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Biology Meets Engineering

Local high school students come to campus to participate in a camp, build robots based on animal senses, and learn about the ways biology and engineering overlap.

Spotlight

Ardigen

Ardigen is harnessing advanced Artificial Intelligence methods for novel precision medicine. The company accelerates therapy development by designing immunity, decoding microbiome, analysing biomedical images and providing digital drug discovery services. Ardigen's team is rooted in biology and holds deep expertise in bioinformatics, machine learning, and software engineering. The company's in-house datasets together with advanced AI platforms empower the development of effective precision therapies.

OTHER ARTICLES
MedTech

Better Purification and Recovery in Bioprocessing

Article | July 16, 2022

In the downstream portion of any bioprocess, one must pick through the dross before one can seize the gold the biotherapeutic that the bioprocess was always meant to generate. Unfortunately, the dross is both voluminous and various. And the biotherapeutic gold, unlike real gold, is corruptible. That is, it can suffer structural damage and activity loss. When discarding the dross and collecting the gold, bioprocessors must be efficient and gentle. They must, to the extent possible, eliminate contaminants and organic debris while ensuring that biotherapeutics avoid aggregation-inducing stresses and retain their integrity during purification and recovery. Anything less compromises purity and reduces yield. To purify and recover biotherapeutics efficiently and gently, bioprocessors must avail themselves of the most appropriate tools and techniques. Here, we talk with several experts about which tools and techniques can help bioprocessors overcome persistent challenges. Some of these experts also touch on new approaches that can help bioprocessors address emerging challenges.

Read More
MedTech

Next-Gen Genetics Cancer Therapies Creating Investment Prospects

Article | September 22, 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.

Read More
MedTech

Biotech in 2022

Article | October 7, 2022

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.

Read More
MedTech

Next-Gen Gene Therapy to Counter Complex Diseases

Article | July 13, 2022

Gene therapy has historically been used to treat disorders with in-depth knowledge caused by a single genetic mutation. Thanks to the introduction of new generation technologies, the potential of gene therapy is expanding tAo treat diseases that were previously untreatable. Evolution of Gene Therapy One of the major success stories of the twenty-first century has been gene therapy. However, it has not been the same in the past. The field's journey to this point has been long and mostly difficult, with both tragedy and triumph along the way. Initially, genetic disorders were thought to be untreatable and permanently carved into the genomes of individuals unfortunate enough to be born with them. But due to the constant technological advancement and research activities, gene therapy now has the potential to treat various genetic mutation-causing diseases with its ability to insert a new copy and replace faulty genes. Gene Therapy is Finding New Roads in the Medical Sector Gene therapy can help researchers treat a variety of conditions that fall under the general heading of epilepsy, instead of only focusing on a particular kind of disorder brought on by a genetic mutation. Following are some of the domains transformed by gene therapy. Neurology – Gene therapy can be used for the treatment of seizures by directly injecting it into the area causing an uncontrolled electrical disturbance in the brain. Furthermore, by using DNA sequences known as promoters, gene therapy can be restricted to specific neurons within that area. Ophthalmology – Genetic conditions such as blindness can be caused due to the mutation of any gene out of over 200 and resulting in progressive vision loss in children. With advanced gene therapies such as optogenetics, lost photoreceptor function can be transferred to the retinal cells, which are responsible for relaying visual information to the brain. This might give patients the ability to navigate in an unknown environment with a certain level of autonomy. The Future of Gene Therapy The news surrounding gene therapy has been largely favorable over the past few years, with treatment after treatment obtaining regulatory approvals, successful clinical trials, and garnering significant funds to begin development. With more than 1,000 clinical trials presently underway, the long-awaited gene therapy revolution might finally be here.

Read More
MedTech

Immunology: A New Frontier in Medical Science

Article | July 16, 2022

In the downstream portion of any bioprocess, one must pick through the dross before one can seize the gold the biotherapeutic that the bioprocess was always meant to generate. Unfortunately, the dross is both voluminous and various. And the biotherapeutic gold, unlike real gold, is corruptible. That is, it can suffer structural damage and activity loss. When discarding the dross and collecting the gold, bioprocessors must be efficient and gentle. They must, to the extent possible, eliminate contaminants and organic debris while ensuring that biotherapeutics avoid aggregation-inducing stresses and retain their integrity during purification and recovery. Anything less compromises purity and reduces yield. To purify and recover biotherapeutics efficiently and gently, bioprocessors must avail themselves of the most appropriate tools and techniques. Here, we talk with several experts about which tools and techniques can help bioprocessors overcome persistent challenges. Some of these experts also touch on new approaches that can help bioprocessors address emerging challenges.

Read More
MedTech

Top 3 Biotech Clinical Data Management Trends to Watch in 2022

Article | September 22, 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.

Read More
MedTech

How to Choose a Reliable Biotech Clinical Trial Management System?

Article | October 7, 2022

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.

Read More
MedTech

Next-Gen Gene Therapy to Counter Complex Diseases

Article | July 13, 2022

Gene therapy has historically been used to treat disorders with in-depth knowledge caused by a single genetic mutation. Thanks to the introduction of new generation technologies, the potential of gene therapy is expanding tAo treat diseases that were previously untreatable. Evolution of Gene Therapy One of the major success stories of the twenty-first century has been gene therapy. However, it has not been the same in the past. The field's journey to this point has been long and mostly difficult, with both tragedy and triumph along the way. Initially, genetic disorders were thought to be untreatable and permanently carved into the genomes of individuals unfortunate enough to be born with them. But due to the constant technological advancement and research activities, gene therapy now has the potential to treat various genetic mutation-causing diseases with its ability to insert a new copy and replace faulty genes. Gene Therapy is Finding New Roads in the Medical Sector Gene therapy can help researchers treat a variety of conditions that fall under the general heading of epilepsy, instead of only focusing on a particular kind of disorder brought on by a genetic mutation. Following are some of the domains transformed by gene therapy. Neurology – Gene therapy can be used for the treatment of seizures by directly injecting it into the area causing an uncontrolled electrical disturbance in the brain. Furthermore, by using DNA sequences known as promoters, gene therapy can be restricted to specific neurons within that area. Ophthalmology – Genetic conditions such as blindness can be caused due to the mutation of any gene out of over 200 and resulting in progressive vision loss in children. With advanced gene therapies such as optogenetics, lost photoreceptor function can be transferred to the retinal cells, which are responsible for relaying visual information to the brain. This might give patients the ability to navigate in an unknown environment with a certain level of autonomy. The Future of Gene Therapy The news surrounding gene therapy has been largely favorable over the past few years, with treatment after treatment obtaining regulatory approvals, successful clinical trials, and garnering significant funds to begin development. With more than 1,000 clinical trials presently underway, the long-awaited gene therapy revolution might finally be here.

Read More
MORE ARTICLES

Spotlight

Ardigen

Ardigen is harnessing advanced Artificial Intelligence methods for novel precision medicine. The company accelerates therapy development by designing immunity, decoding microbiome, analysing biomedical images and providing digital drug discovery services. Ardigen's team is rooted in biology and holds deep expertise in bioinformatics, machine learning, and software engineering. The company's in-house datasets together with advanced AI platforms empower the development of effective precision therapies.

Related News

Medical

United Health Foundation Partners With Harris-Stowe State University to Create New Bioinformatics Program

Harris-Stowe State University, United Health Foundation | November 20, 2021

The United Health Foundation, the philanthropic foundation of UnitedHealth Group (NYSE: UNH), has awarded a $2 million, three-year grant to Harris-Stowe State University to create a bioinformatics program for undergraduate students at the historically Black university located in St. Louis. Bioinformatics is an emerging field that combines science, physics, math and biology to aid in the diagnosis, treatment and discovery of new therapeutic advancements. An example of bioinformatics is the use of computer analysis on the Human Genome Project, which has recorded the 3 billion basic pairs of the human DNA system. HSSU will develop a new undergraduate program to train students for careers as bioinformatics professionals. HSSU will use the support to Develop new curricula combining coursework and experiential learning opportunities. Expose high school students in surrounding school districts to the field of bioinformatics through a summer bioinformatics “boot camp” program. Offer academic scholarships for up to 25 students each year. “In the past decade, Harris-Stowe State University has emerged as a leader in training students for high-tech careers. This new program will help us to build on that important work, as well as continue to fulfill our mission of serving historically underrepresented students. Bioinformatics is a rapidly growing field of study, and it is vital for all people to play a role in its advancement.” Dr. LaTonia Collins Smith, interim president of HSSU Studies have shown that there is a substantial gap in the number of diverse college students trained in biomedical sciences. Black, Hispanic and Native American people account for only 7.1% of the employed biological/biomedical and life sciences workforce, according to the National Science Foundation. A diverse health workforce helps provide personalized, culturally competent care to an increasingly diverse population. “The United Health Foundation is honored to collaborate with Harris-Stowe State University to increase the diversity of the life sciences workforce. We are excited about HSSU training students who will make discoveries, develop therapies and advance health care for all,” said Patrick Quinn, CEO of UnitedHealthcare in Missouri, a UnitedHealth Group company. “This partnership illustrates UnitedHealth Group’s commitment to health equity and to building a diverse health workforce reflective of our society.” The commitment in Missouri is one of many ways UnitedHealth Group is working to advance health equity by diversifying the health workforce of the future. The United Health Foundation’s Diverse Scholars Initiative, for example, partners with nine nonprofit and civic organizations and has provided over 3,000 scholarships to diverse students studying medicine and public health across the U.S. since 2007. Optum Technology, part of Optum which is a UnitedHealth Group company, offers a mentor-led STEM program that has provided science, technology, engineering and mathematics training to over 7,000 diverse and underrepresented students at 103 middle and high schools since 2019. To learn more about the company’s commitment to health equity as well as its efforts to build healthier communities, improve outcomes and create a modern, high-performing health care system. About Harris-Stowe State University For over 160 years, Harris-Stowe State University (HSSU) has served the historically underrepresented. As a Historically Black College and University, HSSU is strongly committed to providing a high-quality higher education experience that is both affordable and accessible to the diverse populations within and beyond the metropolitan St. Louis region. More than 90% of student population are racially and ethnically diverse and receive some form of financial aid. About the United Health Foundation Through collaboration with community partners, grants and outreach efforts, the United Health Foundation works to improve our health system, build a diverse and dynamic health workforce and enhance the well-being of local communities. The United Health Foundation was established by UnitedHealth Group (NYSE: UNH) in 1999 as a not-for-profit, private foundation dedicated to improving health and health care. To date, the United Health Foundation has committed more than $500 million to programs and communities around the world.

Read More

AI

eureKARE and DNAlytics Form Partnership to Develop a Proprietary AI Platform

eureKARE | July 07, 2021

eureKARE, a pioneering new company focused on financing and building next-generation biotechnology companies in the disruptive fields of the microbiome and synthetic biology, today announced an agreement with DNAlytics, a Belgian company applying data sciences to healthcare, to develop eureKARE's proprietary Artificial Intelligence (AI) platform to support its Biotech start-upstart-up studios, eureKARE. Unlike conventional start-upstart-up incubation methods, which begin with new science and then attempt to find an issue to address with it, eureKARE's methodology reverses this. eureKARE is committed to first finding an unmet need and then enlisting the best scientists and experts to provide an innovative solution to launch exciting new ventures. This process will be aided by eureKARE's one-of-a-kind AI platform, which will assist the business in identifying top academic researchers, locating new ideas and approaches in development, and scaling existing portfolio companies. About eureKARE eureKARE is a ground-breaking new company focusing on financing and establishing next-generation biotechnology start-ups in the microbiome and synthetic biology cutting-edge areas. eureKARE employs a two-step investing strategy to create long-term value. Through its biotech start-upstart-up studios eureKABIOME (Microbiome) and eureKASYNBIO, the company promotes translational research by developing and financing new companies based on high-value European science (Synthetic biology). In addition, the company aims to engage in more mature biotech companies. It will systematically propose to provide some liquidity to early investors, thus fulfilling a crucial demand in the European biotech sector. EureKARE has a fast-expanding portfolio of companies with the potential to disrupt the life sciences sector, led by its prominent founder, Alexandre Mouradian, and a pan-European team. About DNAlytics DNAlytics is based in Louvain-la-Neuve, Belgium, specializing in data science for the healthcare sector, including data management, bioinformatics, biostatistics, Machine Learning, and other Artificial Intelligence methods. DNAlytics products are utilized in clinical research, the creation of biotech drugs and medical devices, public health studies, and the monitoring and optimization of bio-manufacturing processes. In addition, DNAlytics assists a wide range of clients and partners in extracting scientifically sound observations and practical conclusions from complex data sets.

Read More

Medical

Mogrify announces Exploratory Research Collaboration with MRC Laboratory of Molecular Biology

Mogrify | January 11, 2021

Mogrify Limited (Mogrify®), a UK organization expecting to change the advancement of ex vivo cell therapies and pioneer the field of in vivo reconstructing treatments, and the MRC Laboratory of Molecular Biology (LMB), a top notch research lab committed to understanding significant natural cycles at the sub-atomic level, today reported an exploratory examination cooperation. The venture intends to create novel protein articulation frameworks by utilizing late advances in direct cell reconstructing to help improve the creation of proteins which are not delivered adequately well in existing articulation frameworks. The MOGRIFY® technology will be applied to foresee mixes of record variables to incite trans-separation starting with one cell type then onto the next. The subsequent objective cell types could give analysts improved admittance to significant proteins found in human cell types that are hard to get and take into consideration more efficient protein production. Mogrify will get admittance to any licensed innovation and skill created during the undertaking, further empowering the commercialization of the innovation in regions of remedial worth. This coordinated effort is a development of the Company's relationship with the MRC LMB and follows the declaration in December 2020 that it had made sure about a restrictive permit from the MRC LMB to an upgraded form of MOGRIFY technology empowering more precise record factor expectations and improved cell transformation viability. In the interest of the MRC, the clinical exploration noble cause LifeArc encouraged the restrictive permit of the new form of Mogrify's center reconstructing stage, and together arranged the legitimate structure to empower a fruitful cooperation between the MRC and Mogrify.

Read More

Medical

United Health Foundation Partners With Harris-Stowe State University to Create New Bioinformatics Program

Harris-Stowe State University, United Health Foundation | November 20, 2021

The United Health Foundation, the philanthropic foundation of UnitedHealth Group (NYSE: UNH), has awarded a $2 million, three-year grant to Harris-Stowe State University to create a bioinformatics program for undergraduate students at the historically Black university located in St. Louis. Bioinformatics is an emerging field that combines science, physics, math and biology to aid in the diagnosis, treatment and discovery of new therapeutic advancements. An example of bioinformatics is the use of computer analysis on the Human Genome Project, which has recorded the 3 billion basic pairs of the human DNA system. HSSU will develop a new undergraduate program to train students for careers as bioinformatics professionals. HSSU will use the support to Develop new curricula combining coursework and experiential learning opportunities. Expose high school students in surrounding school districts to the field of bioinformatics through a summer bioinformatics “boot camp” program. Offer academic scholarships for up to 25 students each year. “In the past decade, Harris-Stowe State University has emerged as a leader in training students for high-tech careers. This new program will help us to build on that important work, as well as continue to fulfill our mission of serving historically underrepresented students. Bioinformatics is a rapidly growing field of study, and it is vital for all people to play a role in its advancement.” Dr. LaTonia Collins Smith, interim president of HSSU Studies have shown that there is a substantial gap in the number of diverse college students trained in biomedical sciences. Black, Hispanic and Native American people account for only 7.1% of the employed biological/biomedical and life sciences workforce, according to the National Science Foundation. A diverse health workforce helps provide personalized, culturally competent care to an increasingly diverse population. “The United Health Foundation is honored to collaborate with Harris-Stowe State University to increase the diversity of the life sciences workforce. We are excited about HSSU training students who will make discoveries, develop therapies and advance health care for all,” said Patrick Quinn, CEO of UnitedHealthcare in Missouri, a UnitedHealth Group company. “This partnership illustrates UnitedHealth Group’s commitment to health equity and to building a diverse health workforce reflective of our society.” The commitment in Missouri is one of many ways UnitedHealth Group is working to advance health equity by diversifying the health workforce of the future. The United Health Foundation’s Diverse Scholars Initiative, for example, partners with nine nonprofit and civic organizations and has provided over 3,000 scholarships to diverse students studying medicine and public health across the U.S. since 2007. Optum Technology, part of Optum which is a UnitedHealth Group company, offers a mentor-led STEM program that has provided science, technology, engineering and mathematics training to over 7,000 diverse and underrepresented students at 103 middle and high schools since 2019. To learn more about the company’s commitment to health equity as well as its efforts to build healthier communities, improve outcomes and create a modern, high-performing health care system. About Harris-Stowe State University For over 160 years, Harris-Stowe State University (HSSU) has served the historically underrepresented. As a Historically Black College and University, HSSU is strongly committed to providing a high-quality higher education experience that is both affordable and accessible to the diverse populations within and beyond the metropolitan St. Louis region. More than 90% of student population are racially and ethnically diverse and receive some form of financial aid. About the United Health Foundation Through collaboration with community partners, grants and outreach efforts, the United Health Foundation works to improve our health system, build a diverse and dynamic health workforce and enhance the well-being of local communities. The United Health Foundation was established by UnitedHealth Group (NYSE: UNH) in 1999 as a not-for-profit, private foundation dedicated to improving health and health care. To date, the United Health Foundation has committed more than $500 million to programs and communities around the world.

Read More

AI

eureKARE and DNAlytics Form Partnership to Develop a Proprietary AI Platform

eureKARE | July 07, 2021

eureKARE, a pioneering new company focused on financing and building next-generation biotechnology companies in the disruptive fields of the microbiome and synthetic biology, today announced an agreement with DNAlytics, a Belgian company applying data sciences to healthcare, to develop eureKARE's proprietary Artificial Intelligence (AI) platform to support its Biotech start-upstart-up studios, eureKARE. Unlike conventional start-upstart-up incubation methods, which begin with new science and then attempt to find an issue to address with it, eureKARE's methodology reverses this. eureKARE is committed to first finding an unmet need and then enlisting the best scientists and experts to provide an innovative solution to launch exciting new ventures. This process will be aided by eureKARE's one-of-a-kind AI platform, which will assist the business in identifying top academic researchers, locating new ideas and approaches in development, and scaling existing portfolio companies. About eureKARE eureKARE is a ground-breaking new company focusing on financing and establishing next-generation biotechnology start-ups in the microbiome and synthetic biology cutting-edge areas. eureKARE employs a two-step investing strategy to create long-term value. Through its biotech start-upstart-up studios eureKABIOME (Microbiome) and eureKASYNBIO, the company promotes translational research by developing and financing new companies based on high-value European science (Synthetic biology). In addition, the company aims to engage in more mature biotech companies. It will systematically propose to provide some liquidity to early investors, thus fulfilling a crucial demand in the European biotech sector. EureKARE has a fast-expanding portfolio of companies with the potential to disrupt the life sciences sector, led by its prominent founder, Alexandre Mouradian, and a pan-European team. About DNAlytics DNAlytics is based in Louvain-la-Neuve, Belgium, specializing in data science for the healthcare sector, including data management, bioinformatics, biostatistics, Machine Learning, and other Artificial Intelligence methods. DNAlytics products are utilized in clinical research, the creation of biotech drugs and medical devices, public health studies, and the monitoring and optimization of bio-manufacturing processes. In addition, DNAlytics assists a wide range of clients and partners in extracting scientifically sound observations and practical conclusions from complex data sets.

Read More

Medical

Mogrify announces Exploratory Research Collaboration with MRC Laboratory of Molecular Biology

Mogrify | January 11, 2021

Mogrify Limited (Mogrify®), a UK organization expecting to change the advancement of ex vivo cell therapies and pioneer the field of in vivo reconstructing treatments, and the MRC Laboratory of Molecular Biology (LMB), a top notch research lab committed to understanding significant natural cycles at the sub-atomic level, today reported an exploratory examination cooperation. The venture intends to create novel protein articulation frameworks by utilizing late advances in direct cell reconstructing to help improve the creation of proteins which are not delivered adequately well in existing articulation frameworks. The MOGRIFY® technology will be applied to foresee mixes of record variables to incite trans-separation starting with one cell type then onto the next. The subsequent objective cell types could give analysts improved admittance to significant proteins found in human cell types that are hard to get and take into consideration more efficient protein production. Mogrify will get admittance to any licensed innovation and skill created during the undertaking, further empowering the commercialization of the innovation in regions of remedial worth. This coordinated effort is a development of the Company's relationship with the MRC LMB and follows the declaration in December 2020 that it had made sure about a restrictive permit from the MRC LMB to an upgraded form of MOGRIFY technology empowering more precise record factor expectations and improved cell transformation viability. In the interest of the MRC, the clinical exploration noble cause LifeArc encouraged the restrictive permit of the new form of Mogrify's center reconstructing stage, and together arranged the legitimate structure to empower a fruitful cooperation between the MRC and Mogrify.

Read More

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