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Precision Engineered Medicines Articles & Analysis
52 articles found
The increasing application of Lactobacillus species in biotechnology, pharmaceutical sciences, and clinical research has necessitated a more nuanced understanding of strain-specific characteristics and formulation parameters. This is particularly relevant for researchers working with lactobacillus acidophilus powder and selecting appropriate lactobacillus strains for specialized applications. ...
Applications of Chemokines and Recombinant Chemokines Recombinant chemokines—genetically engineered proteins produced via expression systems—have gained prominence in both experimental and clinical settings. ...
This structural insight is invaluable for optimizing binding affinity and specificity, ultimately leading to more effective therapeutics. Precision Engineering of Antibodies The concept of precision medicine has had a profound impact on antibody drug design. Researchers are increasingly focused on engineering ...
Recent advancements focus on enhancing its performance in tissue engineering and drug delivery systems. For instance, HA-based scaffolds are being developed to promote bone regeneration, while HA nanoparticles are engineered to deliver drugs directly to cancer cells, minimizing side effects. l Nanotechnology and Surface Engineering The ...
ByMatexcel
The advent of organoid technology has transformed biomedical research through the development of 3D models that precisely replicate human organ structures and functions in a physiological context. ...
Cytokines and growth factors are essential signaling molecules that play pivotal roles in immune regulation, inflammation, tissue repair, and numerous physiological and pathological processes. To comprehensively study these molecules, scientists often rely on high-throughput and sensitive technologies, among which Luminex Cytokine Panels have become a gold standard. This article delves into the ...
Exosomes, small vesicles released by cells, play an increasingly prominent role in intercellular communication and disease modulation. These nano-sized particles contain a diverse array of molecular cargo, including proteins, lipids, RNA, and metabolites, which serve as biomarkers for a variety of physiological conditions. Exosome lipidomics and metabolomics are key fields that focus on profiling ...
This specificity enhances the potential for precision medicine, where treatments can be customized based on individual patient profiles, maximizing therapeutic efficiency while minimizing off-target effects. ...
Alfa Cytology has introduced its advanced drug development services for brain tumors. Alfa Cytology, celebrated for its cutting-edge biotech solutions and extensive tumor research expertise, has recently introduced brain tumor drug development services, designed to empower researchers in understanding the intricacies and unique challenges associated with brain tumors. Brain tumors represent a ...
Cancer is a worldwide disease and one of the leading causes of morbidity and mortality today. Traditionally, mouse models have been used for research as in vivo model organisms. However, the zebrafish (Danio rerio), also known as zebrafish, has emerged as an important new cancer model due to its small size, brood weight, and rapid maturation time, complements models that can traditionally be ...
Clinical trials are the backbone of modern medicine, responsible for bringing innovative, safe, and efficient treatments to market after rigorous testing and evaluation. However, the conventional process of conducting these trials has often been long, expensive, and fraught with inefficiencies¹. The advent of predictive analytics is reshaping the landscape of clinical trials, ushering in a ...
In recent years, the field of biotechnology has seen groundbreaking advancements, with the integration of artificial intelligence (AI) into gene editing and therapy. AI-driven technologies have transformed the way we approach genetic modification and treatment, offering unprecedented opportunities for precision medicine and therapeutic interventions. One of the most significant applications of ...
Brain tumors can be broadly categorized into primary and secondary (or metastatic) tumors. Primary tumors originate in the brain1, while secondary tumors spread from other body parts. Treatment options traditionally include surgery, radiation therapy, and chemotherapy. However, these approaches can be invasive and have severe side effects. The battle against brain tumors is being ...
In response to the emerging needs in global healthcare, SOPHiA GENETICS has just revealed the New Generation SOPHiA DDM™ Platform, aiming to stay at the forefront of precision medicine and address today the healthcare needs of tomorrow. ...
This article explores the diverse applications of PEG derivatives in pharmaceuticals and drug delivery, shedding light on how they are shaping the future of medicine Enhancing Drug Solubility and Stability One of the most significant challenges in drug formulation is improving the solubility and stability of active pharmaceutical ingredients (APIs). ...
ESMO updated its recommendations for NGS in advanced cancers this year, urging broader use of NGS in additional cancer types and the inclusion of tumor-agnostic biomarkers. The ESMO Precision Medicine Working Group (PMWG) first published its recommendations for when to use next-generation sequencing (NGS) in routine practice for patients with metastatic cancers in 20201. At that time, based ...
Biopharmaceuticals and personalized medicine are hot fields in the development of the pharmaceutical industry today. Proteins, peptides, and antibodies are important molecules in the body and are important objects of research in biopharmaceuticals and personalized medicine. With the continuous advancement of protein, peptide, and antibody sequencing technology, they are playing an increasingly ...
The design of antibody drugs is a complex and delicate process, and its success often depends on a deep understanding and precise analysis of the antibody itself. In this process, antibody sequencing plays a crucial role. ...
Custom mRNA production has emerged as a cutting-edge technology in the field of molecular biology, offering researchers the ability to tailor-make specific messenger RNA molecules for various applications such as vaccine development, gene therapy, and regenerative medicine. This innovative process holds great promise in unlocking new possibilities in scientific research, paving the way for ...
Dr. Kate Sasser from Tempus led a discussion on the potential of antibody-drug conjugates (ADCs), their challenges in targeting tumor antigens, and the future of cancer treatment with Dr. Daniel Johnson, Dr. Funda Meric-Bernstam, and Dr. Kellogg Parsons. The oncology field is rapidly advancing with the development of antibody-drug conjugates (ADCs), offering new hope for ...
ByTempus