#human biospecimen
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centralbiohubgermany · 2 years ago
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Central BioHub facilitates the acquisition of human biospecimens by connecting global biomedical researchers and scientists to biospecimen suppliers across the globe. Our biospecimen inventory is extensive, with millions of human biological materials acquired from different countries worldwide. Our samples are adequately defined, clinically annotated, and adequately preserved to yield an accurate research endpoint. We are happy to offer the largest supply of standardised human biospecimens on our website, thanks to the growing market trust in our brand.
https://centralbiohubgroup.com/
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indorivclinical · 2 years ago
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The Role Of Biobanks In The Collection Of Human Biospecimens For Research:
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One must now that the biobanks have a significant role to play in the collection and storage of human biospecimens for research. These facilities are designed with the purpose of collecting, processing, storing, and distributing human biospecimens for research that are essential for conducting scientific research. The use of human biospecimens in research is definitely crucial for advancing our understanding of human biology, disease, and health. These specimens also hold the clue to developing of advanced medicine, and treatment procedures in the future.
What does a biobank do?
One of the primary responsibilities of biobanks is to facilitate the collection of biospecimen samples. These samples might come from a number of sources, including clinical research sites, hospitals, and biorepositories. Clinical research sites, in particular, are an important source of biospecimens, as they provide access to a large number of patients undergoing different medical procedures. Biospecimen samples might include blood, tissue, saliva, and urine.
The right collection techniques for human biospecimens for research must be applied as these are critical to ensuring the quality of the biospecimens. Biobanks must ensure that the samples are getting collected in a manner that help in maintaining their integrity and thus prevents contamination as well. The biobanks must also ensure that the samples collected from clinical research sites are properly labeled, packaged, and transported to the storage facility. This will help keep things organized. Whenever there is a need for some specific sample, it will only make things easier for the biobanks to offer the sample required.  
Once the human biospecimens for research are collected, biobanks play a crucial role in their storage. Proper storage is essential for maintaining the quality and availability of the biospecimens for research. Biobanks must carefully control the temperature and storage conditions to ensure that the samples remain in optimal condition. Different types of storage containers, such as cryovials or tissue culture flasks, can be used to preserve biospecimens.
The benefits of biobanks for scientific research are numerous. They facilitate multi-center research studies by making it easier to access and distribute biospecimen samples. They also help maintain sample quality and availability, expanding the scientific knowledge base. In addition, biobanks play an important role in the standardization of biospecimen collection and storage, ensuring that the samples collected from the clinical research sites are consistent and reliable.
However, there are also ethical and legal considerations associated with biobanking. Privacy and confidentiality are some of the important concerns, and informed consent is essential for obtaining biospecimen samples. There are also laws and regulations governing biobank operations, which must be followed to ensure that the samples are collected and stored in a responsible and ethical manner.
Despite the benefits, there are also challenges associated with biobanking. The cost of setting up and maintaining biobanks can be high, and there is currently a lack of standardization in the field. Technical issues with storage and preservation can also be a problem, particularly for biospecimens that are sensitive to changes in temperature and multiple other environmental factors. Additionally, access to biospecimens for researchers may be limited, which can impede scientific progress.
In conclusion, biobanks are essential for advancing our understanding of human biology, disease, and health, and they provide a valuable resource for scientific researchers. Despite the challenges, the continued support of biobanking initiatives is important for ensuring that the benefits of biospecimen research can be realized. The biobanks need to ensure they are providing the best and the most efficient service by offering well-preserved specimen promptly and thus helping the research organizations continue with their research work.
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evoldir · 3 months ago
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Fwd: Job: BroadInst_ZooNewEngland.ConservationProjectCoordinator
Begin forwarded message: > From: [email protected] > Subject: Job: BroadInst_ZooNewEngland.ConservationProjectCoordinator > Date: 8 September 2024 at 05:43:44 BST > To: [email protected] > > > Position: Project Coordinator, Center for Zoonomics > > Zoo New England, in collaboration with the Vertebrate Genomics Group at the > Broad Institute of MIT and Harvard, is launching the Center for Zoonomics, > a cross-disciplinary center to bring together human-health focused genomic > scientists and disease experts with zoological veterinarians to more > sustainably conserve healthy populations of endangered species, while also > informing and advancing research on similar diseases in humans. > > We are seeking a Project Coordinator to work with the center’s leadership > team to develop and execute the vision for the center. > > The ideal candidate will possess exceptional written and oral communication > skills, a deep understanding of biology and genetics, and the ability to > distill complex scientific concepts into clear and engaging content. The > ideal candidate will bring experience in science (including wet lab > experience), science communication, and data organization, playing an > important role in defining and executing the scientific strategy for the > center. > > The Project Coordinator will: > • Foster a collaborative community within the center by organizing events, > workshops, and seminars. > • Clearly define and communicate the center’s goals and achievements to > internal and external audiences through presentations, reports, and online > media. > • Support collection and management of biospecimens from endangered > species, including careful recordkeeping, trialing data management > software, and serving as lead liaison between institutions for receiving > and managing biospecimens donated for research > > Minimum Job Requirements: > • BS in Biology, Genetics, or an equivalent field > • Excellent organizational, written, and oral communication skills > > This position reports to Zoo New England's Director of Conservation > Genomics, though the position also carries an appointment with the Broad > Institute and the majority of day to day work will be conducted at the > Broad Institute. > > To apply: Please visit https://ift.tt/6GnfTtI to > upload a cover letter and curriculum vitae. For inquiries, please contact > Dr. Rachel Johnston at [email protected]. Preference will be > given to applications received by October 6, 2024. > > Rachel Johnston
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tamanna31 · 3 months ago
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Biobanks Market 2024 Analysis, Research, Review, Applications and Forecast to 2030
Biobanks Industry Overview
The global biobank market size was estimated at USD 76.74 billion in 2023 and is projected to grow at a compound annual growth rate (CAGR) of 8.8% from 2024 to 2030.
High investments in the R&D of advanced therapies, such as regenerative medicine, personalized medicine, and cancer genomic studies, are some of the driving factors. Moreover, the onset of COVID-19 has put biobanks at the forefront of the pandemic control measures, resulting in the organic revenue growth of the market. The COVID-19 outbreak had a major influence on the biobanking industry. Biobanking is important for the diagnosis & production of medicines for a variety of disorders. International initiatives to produce vaccines and other medicines to prevent the spread of the virus have been urgently needed.
The collection, processing, and analysis of patient samples are at the frontline of the COVID-19 crisis. For example, the Health Minister announced EUR 2 million in financing for the National Irish COVID-19 Biobank (NICB) in a July 2021 update from the Government of Ireland. The NICB has become a critical part of Ireland’s COVID-19 pandemic response. According to a February 2021 release, the Sample Collection Database was designed by the SciLifeLab Data Centre in partnership with Biobank Sweden and the research area ‘Biobanks for COVID-19’ of the SciLifeLab & KAW National COVID-19 research program.
Gather more insights about the market drivers, restrains and growth of the Biobanks Market
Furthermore, Tulane University announced a new COVID-19 biobank containing blood & cell samples from survivors in July 2021 to aid researchers in determining why some people heal rapidly while others have long-term effects. As a result, such activities show that the outbreak of the pandemic boosted the demand for biobank services, benefiting the global economy.
The increasing popularity of precision/personalized medicine and genetic testing has been a key driver of the market. Biobanks have been playing a significant role in biomedical research. Over the past few decades, there have been several advances in platforms and tools used in genetic studies. This has led to an increase in demand for biospecimens from clinical labs to develop assays for genetic testing. Collaborations between private and public institutions in biobanking have played a crucial role in market progression.
Digitalization, precision medicine, and virtualization are rapidly changing the biobanking industry through the development of novel methods and concepts of synergies initiated by public and private organizations. Companies across all fields are partnering with biobanks, which accelerates the market revenue. For instance, in October 2023, UK Biobank partnered with several philanthropists. Through this partnership, UK Biobank will access USD 34.5 million in funding.
An exponential increase in the number of global cases has rendered the significance of biobanks in containing the spread of the virus. High-quality COVID-19 specimens are required and helpful for both research and diagnostic purposes, and biobanks are considered vital repositories for these samples. Thus, biobanks are gaining ground to support clinical research and drug discovery processes to combat this global disaster.
Developing countries from the Middle East region are investing in biobanks to advance the medical research domain in the country. For instance, in September 2023, the Crown Prince of Abu Dhabi announced the launch of a biobank to support the requirement of personalized medicine through advanced treatments that utilize human tissues and stem cells in medical research. This research will help treat over 80 diseases and immune system issues. Moreover, it strengthens the position of the UAE in the global biobanks market.
Browse through Grand View Research's��Biotechnology Industry Research Reports.
The global plasmid purification market size was estimated at USD 1.72 billion in 2023 and is projected to grow at a CAGR of 11.60% from 2024 to 2030. 
The global enzymatic DNA synthesis market size was estimated at USD 232.4 million in 2023 and is projected to grow at a CAGR of 26.4% from 2024 to 2030.
Key Companies & Market Share Insights
Some of the key players operating in the market are adopting various organic & inorganic strategies such as collaborations with biobanking service providers and technological innovation to advance their product offerings in the biobanking industry. 
Key Biobanks Companies:
Thermo Fisher Scientific Inc.
Merck KGaA
Qiagen
Hamilton Company
Tecan Trading AG
Danaher Corporation
Becton, Dickinson, and Company (BD)
Biocision, LLC.
Taylor-Wharton
Charles River Laboratories
Lonza
Stemcell Technologies
Biovault Family
Promocell Gmbh
Precision Cellular Storage Ltd. (Virgin Health Bank)
Recent Developments
In October 2023, AstraZeneca research announced unique relationships between rare changes in plasma proteins and genes that could enhance drug discovery with data from more than 50,000 UK Biobank participants.
Similarly, in January 2023, Hamad Medical Corporation, in collaboration with Qatar BioBank, launched a Tissue Biobank Service in Qatar. This biobank will focus on collecting samples and finding new potential treatments for heart diseases & cancer.
In January 2023, Quibim and European Commission launched European Commission’s European Federation for Cancer Images (EUCAIM) biobank. This biobank will focus on developing treatments for cancers along with early detection techniques.
In December 2023, Charles River Laboratories International, Inc. announced an agreement with CELLphenomics to expand 3D In Vitro Services for drug screening of cancer therapy. CELLphenomics biobank has over 500 in vitro models from around 20 tumor entities. It offers one of the largest complex in vitro models of rare and ultra-rare tumors like thymomas or sarcomas.
. In July 2023, Tecan announced the launch of Phase Separator. It has several applications in biobanking and liquid biopsy and is expected to benefit proteomics, genomics and across numerous disease areas, from neurodegenerative and oncology diseases to metabolic disorders.
In January 2023, Thermo Fisher Scientific, Inc. announced its participation as a founding sponsor of Momentum Labs, a new biotech hub located in Alachua, Florida. This collaboration aims to support the growth of innovative biotech startups and drive advancements in the industry. With Thermo Fisher's expertise in the life sciences and its commitment to innovation, the company is well-positioned to play a significant role in the success of Momentum Labs and the companies it supports. The establishment of this hub is expected to have a positive impact on the local economy and further solidify Florida's position as a hub for biotech innovation.
In February 2022, Hamilton company expanded its range of VersoQ series of storage systems at a debut at SLAS 2022 conference. This would increase the company’s product offerings in biobanking.
Order a free sample PDF of the Biobanks Market Study, published by Grand View Research.
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shanu797 · 5 months ago
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Cureline Molecular Services
Cureline offers comprehensive molecular services for biomedical research, focusing on biomarker discovery, gene expression analysis, and molecular diagnostics. They provide high-quality human biospecimens, advanced genomic and proteomic analyses, and custom research solutions to support pharmaceutical and biotech companies in their R&D efforts. Their services include RNA/DNA extraction, NGS, qPCR, and more, ensuring precise and reliable results for various research needs.
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garnerbio · 9 months ago
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Human Biosamples Supplier
Discover a trusted human biosamples supplier with a wide range of high-quality products for research and diagnostics. Source reliable biospecimens for your scientific needs and projects.
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globalinsightblog · 9 months ago
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Preserving Tomorrow's Cures: Exploring the Biobanks Market 🌱
Hey there, science aficionados and health enthusiasts! Today, let's dive deep into the captivating realm of biobanks – the hidden treasures of medical research and innovation. 🏦🔬
So, what exactly are biobanks? Imagine a vast library of biological samples – from blood and tissue to DNA and cells – meticulously curated and stored for future scientific exploration. These repositories are not just collections of specimens; they're invaluable resources that fuel groundbreaking discoveries, drive medical advancements, and pave the way for personalized medicine. Talk about preserving the keys to our biological mysteries! 🌟🔑
Now, let's delve into the market trends. The biobanks market is experiencing exponential growth, and for good reason! With the rise of precision medicine, genomic research, and biomarker discovery, the demand for high-quality, well-annotated biological samples has never been greater. Biobanks serve as the backbone of these endeavors, providing researchers with the raw materials they need to unravel the complexities of human health and disease. It's like having a treasure trove of scientific insights at your fingertips! 💡🔍
But what sets biobanks apart from traditional research repositories? Strap in, because we're about to embark on a journey through the cutting-edge technologies and innovative practices that define modern biobanking. From automated sample processing and advanced cryopreservation techniques to robust data management systems and stringent quality control measures, today's biobanks are at the forefront of biospecimen collection, storage, and distribution. It's not just about preserving samples; it's about preserving the integrity of the data they hold. 🌱🔒
And let's not overlook the societal impact of biobanking. By facilitating collaboration between researchers, clinicians, patients, and industry stakeholders, biobanks are accelerating the pace of medical discovery and transforming the way we approach healthcare. From identifying biomarkers for early disease detection to developing targeted therapies for personalized treatment, the possibilities are endless. It's not just about building collections; it's about building bridges to a healthier future. 🌍🤝
But amidst the excitement, let's not forget the challenges. Ethical considerations, consent protocols, and privacy concerns loom large in the biobanking landscape. As the field continues to evolve, it's imperative that we address these issues with transparency, integrity, and respect for the individuals who contribute to these invaluable resources. Together, we can ensure that biobanks remain beacons of scientific progress and beacons of hope for generations to come. 🕯️🌌
So there you have it, folks – a glimpse into the dynamic and ever-evolving world of biobanking. From its humble beginnings to its transformative impact on medical research and beyond, biobanks are shaping the future of healthcare one sample at a time. Here's to the visionary minds driving innovation in biobanking and the endless possibilities that lie ahead. Stay curious, stay inspired, and let's continue preserving tomorrow's cures today! 🌱💉🔬
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octalsoft · 10 months ago
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How Biobanking is Transforming the Medical Industry
In medicine, we are entering a new era where patients, health professionals, and academic elites increasingly collaborate to enhance knowledge and test novel paradigms for illness detection and treatment. So what exactly is biobanking, where does it fit in with clinical research and how is it transforming the medical industry? Well, let’s get to it.
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What is Biobanking
Biobanking, or the preservation of biospecimens, is becoming increasingly important in scientific research. Biobanking refers to the process of collecting human and animal biological samples for research purposes, such as blood, urine, bone marrow, saliva, spinal fluid, and tissue, in order to better understand health and illness. A biobank is a biorepository that collects, processes, stores, and distributes specimens and data for research and clinical studies.
Biobanking software is critical to the future of modern medicine; biobanks collect, preserve, annotate, and disseminate biological samples (tissues, blood, nucleic acids) and their associated metadata, which is then used to identify relevant disease biomarkers for use in disease diagnosis and drug development.
According to a recent report, the worldwide biobanking market was valued at $40.7 billion in 2021 and is predicted to increase at an 8.22% annual pace through 2027. This rapid pace of growth can be attributed to rising interest in biobanking-supported sectors such as genomics and customized medicine, among others.
Across the world, several biobanks have been developed to aid in modern medical research fields such as customized medicine. Researchers are always looking for innovative ways to pinpoint the source of an illness and give more targeted treatment choices.
Many large-scale biobanking programs are now underway at the national, international, and institutional levels. Biobank software are essential tools for investigating complicated diseases such as cardiovascular disease, cancer, and diabetes when paired with questionnaires and medical record data. Biobanks have become critical to the goal of improving population health by making medicine more effective and personalized for each of us. We all play an important part, from contributing biospecimens to acquiring authorization for biospecimen processing and data collecting.
Why are Biobanks Crucial for Modern Medicine 
Biobanks are incredibly significant organizations with several benefits. An untold number of lives are saved each year by providing the infrastructure that allows researchers and scientists to examine and eradicate the illness. Imagine how the world would be now if polio, smallpox, or malaria still existed. It's not a pretty picture. While many deadly illnesses have been eradicated or drastically reduced in wealthy countries, the same cannot be said for the rest of the world.
In the present world, biobanks are a valuable resource for proteomics, genomics, and metabolomics research, translational studies, molecular epidemiology, therapeutic target development, and biomarker and drug discovery.
1. Biobanking Supports Genomics
While genomics is the future of cancer and rare illness treatment (affecting fewer than 200,000 individuals), genetic biobanks allow researchers to acquire and exchange high-quality genetic biospecimens. 
Most malignancies and uncommon disorders have a genetic basis, and biomaterials preserved in biobanks can help. Integrated genomics allows researchers to do genetic profiling on particular tumors in order to acquire a better knowledge of the genetic causes of cancer. While genomics may not be appropriate for every cancer patient at this time, it can improve "effective therapeutic alternatives" for individuals with the worst prognosis based on existing treatment regimens.
2. Biobanks Are Key Drivers For Precision Medicine
Precision medicine uses genomes to produce individualized medicines for people with severe diseases that may not respond to current treatments. 
Precision medicine, on the other hand, does not stop at genetics and examines one's environment and lifestyle as disease factors. Precision medicine dubbed the "future of healthcare," is mainly reliant on biobanking. Pharma requires highly specific specimens, which biobanks give. Tumor banks, for example, provide high-quality, well-annotated specimens that are important in oncology.
3. Biobanks Support the Development of New Drugs
Human tissue biobanks are valuable resources for drug research and development. The development of high throughput methods that led to the discovery of biomarkers cleared the path for drug discovery. Biobanks accelerate the development of novel therapies and guarantee that they reach patients on time by improving access to high-quality specimens and clinical data.
How BMS Software Augments the Capabilities of a Biobank
Contemporary biobanks collect massive volumes of complicated data that must be handled quickly and precisely. This cannot be accomplished without the assistance of sophisticated and exact informatics. In many respects, artificial intelligence is set to transform biobanking. AI, for example, may be used to evaluate the quality of biosamples and propose those that are suitable for investigation. Machine learning, big data, semantic web, and other computational models can also help identify high-quality and well-characterized samples and data for study.
Octalsoft’s Biorepository Management System which is a biobank sample management software meets the Increasing Demands of Contemporary Biobanks.
Octalsoft’s LIMS, a cloud-hosted Laboratory Information Management System, LIMS software for biobanking, automates and simplifies biobanking operations while also ensuring data security and remote access 24 hours a day, seven days a week. 
A biospecimen management system is useful in developing solutions to facilitate specimen and data exchange and improve interoperability. Contemporary biobanks are besieged by an onslaught of data derived from various and unique biospecimens. A biorepository management system like Octalsoft’s BMS assists biobanks in maximizing the value of their stored samples, meeting regulatory obligations, and encouraging scientific collaboration to improve medical research.
In Summation
Biobanking is expected to change the world and swiftly establish itself as a critical component of research infrastructure development. The goal is that increased expenditures will enable scientific discoveries that will have a substantial influence on a country's economy by influencing our understanding of human health, sickness, medications, and personalized treatment.
Biobanking is already increasing its operations from modest to complicated firms. The management of these biobanks has evolved due to automation and computerization of operations. Specimens can now be electronically kept in a database. With sufficient finances, biobanks may now invest in robots to speed up the processing and sampling process.
Similarly, biobank management software appears to be leading the way for customized medicine among the scientific community all around the world. Biobanking is similar to a microscope in that it allows us to examine how the many risk factors interact to create any illness. Nevertheless, various technological, social, ethical, and legal issues must be addressed before this approach may be fruitful. Addressing these challenges is critical to the expansion of biobanks and the advancement of medical research in the twenty-first century.
Medicine benefits greatly from genomics and other omics enabled by biobanking. As a result, it is clear that biobanking will continue to offer the foundation for the medical industry's future.
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clinifinitesolution · 1 year ago
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Best Biospecimen Services Agency
Before we explore what makes Clinfinite Solutions exceptional, let's establish the importance of biospecimens in the realm of medical research. Biospecimens refer to samples of tissues, cells, blood, or other biological materials obtained from humans or animals. These samples are invaluable for studying diseases, developing new drugs, and conducting various types of research.
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The Role of Biospecimens in Research
Advancing Medical Knowledge: Biospecimens provide researchers with the raw materials needed to study diseases at a molecular level, leading to a deeper understanding of their mechanisms.
Drug Development: Pharmaceutical companies rely on biospecimens to test the efficacy and safety of new drugs before they reach the market.
Personalized Medicine: Biospecimens are crucial in tailoring medical treatments to individual patients, ensuring more effective outcomes.
Early Disease Detection: Biomarker research using biospecimens can lead to early disease detection, potentially saving lives.
Why Choose Clinfinite Solutions?
Now that we've established the significance of biospecimens, let's explore why Clinfinite Solutions is the preferred choice for biospecimen services.
Unparalleled Expertise
Clinfinite Solutions boasts a team of experts with years of experience in biospecimen collection, processing, and storage. Their expertise ensures the highest quality samples for research purposes.
State-of-the-Art Facilities
The agency's cutting-edge facilities are equipped with the latest technology for sample preservation. This ensures the integrity of biospecimens over time, a crucial factor in research.
Ethical and Compliant Practices
Clinfinite Solutions adheres to the highest ethical and regulatory standards. They obtain biospecimens with full informed consent and maintain strict compliance with all relevant guidelines.
Customized Solutions
Recognizing that every research project is unique, Clinfinite Solutions offers tailored services to meet specific requirements. Whether it's rare tissue samples or specialized storage conditions, they have you covered.
Global Reach
With a global network, Clinfinite Solutions can source biospecimens from diverse populations, facilitating research with broader applications.
Prompt and Reliable Services
Time is often of the essence in research projects. Clinfinite Solutions prides itself on delivering biospecimens promptly and reliably, ensuring minimal disruption to research timelines.
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indorivclinical · 2 years ago
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Find the best human biospecimens for research at Indoriv Clinical, we offer biospecimen samples to the cancer research sites in India.
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bestproductsindia · 2 years ago
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technicaldr · 2 years ago
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Across Healthcare, Companies Are Profiting From Data. When Will Providers and Patients Get Their Share of the Winnings?
As a health economist, researcher in evidence-based medicine, and consultant to biopharma executives, I am no stranger to data. We all want more of it, to make sense of it, and to use it to drive our decisions — business and clinical. Every health industry leader knows the massive value of data and the equally large headaches that can be involved to source it, analyze it, and earn a return on investments.
In my consulting years, I regularly encountered life sciences execs who bemoaned their spend (several million dollars annually) on dataset subscriptions yet had little understanding of whether or not their businesses had derived value. Only a handful of players in the sector have been able to treat data as a product, according to McKinsey.
  Today that landscape is shifting, however.
Healthcare providers and care delivery organizations, particularly major institutions and integrated delivery networks, or IDNs, have now realized that their data is extremely valuable, and they want in on the mix. Patients, given the right to full, free, digital access to their data via the 21st Century Cures Act, are beginning to notice that companies and institutions are aggregating and re-selling their data for profit. Life sciences leaders are eager to find ways to connect directly with both patients and providers to obtain high-quality, consented, proven-provenance data without aggregators acting as middlemen. None of these parties will remain satisfied with the status quo for long.
  Data economics
  An emerging scientific field, data economics, can inform how we generate health data, decide who should own and control it, assign value to it, and create rational and fair systems for data utilization, sharing, and compensation. Data economics can reduce data silos and drive not only more efficient care delivery but also the incentivization of better health outcomes.
  Transcarent wants to transform the digital pharmacy benefit experience, enabling self-insured employers and their staff to make more informed choices.
  Until recently, healthcare providers, and probably many patients, have thought of the data they generate more like “exhaust,” a byproduct of their operations, rather than as a valuable digital confirmation of their work and activities. Now many are shifting their perspective towards a data economics mode of thinking. If healthcare delivery tasks generate billing codes, for example, doesn’t that piece of data represent the valuable input of a clinician’s labor along with real-world patient care and patient health outcomes? Patients, also, can be data generators, whether reporting on adherence to therapy or sharing a biospecimen for sequencing. The resulting data has been productized by aggregator companies. Why can’t providers, institutions, and patients do the same?
Previous wisdom would tell us that the data of any one physician or patient isn’t valuable enough to market, or that doing so would make it impossible to preserve privacy, hence the value-add of data aggregation companies and brokers. The science of data economics demonstrates the fallacy in this assumption. New technologies can enable ownership, access control, and privacy while still allowing that data to participate in networks for analysis, whether by humans or AI-driven machines. Data aggregation becomes less interesting when analysis tools are more powerful; data curation becomes its own discipline.
In this new landscape, providers don’t have to choose between ringfencing their data or sharing it to drive new discoveries or better care efficiencies. They can have both. Data economics treats data like a product, or asset, that affords future benefits, by informing methods to package and safeguard it. Mechanisms to verify provenance, consent, ownership, licensing, and more contextual features can label, preserve and track data assets. While these mechanisms are primarily technological in nature, they can also be legal, or a combination of both embedded in “smart contracts” that implement legal agreements into computer code.
The result is a world where providers, patients, payers, life sciences companies, biotech investors, and others can assign values to various data assets in a data market using the same regulatory and ethical principles that govern other asset values. These prices and values may be highly contextual. Oncology patient and provider data is valuable to a company leading discovery on cancer drugs with a platform for CAR-T or bispecific antibodies; it is likely less valuable to a company developing Alzheimer’s therapies.
  The upside of data utility
  Importantly, the mechanisms and frameworks enabled by data economics can ensure that data generators participate in the upside of data utility. If your data plays even a small part in another party’s profitability, you can receive credit. In the past, patients have had little incentive to share data with providers before or after care, for example. If they benefited more, they would likely supply more. Likewise, current incentive structures often put payers, providers, and patients at odds, with each group hesitant at times to share data with the others, as PwC recently explained. Data economics can help align incentives by appropriately valuing data exchange.
Once multiple healthcare providers, patients, or other stakeholders create a market or community whose members use the same mechanisms to manage their data, these “data economic networks” and their members can share, trade, or use data much more easily and effectively. The mechanisms that make these networks possible are comparable to shipping containers that allow for the easy transfer of diverse goods within an agnostic, uniform infrastructure. Ships and ports handle the containers with appropriate paperwork, but aren’t permitted to open them; likewise, in a data economic network, data containers can signal their contents without betraying privacy or transferring ownership. Rather than depending on a single arbiter of price, decentralized networks that leverage distributed ledger and blockchain technologies can help ensure trust and generate consensus among participants.
Both providers and patients benefit when containerized data and data economic networks are implemented. They streamline data management and offer potentially exponential value opportunities, boosting revenues. Previously unconnected datasets can be “crawled” by AI algorithms without that data ever leaving its point of generation and without containers needing to be opened or transferred, potentially leading to new scientific discoveries that improve care. Patients and stakeholders are more engaged, in contrast to, for example, social media sites where they provide data for free but are at risk of privacy loss and other downsides. Data economic networks, furthermore, allow for massive scalability as many parties can participate in data generation and utilization, all while maintaining their own “vaults” without having to rely on any single source of data protection or centralized system or format.
Valuable digital data is a relatively new phenomenon in the history of healthcare. Providers need to think of it in a new way — not as a byproduct, but as another valuable outcome they are generating as they do their jobs and care for patients. Their data assets can generate enormous value for their practices, their institutions, for patients, and for science.
Technical Doctor's insight:
Contact Details : [email protected] or 877-910-0004 www.technicaldr.com
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shanu797 · 6 months ago
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Quality Control: Backbone of Human Biorepositories
Discover the critical role of quality control in human biorepositories with Cureline's insights on maintaining high standards for biospecimen collection and storage. In our latest article, "Quality Control: Backbone of Human Biorepositories," we explore the essential practices and protocols that ensure the integrity and reliability of biospecimens used in biomedical research. Learn how stringent quality control measures contribute to advancing scientific discoveries and improving healthcare outcomes. Visit the article to delve deeper into the backbone of effective biorepository management.
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centralbiohubsworld · 2 years ago
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Procure high-quality PBMC samples for research
Human PBMCs consists of round nucleated peripheral blood cells such as lymphocytes, monocytes, and macrophages, which have a crucial role in regulating human immunity. Due to it’s high sensitivity and specificity concerning genetic diversity and chemical exposure, Peripheral Blood Mononuclear Cells are a powerful tool for conquering new horizons of immunological research and the development of personalized medicine. If you are searching high-quality, well annotated human PBMC samples for research, check out the latest inventory of Central BioHub online human biospecimen marketplace:https://centralbiohub.de/biospecimens/cell-products/pbmc
Benefiting researchers globally, Central BioHub unlocks your access to 800,000+ human biospecimens such as serum, plasma, CSF, tissues, and FFPE blocks gathered from healthy and disease-state donors exclusively for drug and diagnostic research.Hurry up Order biospecimens online:https://centralbiohub.de/
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centralbiohubgermany · 2 years ago
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FFPE samples-Types, Uses and Preparation
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Formalin-fixed paraffin-embedded tissue specimens, often called FFPE samples, are a fantastic material for understanding human biology and disease pathways. It is widely used in clinical diagnosis and biological and medical research, especially in cancer and rare disease research. Due to the worldwide acceptance of in-vitro research, FFPE sample studies are critical for assessing morphology, molecular characteristics, and protein structure in human tissues. Furthermore, in contemporary medical research, using FFPE tissues for molecular pathological detection, such as tumor-related gene mutations and molecular detection of targeted drugs, has progressed rapidly from scientific research to in-vitro pathological diagnosis. Furthermore, retrospective gene research is becoming more popular in tumor molecular biology. However, because most tissue samples used in scientific research are FFPE tissue blocks and FFPE tissue sections, the amount of DNA and RNA extracted from them directly impacts the outcome of molecular experiments.
How are FFPE samples prepared?
FFPE is a subset of the human biospecimen preservation method that has been in use for many years. Collecting tissue specimens from disease-state or healthy human donors is the first step in preparing FFPE samples. The extraction of specimens is mainly done during biopsies and clinical and surgical procedures by a trained medical doctor or surgeon. The excised human samples are immersed in 10% neutral buffered formalin for at least 24 hours. This process is known as formalin fixation. Later, the fixed samples are dehydrated with ethanol concentrates. The tissue is then embedded in paraffin wax to create FFPE blocks, which preserve the proteins and tissue structures. Finally, these FFPE blocks are sectioned into specific sizes to prepare FFPE specimens that are investigated and authorized by a certified histopathologist for research use. FFPE samples in the form of FFPE blocks, curls, and slides can be stored for long years without degradation. Moreover, FFPE is stored at room temperature and thus does not require highly sophisticated and expensive tissue preservation units.
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The quality of the research specimens directly impacts the quality of the research outcome. In modern human tissue research, well-preserved, well-annotated human tissue samples can transcribe the patient disease journey for the researchers to lead them on the right track for active translational and precision medicine research. 
Accelerating human tissue research across the globe, Central BioHub introduces the world’s most extensive inventory of reliable, high-quality FFPE samples ideal for drug and diagnostic research and development. If you are searching for top-quality human tissue for research, navigating through the inventory of Central BioHub is exciting. Explore their portfolio and order FFPE blocks and tissue samples online: https://centralbiohub.de/blogs/order-well-characterized-ffpe-samples-for-cancer-research.
Central BioHub provides a wide range of pathologist-reviewed, well-annotated FFPE blocks subjected to rigorous quality control practices procurable online at competitive prices. The tissue samples are collected and processed according to IRB protocols, safety standards, and biobanking guidelines. To learn more about FFPE samples and the service offered by Central BioHub, browse the inventory and book your research samples today.
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techsciresearch · 3 years ago
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Equipment & Consumables Product Segment to Dominate the United States Biobanks Market | TechSci Research
Rise in demand for affordable drugs and ongoing research and development activities is expected to drive the demand for United States biobanks market for the forecast period.
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According to TechSci Research report, “United States Biobanks Market By Type (Population Based Biobanks v/s Disease Oriented Biobanks) By Ownership (National/regional agency, Non-profit Organization, Universities, and Private Organization) By Product (Equipment & Consumables, Media, Software & Services) By Specimen Type (Blood Products, Solid Tissue, Cell Lines, Nucleic Acid, Others) By Application (Therapeutic v/s Research) By End User (Academic Institutes, and Pharma & Biotech Companies, Others), By Region, Company Forecast & Opportunities, 2026”, the United States biobanks market is expected to witness significant growth for the next five years. Biobanking is a procedure that is used to collect and preserve biological specimens which are used for diagnosis, research activities, and biodiversity studies. The presence of different types of biobanks such as disease-oriented biobanks, tissue banks, blood banks, among others are encouraging consumers to preserve their samples in biobanks which are bolstering the market growth.
The rise in genomic research activities coupled with the expansion of application areas for bio-banked samples is driving the market growth for the forecast period. An increase in the incidence of auto immune diseases such as cancer and blood disorders in addition to the surge in the population suffering from chronic diseases is contributing to boost the market growth. The surge in popularity for personalized medicine and genetic testing is considered the key driver responsible for the market growth. An increase in the number of established stem cell biobanks along with the growing application of stem cells in cell therapy, toxicology, drug development, developmental biology is leading to the rapid rise in the number of stem cell banks, thereby creating lucrative opportunities for the biobank market growth.
The occurrence of COVID-19 outbreak across the world which has been declared as a pandemic by the World Health Organization has affected several countries adversely. Leading authorities in the United States imposed lockdown restrictions and released a set of precautionary measures to contain the spread of novel coronavirus. Coronavirus-affected patients started suffering from shortness of breath along with coughing and sneezing along with the other symptoms.
United States authorities increased the capacity of hospitals as a greater number of patients were getting affected daily and getting admitted into the hospital facilities. To contain the spread of novel coronavirus, high-quality COVID-19 specimens are required for diagnostic and research purposes which can be stored and preserved in biobanks. Biobanks are supporting the drug discovery process to ensure effective treatment along with providing quality samples for the clinical research process which in turn is fueling the growth of the market in this period.
However, the high cost involved in automation may create a hindrance in the growth of the biobanks market.
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United States biobanks market is segmented into type, ownership, product, specimen type, application, end user, regional distribution, and company. Based on specimen type, the market can be divided into blood products, solid tissue, cell lines, nucleic acid, and others. The blood products specimen type segment is expected to account for major market share in the next years as it is the most collected specimen used for diagnostic purposes. The surge in the prevalence of hematological diseases and other blood disorders is leading to accelerating the market demand.
Also, these are the source for DNA and RNA which can provide insight into the lineage and history of the person. Based on application, the market can be bifurcated into therapeutic and research. The therapeutic segment is expected to hold a significant share in the biobanks market in the forecast period. Regenerative medicines are in high demand owing to fueling demand for high-quality biosamples and growing research in regenerative medicine is fostering the market growth.
Thermo Fisher Scientific Inc., Hamilton Company, Brooks Automation, Inc., VWR Corporation, LLC, Promega Corporation, Becton, Dickinson, and Company, RUCDR Infinite Biologics, LabVantage Solutions Inc., US Biolab Corporation, Inc., ProteoGenex, Inc., Cureline, Inc., Bay Biosciences LLC, Geneticist Inc, BioLifeSolutions Inc. are the leading players operating in United States biobanks market. Manufacturers are increasingly focusing on research and development process to fuel higher growth in the market. To meet evolving customer demand with respect to better efficiency and durability, several biobanks service providers are coming up with their technologically advanced offerings.
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“High-end investments by the major players to upgrade the existing infrastructure to advance the platform and tools used in genetic studies are significant factors contributing to the market growth. Technological advancements such as the use of 3-D printing for tissue samples and mini-organ creation are also contributing to propel market growth. Adoption of virtualization, digitalization, and precision medicine to provide effective treatment coupled with the launch of novel products by the major players is boosting the growth of the market in the forecast period till 2026” said Mr. Karan Chechi, Research Director with TechSci Research, a research based global management consulting firm.
“United States Biobanks Market By Type (Population Based Biobanks v/s Disease Oriented Biobanks) By Ownership (National/regional agency, Non-profit Organization, Universities, and Private Organization) By Product (Equipment & Consumables, Media, Software & Services) By Specimen Type (Blood Products, Solid Tissue, Cell Lines, Nucleic Acid, Others) By Application (Therapeutic v/s Research) By End User (Academic Institutes, and Pharma & Biotech Companies, Others), By Region, Company Forecast & Opportunities, 2026” has evaluated the future growth potential of United States biobanks market and provided statistics & information on market size, shares, structure and future market growth. The report intends to provide cutting-edge market intelligence and help decision makers take sound investment decisions. Besides, the report also identifies and analyzes the emerging trends along with essential drivers, challenges, and opportunities in the of United States biobanks market.
Browse Related Reports:
Global Bio Preservation Market By Product (Media, Equipment, Accessories, Alarms & Monitoring System, Incubators, Centrifuges, Other), By Biospecimen (Human Tissue Samples, Stem Cells, Organs, Others), By Cell Providers (CD34+, CD19+, MSC, iPSC, hESC, Tumor Cells), By Application (Therapeutic, Research, Clinical Trials, Others), By End User (Biobanks, Gene Banks, Hospitals, Others), By Region, Forecast & Opportunities, 2025
https://www.techsciresearch.com/report/bio-preservation-market/4711.html
United States Biomedical Refrigerators & Freezers Market By Product (Pass-Through, Explosion Safe, Flammable Storage, Combo/Dual Temperature, Ultra Low Freezers, Plasma Freezers, Others), By Storage (Blood, Vaccines, Plasma, DNA, Flammable Chemicals, Others), By Temperature (RNA & DNA {-70C to -80C}, Vaccines {-30C to -40C} & Others), By Capacity (138L, 169L, 221L, 230L, 426L, 690L, Others), By End-User (Hospitals, Pharmacies, Diagnostic Centers, Research Laboratories, Blood Banks), By Region, Competition Forecast & Opportunities, 2026
https://www.techsciresearch.com/report/united-states-biomedical-refrigerators-and-freezers-market/7502.html
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