd Binnig, Calvin Quate, and Christoph Gerber, the AFM technique has undergone many improvements and became a widely-used surface imaging tool.
The technique evolved from scanning tunneling microscopy (STM), which is restricted to the characterization of electrically conductive materials only. In contrast, AFM allows obtaining atomic-resolved images of a wide variety of materials by scanning an ultra-sharp probe attached to a flexible cantilever over the sample surface.
The deflection of the cantilever is monitored by a laser beam reflected from the cantilever surface, thus enabling quantification of the variation of the interaction forces between the probe and the sample surface.
A topographic image of the sample surface with a sub-nanometer resolution is acquired by correlating the cantilever deflection versus the position of the scanning probe over the sample. At the same time, the technique allows obtaining quantitative information about the sample's mechanical properties.
After becoming a surface-imaging tool of choice for semiconductors and materials science, AFM has increasingly been used in biological research for the characterization of cell organelles, quantification of protein-protein and DNA-protein interactions, cell adhesion forces, and electromechanical properties of live cells.
Owing to its compatibility with aqueous environments, AFM is considered one of the best non-invasive methods for studying biological samples in real-time under physiological conditions.
Over the past three decades, the AFM technique has undergone many improvements that broadened the scope of its application, including nanoscale lithography, along with electrical and magnetic characterization of specimens. One such advancement is the FluidFM, which combines conventional AFM with micro-channeled probes for local liquid dispensing via a nanofluidic circuit. The technology was initially developed in 2009 in the group of Prof. Tomaso Zambelli at the Swiss Federal Institute of Technology in Zrich (ETH Zrich, Switzerland) and later improved and commercialized by the spin-off company Cytosurge.
FluidFM technique relies on using a new type of cantilever with a hollow tip and integrated micro-channel in its interior, allowing to control femtoliter volumes of liquid with nanometer spatial precision and picoNewton force resolution. This approach enables isolation and injection of single cells, force-controlled patch clamping of live cells, and manipulation of micro- and nanoscale objects.
By positioning the FluidFM probe onto an individual cell and applying an underpressure in the fluidic channel, the cell can be tightly attached to the aperture of the probe's tip and picked up from the substrate. By reversing the pressure, the cell can be placed onto the desired spot.
With FluidFM-based single-cell manipulations, the researchers were able to transfer cells to targeted areas to study cell behavior or remove unwanted cells to facilitate the formation of cell colonies.
The ability to manipulate individual live cells proved crucial for single-cell force spectroscopy experiments (where cell-substrate or cell-cell interaction are characterized). In addition, the FluidFM technique enabled single-cell electrophysiology by simultaneously measuring the mechanical response of the cell and the ionic current recording in patch-clamp experiments.
Since its discovery and development as a gene-editing technology, CRISPR has revolutionized biomedical research by offering a versatile gene engineering tool suitable for a broad range of organisms and applications, such as curing genetic disease, creating drought-resistant crops, and de-extinction projects.
The method requires the precise delivery of multiple guide RNA molecules into the target cells, which is far from trivial when using traditional transfection methods (where cell viability might be hindered by stress and toxicity).
Cytosurge developed a highly-automated genetic manipulation solution called FluidFM OMNIUM that can gently and precisely deliver the necessary compounds directly into the nucleus of any cell. This ensures that all the reagents have the optimum stoichiometry to maximize efficiency and eliminate cell stress.
Compared to conventional cell line development strategies, where obtaining stable monoclonal cell lines requires 12 to 14 weeks, the FluidFM technique can pick and nano-inject, and clone a single cell in less than three weeks from the transfection until the clones have been characterized.
The FluidFM OMNIUM system enables researchers to target the nuclei of a few dozen individual cells by a simple point-and-click approach, leading to an automatic injection into the selected cells at a rate of around five cells per minute. In parallel with all the different guide RNAs and protein complexes, a fluorescent marker was co-injected in the treated cells to monitor the injection process and identify the treated cells.
After 24 hours, the targeted cells were found and isolated by using the FluidFM micropipette probe and transferred into an empty well to guarantee the monoclonality of the resulting cell line.
FluidFM technology also enables 3D printing of complex structures on a micrometer level, including difficult-to-print geometries such as overhangs. The Cytosurge team of specialists developed a proprietary micro 3D printing technology which, in 2019, was spun off into an independent company called Exaddon AG.
The latest generation of the company's CERES 3D printer combines positioning with nanometer accuracy, air pressure-driven liquid dispensing, electrochemical deposition, and optical force feedback. By employing the FluidFM nanopipette probes, the system deposits a metallic ion solution, which is then solidified via an electroplating process that takes place at room temperature.
The CERES micro 3D printer offers a printing volume of 200x200x200 m, while the optical force feedback loop measures the forces acting on the printing tip and allows real-time monitoring of the printing process and ensuring completion of each voxel until the complete object is constructed.
Such in-situ control of the printing process leads to high-quality metal microstructures that are immediately ready for use without the need for any post-processing.
Continue reading: Determining the Viscosity of Nanofluids: Techniques and Applications
Li, M., et al. (2022) FluidFM for single-cell biophysics. Nano Res. 15, 773786. Available at: https://doi.org/10.1007/s12274-021-3573-y
P. Monnier et al. (2021) FluidFM nano-injection overcomes delivery limitations of current CRISPR gene editing methods, accelerates cell line development cycles, and is poised to significantly broaden multiplexing capabilities. [Online] CRISPR Medicine News. Available at: https://crisprmedicinenews.com/news/fluidfm-nano-injection-overcomes-delivery-limitations-of-current-crispr-gene-editing-methods-accele (Accessed on 11 March 2022)
Saha, P., et al. (2020) Fundamentals and Applications of FluidFM Technology in Single-Cell Studies. Adv. Mater. Interfaces 7, 2001115. Available at: https://doi.org/10.1002/admi.202001115
C. Scott (2017) Cytosurge Develops Nanoscale FluidFM into Consumer-Friendly 3D Printing Process [Online] 3DPrint.com. Available at: https://3dprint.com/180243/cytosurge-eth-zurich-fluidfm (Accessed on 11 March 2022)
Meister, A., et al. (2009) FluidFM: Combining Atomic Force Microscopy and Nanofluidics in a Universal Liquid Delivery System for Single Cell Applications and Beyond. Nano Letters 9 (6), 2501-2507. Available at: https://doi.org/10.1021/nl901384x
Disclaimer: The views expressed here are those of the author expressed in their private capacity and do not necessarily represent the views of AZoM.com Limited T/A AZoNetwork the owner and operator of this website. This disclaimer forms part of the Terms and conditions of use of this website.
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Charoen Pokphand Foods Public : CP Foods reaffirms commitment on good animal welfare practices and prudent use of antimicrobials with BBFAW ranking -…
Posted: at 8:06 pm
CP Foods reaffirms commitment on good animal welfare practices and prudent use of antimicrobials with BBFAW ranking
The Business Benchmark of Farm Animal Welfare (BBFAW) has maintained Charoen Pokphand Foods PLC (CP Foods) in Tier 3 for the 2nd year in a row. The BBFAW also highlight the company's overarching policy, strong commitments towards animal welfare and involvement in industry initiatives.
BBFAW Report is an annual ranking of corporate report on animal welfare practices, policies, and management, assessing of 150 leading food producers and distributors across the world. Key criteria assessment included 1. Management Commitment and Policy 2. Governance and Management 3. Innovation and Leadership and 4. Performance Reporting and Impact.
Dr. Payungsak Somyanontanakul (D.V.M.), vice president and head of Animal Welfare Committee of CP Foods said that the company has been ranked at Tier 3 for 2 consecutive years, where animal welfare's policy with the score is above the sector's average in many aspects. The success is thanks to the company's overarching policy, covering important issues such as prudent use of antimicrobials in livestock and aquaculture businesses, and "Five-freedom"-based farming practice.
To ensure a good quality of life for the animal, CP Foods has made a full commitment against genetic engineering or cloning as well as having commitment on environmental enrichment. Also, Smart farms and automation have been used to improve the animal wellbeing and biosecurity measures.
The company is being praised for its contribution to industry initiatives such as taking a role as a member of the 3Ts-Alliance (Teeth, Tails and Testicles), organized by the World Animal Protection. The objective of the initiative is to reduce pain in swine in the global swine industry through gathering knowledge and experience from relevant experts around the world.
CP Foods is also progressing toward the group gestation pen. According to the latest data, around 43% and 15% of sow farms in Thailand and overseas respectively have already switched to group gestation pen respectively. The company commits 100% of the gestation sow farms are transitioning towards the group gestation pen with internationally recognized animal welfare practices by 2025 for Thailand operation and by 2028 for international operations.
Due to higher demand for high animal welfare products, the company targets to increase the production of cage-free eggs to 20 million this year, an increase of 4 million from the previous year.
Moreover, CP Foods is determined to produce safe and quality foods that adhere to sustainability principles through the responsible and prudent use of antibiotics in both its farms and those under the Contract Farming Scheme. Accordingly, the farming practices must be 1. Free from human-only antibiotics, 2. Free from shared-class antibiotics which are important in human medicine with the purpose of growth promotion, and 3. Free from hormones with the purpose of growth promotion.
CP Foods is committed to raising animal welfare practice in line with international standards, "Kitchen of the World" vision and CPF 2030 Sustainability in Action. Subsequently, the company emphasizes the farming process with animal welfare principles and applies farming technology to produce and deliver safe food to consumers around the world.
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Stage Set for Psychedelics Stock Boom: Here’s Where …
Posted: at 8:05 pm
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For the nascent psychedelics sector, 2021 was the year when foundations were established for a future that may hold impressive payoffs. It remains to be seen if those payoffs will materialize in 2022, or if theyll take a little longer, but signs appear positive for a potentially strong growth market, according to new report.
How To Invest In Stocks:A Beginners GuideAlso Learn:Ways Investing Will Change in the Next 25 Years
The Defiance ETFs report notes that drivers for the growth include legislative changes toward psychedelics, investments rising for example, Peter Thiel backing the psychedelic start-up Atai Life Sciences as well as some clinical trials reporting positive results, and the rise in demand and acceptance of psychedelics-based treatments.
While theres a range of different predictions for the psychedelics market in the next few years, they share a positive trend. DataBridge predicts that the U.S. market for psychedelics will grow at a CAGR of 11.5% between 2021 and 2026, reaching $6.4 billion by 2028, while Research and Markets forecasts the global market to rise at 14.5% CAGR from $3.2 billion in 2021 to $6.3 billion in 2026, the report notes.
Its clear that analysts expect the market to grow dramatically, even if they disagree about the precise size of that growth, according to the report.
Sylvia Jablonski, CIO and co-founder of Defiance ETFs, told GOBankingRates that there are more than 2 billion people with untreated mental health disorders, and that number is growing.
Nearly 30% of mental health patients have not found a cure, or a treatment that worked for them in the realm of conventional therapies, and have often given up, Jablonski said. Billions of dollars have been spent fighting mental illness, but there hasnt been a cure that works for all patients. However, clinical research done by some of the most esteemed academic institutions and research groups like MAPS [Multidisciplinary Association for Psychedelic Studies] or Hopkins, to name a few, have proven that psychedelic-based medicines can revolutionize treatments, and provide potential cures to patients.
Read: How Much Will Pfizer and Moderna Be Worth by the End of 2022?
She explained that psychedelics essentially help the patient, guided by a medical professional, to a path where the brain rewires itself and allows for paradigm shifts which have led to lifelong disease control or even cure.
Investing in psychedelic firms now could be an opportunity to capture the beginning stages of what is looking to be on the path of a healthcare revolution, she said.
She added that these could be good value plays in the biotech/healthcare space, which is also a potential defensive play, like consumer staples, an improving or failing economy doesnt mean people wont get sick and need therapy, she added.
Some stocks to consider, she said, include Mind Medicine, which is focused on LSD and the psychedelic drug ibogaine, which targets depression, anxiety, attention deficit and addiction. The stock is also in the top psychedelic stocks recommended by the Motley Fool, which puts the companys valuation at $1 billion.
Compass Pathways is another stock to consider, Jablonski said, as it is well funded. The Motley Fool said the drugmaker is conducting the largest clinical trial in history of a psilocybin therapy with its phase 2 study evaluating COMP360 in treatment-resistant depression.
COMP360 is Compass Pathways only pipeline candidate right now. However, its one of the most advanced of all the psychedelic drugs in development, with the potential to move into late-stage clinical testing in 2021, according to The Motley Fool.
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In May 2021, Defiance ETFs launched the first US-listed psychedelics ETF, which is listed on the New York Stock Exchange under the ticker PSY, and tracks The BITA Medical in Psychedelics, Cannabis, and Ketamine Index, according to the funds prospectus.
Companies included in the index must have a minimum market capitalization of $75 million and operate in the production, distribution or services related to medical psychedelics, medical cannabis or other medicinal drugs and their derivatives.
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Yal Bizouati-Kennedy is a former full-time financial journalist and has written for several publications, including Dow Jones, The Financial Times Group, Bloomberg and Business Insider. She also worked as a vice president/senior content writer for major NYC-based financial companies, including New York Life and MSCI. Yal is now freelancing and most recently, she co-authored the book Blockchain for Medical Research: Accelerating Trust in Healthcare, with Dr. Sean Manion. (CRC Press, April 2020) She holds two masters degrees, including one in Journalism from New York University and one in Russian Studies from Universit Toulouse-Jean Jaurs, France.
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The Insights Psychedelics Give You Arent Always True
Posted: at 8:05 pm
In 1966, researchers at the International Foundation for Advanced Study in California gave mescaline to 27 men who were engineers, physicists, mathematicians, architects, furniture designers, and artists.
While on the drug, one came up with a new conceptual model of a photon particle; another envisioned a new approach to the design of a vibratory microtome, a lab instrument that cuts material into small slices; and an architect produced a design for a home that was later approved by his client. The mescaline seemed to help facilitate creative problem-solving, particularly in the illumination phase, the researchers wrote.
These kinds of stories are common in psychedelic folklore, leading to the belief that psychedelic compounds lead to Aha or eureka moments, and that answers can be revealed during a trip in one fell swoop. Besides understanding particle physics, people often feel like they receive knowledge about themselves or the nature of the universe.
In his 1902 book, The Varieties of Religious Experience, William James wrote that one feature of a mystical-type experience is this noetic quality, or a feeling of deep knowing. They are illuminations, revelations, full of significance and importance, all inarticulate though they remain; and as a rule they carry with them a curious sense of authority, he wrote.
But how can we tell if the insights received while under psychedelics are true? In a recent talk for the UCL Society for the Application of Psychedelics, Johns Hopkins cognitive neuropsychopharmacologist Manoj Doss said its likely that psychedelics can evoke illusory insights, or the feeling of a profound insight that is misattributed to ideas that arise during a psychedelic experience.
This too, James was familiar with. After inhaling a large amount of nitrous oxide, or laughing gas, James wrote furiously on the topic of Hegelian dialectics, a complex kind of philosophical argument. At the moment of transcribing, his thoughts were fused in the fire of infinite rationality, he wrote. But when he was sober again, his revelatory insights were incomprehensible. Meaningless drivel, James called them. He published an excerpt from his notebook in the journal Mind:
What's mistake but a kind of take?
What's nausea but a kind of -usea?
Sober, drunk, -unk, astonishment.
Everything can become the subject of criticism
How criticise without something to criticise?
Agreementdisagreement!!
Emotionmotion!!!!
By God, how that hurts! By God, how it doesn't hurt!
Understanding the nature, and veracity, of psychedelic insights will be crucial if these drugs are to be taken by more and more people, especially those who will seek them out to have insights that better their mental health and well-being.
Luckily, insights, or "Aha moments," have been studied by psychologists outside of psychedelic research for decades. Insights have been found to be unique cognitive phenomena that are often associated with correct solutions to problems, but within insight research, theres also been recent work on false insights: insights that feel real, but are objectively incorrect.
False insights can be induced in the lab through some simple tricks, and feelings of insight can spill over in how people regard other worldviews and factsmaking untrue facts or extreme beliefs seem more true, a subject highly relevant to psychedelics. The feeling of insight does not guarantee that an insight is correct. Certainly not all psychedelic insights will be false, but recognizing that they probably wont all be true either, despite how they feel, makes room for problematic insights to be tested, and not simply accepted as untouchable truth.
An Aha moment is the experience of suddenly believing you understand something, or suddenly solving a problem that you've previously been unable to solve. A classic example comes from the life of Archimedes, the Greek mathematician, physicist, and astronomer. Archimedes was asked to determine if a gold crown made for King Hieron II had been mixed with silver, rather than made with pure goldbut the king didnt want Archimedes to damage or melt down the crown while figuring it out.
Puzzling over how to do this, Archimedes took a bath. He noticed that the water splashed onto the floor when he got in, displaced by the volume of his body. In a flash of insight, he realized he could compare the crowns volume in water to another piece of gold or silver with the same mass, and compare the density.
A person doesnt need to come up with a brilliant solution, like Archimedes did, for an Aha moment to exist, said Jonathan Schooler, a psychologist at the University of California in Santa Barbara. What characterizes it is that abrupt feeling of truth.
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John Kounios, a professor of psychological and brain sciences at Drexel University and coauthor of The Eureka Factor, has shown through brain imaging and behavioral experiments that insights do seem to be the result of a real and distinct kind of emotional and cognitive process, not just a typical new idea with an emotional flourish tacked onto it.
There is also research showing that when an Aha moment accompanies a solution, it's more likely to be right, said Ruben Laukkonen, a postdoctoral fellow at The Vrije Universiteit Amsterdam. In studies using a task called the remote associates, people are given three words, and they have to come up with a corresponding fourth word. When people solve these problems, sometimes they have an Aha moment and a solution pops into their mind. Other times, they solve it through more slow and careful analysis. In these studies, if people had an Aha moment, they were more likely, on average, to have gotten the correct answer.
People may have learned that this Aha feeling is often associated with correct solutions throughout their lives, Kounios said. It might be why when people have an idea that feels like an Aha, and it's accompanied with a sense of profundity, theyre more likely to think those ideas are true. When we have Aha moments, we often treat its content as sacred. James Joyce wrote in Stephen Hero, his posthumously published autobiographical novel, that epiphanies must be recorded with extreme care, seeing that they themselves are the most delicate and evanescent of moments.
But even in those laboratory studies, Laukkonen said, false insights were lurking amongst the true ones. False insights were when people had the same feeling of sudden knowing, but what they knew wasnt correct. Researchers have mostly followed and tried to characterize true insights, but recent work has turned to examine these false insights.
In 2020, Laukkonen and colleagues gave people an anagram to solve, and then presented them with a fact that was either true or false. When people successfully unscrambled the letters in the anagram, and felt an Aha moment doing so, they were more likely to think that false facts were truemisattributing the Aha feeling from the anagram to whatever the fact was.
This worked for world views, too: people were more likely to endorse statements like free will is an illusion if they were given a key word, like illusion, in a scrambled format first. If we elicit a little insight experience, even using something as trivial as an anagram, that feeling that is elicited can color anything that's happening at that moment, Laukkonen said. The feeling of insight could essentially be moved around and put onto other things.
In another recent study from this year, Hilary Grimmer, a PhD candidate at The University of Queensland, Laukkonen, and others were able to elicit an Aha feeling in people who were objectively having a false insight.
People were given a list of words that all shared an association, like wheelbarrow, seedlings, glove, and soil. Then, they were given an anagram that looked like a word that would belong with that list, but actually didnt. For example, paired with the list of gardening words, they would be given the anagram for endanger, which shares a lot of letters with the word "gardener." People would solve the anagram as "gardener," and feel like they had an Aha moment even though their solution was incorrect.
These studies showed different kinds of false insights: In one, people who had a true Aha moment from solving an anagram misattributed that feeling to other, untrue, facts. In Grimmers study the Aha moment occurred around a solution that was objectively wrong. But both reveal how the feeling itself of the Aha moment isnt always paired with the truth.
"It seems like that feeling can just exist on its own," Grimmer said. "We can have the same feeling of insight, regardless of actual truth."
People on psychedelics wont be solving anagrams and responding to facts; their insights will be more complex, and so will the contexts around them. But knowing that the feeling of insightfulness can be elicited with false information, or moved around and applied to unrelated information, is essential when considering insights that come from psychedelics.
Doss thinks a number of factors could make psychedelic experiences a breeding ground for the feeling of false insight or knowing. Studies have found that in a psychedelic experience, words or concepts that wouldnt typically be associated can be relatable. While the people in Grimmers study were misled to think gardener based on the gardening words, this could mean that more tenuous associations could prime people to have false insights while in an altered state.
People can be set up to expect true insights, based on what they're told at the outset of a trip. When people are told under psychedelics that they will come up with certain insights, you're going to be more inclined to attribute the feeling of insight to the truthiness of ideas that you might come up with, Doss said. I think all these things kind of come together in a perfect storm to potentially create something that feels very real but doesn't necessarily have to be."
People might have different thresholds, even under sober conditions, for how much information they need to have an Aha moment. You might have 10 pieces of information in your head and if all 10 of them snap together, you have this coherent insight about something, Kounios said. But what if only nine of them snap together, or eight of them snap together?" Its possible that psychedelics could lower that threshold, Kounios said, to create Aha moments with less input.
Another important lesson from insight research is that some people may be more swayed by insights, and the positive feeling that comes with them. In 2020, Kounios and his colleagues used electroencephalography (EEG) to measure brain activity when people solved anagrams with Aha moments, finding that in the moment of insight, there was a sudden burst of high frequency brainwaves.
Some people in the study were high in a personality trait called reward sensitivity, a trait that is found in thrill seekers and others motivated by pleasure. In those people, there was another burst of brain activity a tenth of a second after the insight in the brains reward system, the same area that is engaged when people eat delicious food, take addictive drugs, or have orgasms. People who were not high in reward sensitivity didnt exhibit this. Kounios said it suggests that some people can have an insight without always having the feeling of pleasure or emotion alongside it.
Though the study didnt collect subjective reports, Kounios said that anecdotally, those who were high in reward sensitivity got really into the tests, and thought they were fun. People like having insights, Kounios said. Its why a lot of people like to do crossword puzzles, read murder mysteries, have creative hobbies, do researchthey get a thrill from Aha moments.
David Yaden, a postdoctoral fellow at Johns Hopkins who studies the subjective effects of psychedelics, thinks that its important to parse out the different kinds of Aha moments that different people may have while on psychedelics.
Not all insights can be tested, the way an anagram can be right or wrong. A person might have insights about the nature of reality or about their life, like realizing they should quit their job, or move to a different city; these kinds of insights will be hard to measure.
But there are others, like the predictions of events that may or may not happen, which could be tested. Creative insights could be judged by others for their novelty and usefulness. Simply put: before making the claim that psychedelics lead to more true insights across the board, that should be measured.
Psychedelic insights could also be assessed for an alignment with therapeutic goals or overall well-being. If a person has the insight that theyre not worthless, or that they are connected to others, that might align with the goal of improving depression symptoms.
These kinds of insights might not be falsifiable, but could be valuable to a person for their healing process, Laukkonen said. But in the cases when an insight feels real, but isnt helpful or true, the fact that the feeling is separate from the content can be useful, especially in responding to complex or traumatizing experiences, or pushing back on the guru effect, when people have insights that feel very authentic about their position over other people, or their reasons to cross ethical boundaries.
There's certain types of insights that I think that people need to be very cautious with, Doss said.
Not all psychedelic insights will be false, and many may be true insights, or just helpful, unfalsifiable ones. But knowing that the feeling of insight is able to be disentangled from the content of the insight itself is importantit paves the way for critical thinking and examination of an insight later on.
It can be difficult to question epiphanies that come with an Aha feeling, and they may be subjected less to ethical or critical analysis, Yaden said. Grimmer said that insight moments, under sober conditions, are more closely held onto. They have a memory advantage, people remember solutions that came with an Aha.
Some people suggest that once we've had an Aha moment, whether it's true or false, some amount of us will kind of always believe it because of that unique way with which it arrives in our consciousness, Grimmer said. They seem kind of sticky.
But all insights, true and false, should lead to more examination after the Aha momentwhether it occurs on psychedelics or not. It goes along with an idea that it's important to have epistemic humility, Yaden said, meaning we should be humble about our knowledge and what we think we know. The noetic quality doesn't excuse not having epistemic humility.
And checking an insight doesn't diminish the value of Aha moments. It just means that like any other thing that people do, it can be wrong, Kounios said. Ive always told my kids in school: when you do a math problem, check your results. The same logic should be applied to insights. If you have an Aha moment, check it. What do you have to lose?
Schooler agreed that insights should be revisited later on. When Archimedes had his idea, he still had to put the crown in water and see if he could actually calculate it, he said. It's important not to just stop at the epiphany phase.
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