Molecular diagnostics a closer look at sample to answer

March 9, 2019 | 18 views

How to overcome challenges like inefficient workflow and a lack of suitably trained staff is the question increasingly facing laboratories in markets ranging from diagnostics to food and beverages. Could sample-to-answer systems be the answer? Molecular diagnostics, used to test specific sequences in DNA or RNA that might be associated with disease, is growing rapidly.

Spotlight

HEI Health

HEI Health is a healthcare re-engineering organization whose passion, over the last 20 years, has been solving the most complex and challenging problems faced in healthcare. Whether it is improving patient's experience and access to care, solving the challenge of physician burnout, implementing a one-stop does it all “schegistration” model or improving revenue cycle collections, our team of experts can lead you towards the solutions you want.

OTHER ARTICLES
RESEARCH

2022 U.S. Market Research Report with COVID-19 Forecasts2

Article | July 11, 2022

The global biotechnology market is expected to grow at a compound annual growth rate (CAGR) of 13.9 percent from 2022 to 2030, with a value estimated at USD 1,023.92 billion in 2021. The market is being propelled by strong government support in the form of initiatives aimed at modernizing the regulatory framework, improving approval processes and reimbursement policies, and standardizing clinical studies. The growing presence of personalized medicine and an increasing number of orphan drug formulations are opening up new avenues for biotechnology applications and driving the influx of emerging and innovative biotechnology companies, which is driving market revenue even further. The 2022 Biotech Research and Development Market Research Report is one of the most comprehensive and in-depth assessments of the industry in the United States, containing over 100 data sets spanning the years 2013 to 2026. This Kentley Insights report contains historical and forecasted market size, product lines, profitability, financial ratios, BCG matrix, state statistics, operating expense details, organizational breakdown, consolidation analysis, employee productivity, price inflation, pay bands for the top 20 industry jobs, trend analysis and forecasts on companies, locations, employees, payroll, and much more. Companies in the Biotech Research and Development industry are primarily engaged in biotechnology research and experimental development. Biotechnology research and development entails the investigation of the use of microorganisms and cellular and bimolecular processes to create or modify living or non-living materials. This biotechnology research and development may result in the development of new biotechnology processes or prototypes of new or genetically altered products that can be replicated, used, or implemented by various industries. This report was created using the findings of extensive business surveys and econometrics. The professionals follow reports with accurate and apt information on market sizing, benchmarking, strategic planning, due diligence, cost-cutting, planning, understanding industry dynamics, forecasting, streamlining, gap analysis, and other ana

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MEDICAL

Biotech in 2022

Article | August 2, 2021

The robust global channel of more than, 800 gene and cell curatives presently in trials will produce clinical readouts in 2022, revealing what lies ahead for advanced curatives. The impact will be felt in 2022, no matter how you slice it. Eventually, how well industry and non-supervisory bodies unite to produce new frameworks for advanced therapies will shape the year 2022 and further. Pacific Northwest talent will continue to contribute to the advancement of gene and cell curatives in both the short and long term, thanks to its deep pool of ground-breaking scientific developers, entrepreneurial directorial leadership, largely skilled translational scientists, and endured bio manufacturing technicians. We may see continued on-life science fund withdrawal from biotech in 2021, but this can be anticipated as a strong comeback in 2022 by biotech industry, backed by deep-pocketed life science investors who are committed to this sector. A similar investment, combined with pharma's cash-heavy coffers, can result in increased junction and acquisition activity, which will be a challenge for some but an occasion for others. Over the last five years, investment interest in Seattle and the Pacific Northwest has grown exponentially, from Vancouver, British Columbia, to Oregon. The region's explosive portfolio of new biotech companies, innovated out of academic centres, demonstrates the region's growing recognition of scientific invention. This created a belief that continued, especially because Seattle's start-ups and biotech enterprises are delivering on their pledge of clinical and patient impact. Talent and staffing will continue to be difficult to find. It's a CEO's market, but many of these funds' return, and are not rising in proportion to the exorbitant prices they're paying to enter deals. This schism has become particularly pronounced in 2021. Hence, everyone in biotech is concerned about reclamation and retention.

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MEDTECH

Next-Gen Genetics Cancer Therapies Creating Investment Prospects

Article | July 5, 2022

Genetic therapeutics such as genetic engineering and gene therapy are increasingly emerging as one of the most influential and transformed biotechnological solutions around the globe in recent times. These genetic solutions are being assessed across various medical domains, including cancer treatment, neurology, oncology, and ophthalmology. Citing the trend, the genetics industry is estimated to experience a tsunami of approvals, with over 1,000 cell and gene therapy clinical trials currently underway and over 900 companies worldwide focusing on these cutting-edge therapies. Growing Cancer Encourages Advancements in Genetic Technologies With the surging cases of cancers such as leukemias, carcinomas, lymphomas, and others, patients worldwide are increasing their spending on adopting novel therapeutic solutions for non-recurring treatment of the disease, such as gene therapy, genetic engineering, T-cell therapy, and gene editing. As per a study by the Fight Cancer Organization, spending on the treatment of cancer increased to $200.7 billion, and the amount is anticipated to exceed $245 billion by the end of 2030. Growing revenue prospects are encouraging biotechnology and biopharmaceutical companies to develop novel genetic solutions for cancer treatment. For instance, Bristol-Myers Squibb K.K., a Japanese pharmaceutical company, introduced a B-cell maturation antigen (BCMA)-directed chimeric antigen receptor (CAR) T cell immunotherapy, Abecma, for the treatment of relapsed or refractory (R/R) multiple myeloma in 2022. Amid a New Market: Genetics Will Attract Massive Investments Despite several developments and technological advancements, genetics is still considered to be in a nascent stage, providing significant prospects for growth to the companies that are already operating in the domain. Genetics solutions such as gene therapies, gene editing, and T-cell immunotherapy are emerging as highly active treatments across various medical fields, resulting in increasing research and development activities across the domain, drawing significant attention from investors. Given the potential of genetic treatments and the focus on finding new ways to treat cancer and other related diseases, it's easy to understand why companies are investing in the domain. For instance, Pfizer has recently announced an investment of around $800 million to construct development facilities supporting gene therapy manufacturing from initial preclinical research through final commercial-scale production. Due to these advancements, cell and gene therapies are forecast to grow from $4 billion annually to more than $45 billion, exhibiting growth at a 63% CAGR. The Future of Genetics Though there is a significant rise in advancement in genetic technologies and developments, the number of approved genetic treatments remains extremely small. However, with gene transfer and CRISPR solutions emerging as new modalities for cancer treatment, the start-up companies will attract a growing amount and proportion of private and public investments. This is expected present a tremendous opportunity for biopharma and biotechnology investors to help fund and benefit from the medical industry's shift from traditional treatments to cutting-edge genetic therapeutics in the coming years.

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MEDICAL

Advancement in Genomics Accelerating its Penetration into Precision Health

Article | June 22, 2022

Genomics is an interdisciplinary field of biology emphasizing the structure, editing, evolution, function, and mapping of genomes. It is creating deeper inroads across the precision health domain with the increasing introduction of advanced technologies such as quantum simulation, next-generation sequencing (NGS), and precise genome manipulation. As precision health focuses on providing the proper intervention to the right patient at the right time, genomics increasingly finds applications in human and pathogen genome sequencing in clinical and research spaces. Rising Hereditary Diseases Burden Paving the Way for Genomics in Precision Health In the last few years, a significant surge in the prevalence of diseases and ailments such as diabetes, obesity, baldness, and others has been witnessed across the globe. A history of family members with chronic diseases, such as cancer, diabetes, high blood pressure, hearing issues, and heart disease, can sometimes continue into the next generation. Hence, the study of genes is extensively being conducted for predicting health risks and early treatment of these diseases. It also finds use in CRISPR-based diagnostics and the preparation of precision medication for the individual. In addition, ongoing advancements in genomics are making it possible to identify different genetic traits that persuade people to more widespread diseases and health problems. The Emergence of Genomics Improves Disease Understanding Genomics refers to the study of the complete genetic makeup of a cell or organism. Increasing scientific research in the area substantially contributes to increasing knowledge about the human genome and assists in improving the ability to understand disease etiology, risk, diagnosis, treatment, and prevention. On account of these improvements, innovative genomic technologies and tools are being developed to enable better precision health not only for the individual but for various regional populations as well. The Way Forward With growing preference for personalized medicine and an increasing need for more accurate pathogen detection and diagnostics, genomics is gaining huge popularity across the precision health domain. Also, increasing research activities for developing novel high-precision therapeutics and rising importance of gene study in the prevention, diagnosis, and management of infectious and genetic diseases will further pave the way for genomics in the forthcoming years.

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Spotlight

HEI Health

HEI Health is a healthcare re-engineering organization whose passion, over the last 20 years, has been solving the most complex and challenging problems faced in healthcare. Whether it is improving patient's experience and access to care, solving the challenge of physician burnout, implementing a one-stop does it all “schegistration” model or improving revenue cycle collections, our team of experts can lead you towards the solutions you want.

Related News

CELL AND GENE THERAPY

CSL Plasma Reimagines Donor Experience With First Donations Completed on Innovative Plasma Collection Technology

CSL Plasma | August 08, 2022

CSL Plasma, the plasma collection business of global biotherapeutics leader CSL Behring, began a new era in plasma donations, collecting its first plasma donations using leading-edge plasma collection technology that is expected to significantly reduce average collection time – by approximately one-third – and improve the donor experience. The Rika Plasma Donation System, only available at CSL Plasma and developed by Terumo Blood and Cell Technologies, is designed to reduce collection time, and improve the donor and operator experience. When considering prior average CSL Plasma donation procedure times, this could represent about a 30% reduction in average donation time for donors. The new plasmapheresis system first launched today in the Aurora, Colorado, CSL Plasma location, as part of a phased rollout to CSL Plasma U.S. collection centers. Plasma collected at CSL Plasma facilities is used in the manufacturing of lifesaving plasma-derived therapies. "Today marks a threshold moment for plasma donors following years of dedication, innovation and collaboration – demonstrating how we are driven by our promise in delivering lifesaving and life-extending therapies to patients around the world. We look forward to the positive impact this new technology brings and are thankful for plasma donors who continue to do the amazing every day when they donate at CSL Plasma." CSL Chief Operating Officer Paul McKenzie CSL Plasma believes features of the new Rika system can enable the collection of more plasma, in shorter periods of time, supporting quality and safety, and, ultimately, better serving patients who rely on plasma-based therapies. One of the first plasma donors to experience the Rika system, Kelly Geiser is a resident of the Denver area. She has donated plasma since 2017, and is a Platinum level donor as part of CSL Plasma's donor loyalty program, iGive Rewards®. Geiser appreciated that she was able to complete the donation procedure with the new technology in under 35 minutes and in the fastest donation time she has experienced, while every plasma donor's experience will vary. Donating plasma is also personal for Geiser, who says that therapies made from plasma have helped her and her family, including a parent who recently underwent emergency surgery. "It feels good knowing I'm helping people and, who knows, I might've helped somebody I know," said Geiser. According to Terumo BCT, benefits of the Rika Plasma Donation System include Rika completes one plasma collection in 35 minutes or less on average. The proprietary design of the system's centrifuge maximizes the plasma yield per cycle. The Rika Plasma Donation System was designed to allow no more than 200 milliliters of blood cells outside the donor's body, resulting in a low extracorporeal volume, which may contribute to a more comfortable donor experience. With less than 200 milliliters of blood cells outside the donor's body at any given time, should the initial procedure not be completed, the donor can return and donate without being deferred. The device is designed with an advanced user interface to guide CSL Plasma front-line employees. Operators can quickly and confidently resolve alarms, thanks to guidance provided on the Rika system's touchscreen, which also alerts operators about situations that require attention and provides suggested actions to resolve the situation. The system allows for real-time data analytics to drive device maintenance and repairs. CSL Plasma is implementing the new devices at Colorado centers and then expanding to other U.S. locations, providing donors more opportunities to "do the amazing" and be rewarded for their generosity. "As a long-time leader in our industry, CSL Plasma looks forward to this new plasmapheresis technology to delight our plasma donors and attract new donors while supporting a better operating experience for our employees," said Walter Charles, CSL Plasma Senior Vice President and General Manager. "As we complete the implementation of new technology at U.S. centers, we continue to address the critical and ongoing need for human plasma to produce life-saving medicines for people with serious and rare diseases." About CSL Plasma CSL Plasma operates one of the world's largest and most sophisticated plasma collection networks, with more than 300 plasma collection centers in the U.S., Europe and China. Headquartered in Boca Raton, Florida, CSL Plasma is a subsidiary of CSL Behring, a global biotherapeutics company and a member of the CSL Group of companies. Plasma collected at CSL Plasma facilities is used by CSL Behring for the sole purpose of manufacturing lifesaving plasma-derived therapies for people in more than 100 countries. The parent company, CSL Limited headquartered in Melbourne, Australia, employs more than 25,000 people. About CSL Behring CSL Behring is a global biotherapeutics leader driven by our promise to save lives. Focused on serving patients' needs by using the latest technologies, we discover, develop and deliver innovative therapies for people living with conditions in the immunology, hematology, cardiovascular and metabolic, respiratory, and transplant therapeutic areas. We use three strategic scientific platforms of plasma fractionation, recombinant protein technology, and cell and gene therapy to support continued innovation and continually refine ways in which products can address unmet medical needs and help patients lead full lives.

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INDUSTRIAL IMPACT

AbCellera and Atlas Venture Collaborate to Empower the Development of Impactful Medicines for Patients

AbCellera and Atlas Venture | August 04, 2022

AbCellera and Atlas Venture announced a multi-target partnership to discover therapeutic antibodies for up to three drug targets that can be developed and commercialized by a stealth-stage Atlas-backed company. The collaboration leverages Atlas’ proven track record in forming innovative biotechnology companies and AbCellera’s unique ability to quickly deliver lead drug candidates to bring transformational new medicines to patients faster. "AbCellera’s clinically validated platform lets us start discovery in a virtualized model that aligns well with our capital efficient investment strategy. This partnership supports our approach to value creation by allowing us to focus on building companies that aim to deliver impactful medicines to patients.” Steven Robinette, Ph.D., Venture Partner at Atlas Venture “Atlas has proven expertise in finding and transforming innovative scientific research into exciting new biotechs,” said Carl Hansen, Ph.D., CEO and President of AbCellera. “By eliminating their need to build internal antibody discovery capabilities at inception, we provide newly launched biotech ventures with a competitive advantage that empowers them to move faster and increase their probability of success. We look forward to working alongside Atlas’ entrepreneurs to unlock their breakthrough science and create new therapies for patients in need.” Under the terms of the agreement, Atlas’ portfolio company will have the right to develop and commercialize therapeutic antibodies resulting from the collaboration. AbCellera will receive research payments and will be eligible to receive clinical and commercial milestone payments and royalties on net sales of products. About Atlas Venture Atlas Venture is a leading biotech venture capital firm. With the goal of doing well by doing good, we have been building breakthrough biotech startups for over 25 years. We work side by side with exceptional scientists and entrepreneurs to translate high impact science into medicines for patients. Our seed-led venture creation strategy rigorously selects and focuses investment on the most compelling opportunities to build scalable businesses and realize value. About AbCellera Biologics Inc. AbCellera is a technology company that searches, decodes, and analyzes natural immune systems to find antibodies that its partners can develop into drugs to prevent and treat disease. AbCellera partners with drug developers of all sizes, from large pharmaceutical to small biotechnology companies, empowering them to move quickly, reduce cost, and tackle the toughest problems in drug development.

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MEDTECH

Synthego Launches Engineered Cell Libraries to Validate Targets with Speed and Accelerate Drug Discovery

SYNTHEGO | August 03, 2022

Synthego, the genome engineering company, announced the launch of Engineered Cell Libraries, a novel offering that further enables access to CRISPR by providing arrayed CRISPR-edited cells for direct use in functional screening assays. The innovative solution leverages Synthego’s Eclipse™ Platform. This high-throughput cell engineering platform delivers cell-based models for disease research by providing highly predictable CRISPR-engineered cells at scale through the integration of engineering, bioinformatics, and proprietary science. Synthego’s Engineered Cell Libraries provide unparalleled speed, scalability, and efficiency to accelerate the drug discovery process by enabling a faster path between experimental design and execution. As the newest addition to Synthego's Engineered Cells product line, the offering is a custom arrayed library of multi-guide™ knockout cell pools (immortalized or iPSC) delivered ready-made to researchers, efficiently enabling them to bypass the need for equipment and reagent sourcing, transfection, generation of an extensive CRISPR library, and hiring and training of staff. This allows researchers to overcome common hurdles associated with CRISPR-based target discovery and focus specifically on the science. “Arrayed screening approaches are more sensitive, compatible with a broader assortment of downstream assays, and can yield data that is more readily interpretable than the more commonly used pooled approach but are underutilized due to lack of infrastructure and limited bandwidth. With Engineered Cell Libraries, Synthego continues to provide transformative solutions for accelerated drug discovery which ultimately can bring a wider range of therapeutics to market faster.” Travis Maures, Synthego’s Chief Technology Officer With Engineered Cell Libraries, scientists specify the human or mouse cell type (Immortalized or iPSC available at launch) and gene targets they desire to knockout to generate a custom “Knockout Cell Library.” The cells are then edited on Synthego’s Eclipse Platform, which handles guide design, cell line optimization, editing through transfection, and assessment of editing efficiencies, so cells are ready to screen upon arrival. Engineered Cell Libraries on the Eclipse Platform additionally benefit customers with Scalability and flexibility - Engineered Cell Libraries allow researchers to maximize their screening power and identify more targets earlier in the screening process. Predictability and transparency - Synthego’s multi-guide™ technology achieves reliably high knockout efficiencies so researchers can confidently proceed with their screens. Cell engineering expertise and support - Synthego uses its expertise to bring automation innovation that provides greater consistency in outcomes and scalability. Synthego’s Eclipse Platform and Engineered Cell Libraries enable a wide range of applications in research and development across various disease areas and research disciplines such as oncology and neurology. Engineered Cell Libraries were employed in a recent study that used genetic screening to identify host factors that either facilitate or inhibit infection by SARS-CoV-2 and that could potentially be targeted with existing drugs that have been approved for other indications. “We were able to quickly combine our proteomic expertise with Synthego's genome engineering capabilities in a matter of weeks,” said Nevan J. Krogan, Director, Quantitative Biosciences Institute, University of California, San Francisco. “Normally, work such as this would take many years. We were able to quickly pinpoint which human genes are important for infection, and that allowed us to jump to which ones if we were able to drug them, could have a positive pharmacological effect on SARS-CoV-2 infection. That whole pipeline allowed us to identify several potential drug candidates, several of which we're still looking at.” Ultimately, Synthego’s goal is to enable scientists to spend less time thinking about method development and more time running their functional assays. The addition of Engineered Cell Libraries is driving impact in biopharma research and development. ABOUT SYNTHEGO Synthego was founded to revolutionize genome engineering technology, helping translate genomics into the clinic and ultimately making engineered biological therapies accessible to all patients. The company leverages machine learning, automation, and gene editing to build platforms for science at scale. With its foundations in engineering disciplines, the company’s platforms vertically integrate proprietary hardware, software, bioinformatics, chemistries, and molecular biology to advance both basic research and therapeutic development programs. With its technologies cited in more than a thousand peer-reviewed publications and utilized by thousands of commercial and academic researchers and therapeutic drug developers, Synthego is at the forefront of innovation enabling the next generation of medicines by delivering genome editing at an unprecedented scale.

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CELL AND GENE THERAPY

CSL Plasma Reimagines Donor Experience With First Donations Completed on Innovative Plasma Collection Technology

CSL Plasma | August 08, 2022

CSL Plasma, the plasma collection business of global biotherapeutics leader CSL Behring, began a new era in plasma donations, collecting its first plasma donations using leading-edge plasma collection technology that is expected to significantly reduce average collection time – by approximately one-third – and improve the donor experience. The Rika Plasma Donation System, only available at CSL Plasma and developed by Terumo Blood and Cell Technologies, is designed to reduce collection time, and improve the donor and operator experience. When considering prior average CSL Plasma donation procedure times, this could represent about a 30% reduction in average donation time for donors. The new plasmapheresis system first launched today in the Aurora, Colorado, CSL Plasma location, as part of a phased rollout to CSL Plasma U.S. collection centers. Plasma collected at CSL Plasma facilities is used in the manufacturing of lifesaving plasma-derived therapies. "Today marks a threshold moment for plasma donors following years of dedication, innovation and collaboration – demonstrating how we are driven by our promise in delivering lifesaving and life-extending therapies to patients around the world. We look forward to the positive impact this new technology brings and are thankful for plasma donors who continue to do the amazing every day when they donate at CSL Plasma." CSL Chief Operating Officer Paul McKenzie CSL Plasma believes features of the new Rika system can enable the collection of more plasma, in shorter periods of time, supporting quality and safety, and, ultimately, better serving patients who rely on plasma-based therapies. One of the first plasma donors to experience the Rika system, Kelly Geiser is a resident of the Denver area. She has donated plasma since 2017, and is a Platinum level donor as part of CSL Plasma's donor loyalty program, iGive Rewards®. Geiser appreciated that she was able to complete the donation procedure with the new technology in under 35 minutes and in the fastest donation time she has experienced, while every plasma donor's experience will vary. Donating plasma is also personal for Geiser, who says that therapies made from plasma have helped her and her family, including a parent who recently underwent emergency surgery. "It feels good knowing I'm helping people and, who knows, I might've helped somebody I know," said Geiser. According to Terumo BCT, benefits of the Rika Plasma Donation System include Rika completes one plasma collection in 35 minutes or less on average. The proprietary design of the system's centrifuge maximizes the plasma yield per cycle. The Rika Plasma Donation System was designed to allow no more than 200 milliliters of blood cells outside the donor's body, resulting in a low extracorporeal volume, which may contribute to a more comfortable donor experience. With less than 200 milliliters of blood cells outside the donor's body at any given time, should the initial procedure not be completed, the donor can return and donate without being deferred. The device is designed with an advanced user interface to guide CSL Plasma front-line employees. Operators can quickly and confidently resolve alarms, thanks to guidance provided on the Rika system's touchscreen, which also alerts operators about situations that require attention and provides suggested actions to resolve the situation. The system allows for real-time data analytics to drive device maintenance and repairs. CSL Plasma is implementing the new devices at Colorado centers and then expanding to other U.S. locations, providing donors more opportunities to "do the amazing" and be rewarded for their generosity. "As a long-time leader in our industry, CSL Plasma looks forward to this new plasmapheresis technology to delight our plasma donors and attract new donors while supporting a better operating experience for our employees," said Walter Charles, CSL Plasma Senior Vice President and General Manager. "As we complete the implementation of new technology at U.S. centers, we continue to address the critical and ongoing need for human plasma to produce life-saving medicines for people with serious and rare diseases." About CSL Plasma CSL Plasma operates one of the world's largest and most sophisticated plasma collection networks, with more than 300 plasma collection centers in the U.S., Europe and China. Headquartered in Boca Raton, Florida, CSL Plasma is a subsidiary of CSL Behring, a global biotherapeutics company and a member of the CSL Group of companies. Plasma collected at CSL Plasma facilities is used by CSL Behring for the sole purpose of manufacturing lifesaving plasma-derived therapies for people in more than 100 countries. The parent company, CSL Limited headquartered in Melbourne, Australia, employs more than 25,000 people. About CSL Behring CSL Behring is a global biotherapeutics leader driven by our promise to save lives. Focused on serving patients' needs by using the latest technologies, we discover, develop and deliver innovative therapies for people living with conditions in the immunology, hematology, cardiovascular and metabolic, respiratory, and transplant therapeutic areas. We use three strategic scientific platforms of plasma fractionation, recombinant protein technology, and cell and gene therapy to support continued innovation and continually refine ways in which products can address unmet medical needs and help patients lead full lives.

Read More

INDUSTRIAL IMPACT

AbCellera and Atlas Venture Collaborate to Empower the Development of Impactful Medicines for Patients

AbCellera and Atlas Venture | August 04, 2022

AbCellera and Atlas Venture announced a multi-target partnership to discover therapeutic antibodies for up to three drug targets that can be developed and commercialized by a stealth-stage Atlas-backed company. The collaboration leverages Atlas’ proven track record in forming innovative biotechnology companies and AbCellera’s unique ability to quickly deliver lead drug candidates to bring transformational new medicines to patients faster. "AbCellera’s clinically validated platform lets us start discovery in a virtualized model that aligns well with our capital efficient investment strategy. This partnership supports our approach to value creation by allowing us to focus on building companies that aim to deliver impactful medicines to patients.” Steven Robinette, Ph.D., Venture Partner at Atlas Venture “Atlas has proven expertise in finding and transforming innovative scientific research into exciting new biotechs,” said Carl Hansen, Ph.D., CEO and President of AbCellera. “By eliminating their need to build internal antibody discovery capabilities at inception, we provide newly launched biotech ventures with a competitive advantage that empowers them to move faster and increase their probability of success. We look forward to working alongside Atlas’ entrepreneurs to unlock their breakthrough science and create new therapies for patients in need.” Under the terms of the agreement, Atlas’ portfolio company will have the right to develop and commercialize therapeutic antibodies resulting from the collaboration. AbCellera will receive research payments and will be eligible to receive clinical and commercial milestone payments and royalties on net sales of products. About Atlas Venture Atlas Venture is a leading biotech venture capital firm. With the goal of doing well by doing good, we have been building breakthrough biotech startups for over 25 years. We work side by side with exceptional scientists and entrepreneurs to translate high impact science into medicines for patients. Our seed-led venture creation strategy rigorously selects and focuses investment on the most compelling opportunities to build scalable businesses and realize value. About AbCellera Biologics Inc. AbCellera is a technology company that searches, decodes, and analyzes natural immune systems to find antibodies that its partners can develop into drugs to prevent and treat disease. AbCellera partners with drug developers of all sizes, from large pharmaceutical to small biotechnology companies, empowering them to move quickly, reduce cost, and tackle the toughest problems in drug development.

Read More

MEDTECH

Synthego Launches Engineered Cell Libraries to Validate Targets with Speed and Accelerate Drug Discovery

SYNTHEGO | August 03, 2022

Synthego, the genome engineering company, announced the launch of Engineered Cell Libraries, a novel offering that further enables access to CRISPR by providing arrayed CRISPR-edited cells for direct use in functional screening assays. The innovative solution leverages Synthego’s Eclipse™ Platform. This high-throughput cell engineering platform delivers cell-based models for disease research by providing highly predictable CRISPR-engineered cells at scale through the integration of engineering, bioinformatics, and proprietary science. Synthego’s Engineered Cell Libraries provide unparalleled speed, scalability, and efficiency to accelerate the drug discovery process by enabling a faster path between experimental design and execution. As the newest addition to Synthego's Engineered Cells product line, the offering is a custom arrayed library of multi-guide™ knockout cell pools (immortalized or iPSC) delivered ready-made to researchers, efficiently enabling them to bypass the need for equipment and reagent sourcing, transfection, generation of an extensive CRISPR library, and hiring and training of staff. This allows researchers to overcome common hurdles associated with CRISPR-based target discovery and focus specifically on the science. “Arrayed screening approaches are more sensitive, compatible with a broader assortment of downstream assays, and can yield data that is more readily interpretable than the more commonly used pooled approach but are underutilized due to lack of infrastructure and limited bandwidth. With Engineered Cell Libraries, Synthego continues to provide transformative solutions for accelerated drug discovery which ultimately can bring a wider range of therapeutics to market faster.” Travis Maures, Synthego’s Chief Technology Officer With Engineered Cell Libraries, scientists specify the human or mouse cell type (Immortalized or iPSC available at launch) and gene targets they desire to knockout to generate a custom “Knockout Cell Library.” The cells are then edited on Synthego’s Eclipse Platform, which handles guide design, cell line optimization, editing through transfection, and assessment of editing efficiencies, so cells are ready to screen upon arrival. Engineered Cell Libraries on the Eclipse Platform additionally benefit customers with Scalability and flexibility - Engineered Cell Libraries allow researchers to maximize their screening power and identify more targets earlier in the screening process. Predictability and transparency - Synthego’s multi-guide™ technology achieves reliably high knockout efficiencies so researchers can confidently proceed with their screens. Cell engineering expertise and support - Synthego uses its expertise to bring automation innovation that provides greater consistency in outcomes and scalability. Synthego’s Eclipse Platform and Engineered Cell Libraries enable a wide range of applications in research and development across various disease areas and research disciplines such as oncology and neurology. Engineered Cell Libraries were employed in a recent study that used genetic screening to identify host factors that either facilitate or inhibit infection by SARS-CoV-2 and that could potentially be targeted with existing drugs that have been approved for other indications. “We were able to quickly combine our proteomic expertise with Synthego's genome engineering capabilities in a matter of weeks,” said Nevan J. Krogan, Director, Quantitative Biosciences Institute, University of California, San Francisco. “Normally, work such as this would take many years. We were able to quickly pinpoint which human genes are important for infection, and that allowed us to jump to which ones if we were able to drug them, could have a positive pharmacological effect on SARS-CoV-2 infection. That whole pipeline allowed us to identify several potential drug candidates, several of which we're still looking at.” Ultimately, Synthego’s goal is to enable scientists to spend less time thinking about method development and more time running their functional assays. The addition of Engineered Cell Libraries is driving impact in biopharma research and development. ABOUT SYNTHEGO Synthego was founded to revolutionize genome engineering technology, helping translate genomics into the clinic and ultimately making engineered biological therapies accessible to all patients. The company leverages machine learning, automation, and gene editing to build platforms for science at scale. With its foundations in engineering disciplines, the company’s platforms vertically integrate proprietary hardware, software, bioinformatics, chemistries, and molecular biology to advance both basic research and therapeutic development programs. With its technologies cited in more than a thousand peer-reviewed publications and utilized by thousands of commercial and academic researchers and therapeutic drug developers, Synthego is at the forefront of innovation enabling the next generation of medicines by delivering genome editing at an unprecedented scale.

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