Cancer Therapy Articles & Analysis: Older
194 articles found
They are adept at identifying and destroying infected or cancerous cells. However, their natural capacity may not always be sufficient to combat complex diseases. ...
This initiative represents a critical advancement in pursuing effective bladder cancer therapies and underscores the company’s commitment to providing diverse high-quality services for various fields of cancer research. ...
In recent years, messenger RNA (mRNA) technology has emerged as a revolutionary approach in the field of medicine, particularly in vaccine development and gene therapy. The ability to deliver mRNA effectively to target cells is crucial for harnessing its potential in treating a variety of diseases, including infectious diseases, cancer, and genetic disorders. ...
For instance, researchers can analyze how certain miRNAs contribute to tumorigenesis by restoring their levels in cancer cell lines, thereby providing insights into potential therapeutic strategies. Therapeutic Potential The therapeutic implications of miRNA mimics are vast, particularly in the context of cancer therapy. Many studies have ...
Notable examples include peptide hormones like insulin and drugs used in cancer treatment. Vaccines Synthetic peptides are employed in the development of vaccines, providing a safe and stable alternative to traditional attenuated or inactivated pathogens. ...
But the applications of mRNA extend far beyond vaccines: Cancer Treatment: Enzymes facilitate the development of mRNA-based therapies. Researchers work to create mRNA molecules that instruct the body’s immune system to produce proteins specific to tumor cells, thereby training the immune response to recognize and attack those cells more effectively. ...
Therefore, comprehensive drug development is pivotal in addressing these challenges and enhancing therapeutic outcomes in brain cancer treatment. To meet the increasing demand for targeted therapies for brain tumor research, Alfa Cytology offers robust brain tumor drug development services. ...
Cancer is a worldwide disease and one of the leading causes of morbidity and mortality today. ...
Precision-Cut Lung Slices (PCLS) have emerged as a innovative ex vivo model that allows researchers to explore deep into lung physiology, disease mechanisms, and pharmacological responses. By offering a unique combination of biological complexity and controlled experimental conditions, PCLS serve as a critical bridge between the limitations of traditional in vitro cell cultures and the ...
By introducing a functional gene into the cells with these symptoms, researchers hope to correct the inherited gene mutation and potentially cure the disease. Gene delivery in cancer treatment involves the use of viral or non-viral vectors to deliver therapeutic genes into cancer cells. These approaches allow the targeted delivery of genes that can inhibit ...
Peptidomimetics are structural analogs of peptides or proteins that mimic their biological activities. They are designed to overcome limitations associated with peptides, such as poor stability and bioavailability by preserving or enhancing their functions. Peptidomimetic development involves the design and synthesis of molecules that mimic three-dimensional structures and functional groups of ...
Alfa Cytology has announced cancer diagnostic biomarker development services to enhance precision in oncology research. Alfa Cytology, a pioneering biotech firm comprising an interdisciplinary team of scientists, bioinformaticians, and oncologists, has recently introduced its cancer diagnostic biomarker development services to advance personalized cancer treatment strategies. Cancer diagnosis ...
Antibody drugs, as a breakthrough in biotechnology, are now widely used in the treatment of various diseases, including cancer, autoimmune diseases, and infectious diseases. These drugs are usually precisely designed protein molecules that can specifically bind to targets in the human body, such as specific molecules on pathogens or diseased cells, thereby guiding the attack of the immune system ...
Understanding Clonality Analysis Clonality refers to the origin of a cell population from a single 'parent' or progenitor cell through asexual reproduction or division. This concept is vital in cancer studies as it helps track the development of tumor cells from a single mutated cell. Clonality analysis is thus essential in understanding the evolution and the spread of cancerous cells in a ...
The emergence of chimeric antigen receptor T-cell (CAR-T) therapy has revolutionized the treatment of certain cancers, providing a promising targeted approach to eliminate cancer cells. ...
CD BioSciences has launched new services on anti-centrosome antibody development to assist cancer preclinical research. It is committed to providing full packages from antigen synthesis to antibody generation and manufacturing. ...
High-throughput screening methods are also being leveraged to discover novel RNase inhibitors, with potential applications ranging from antiviral therapies to the stabilization of therapeutic RNA constructs. Future Directions Looking ahead, the role of ribonucleases in cellular biology and therapeutic intervention is poised for expansion. ...
Cancer vaccines are designed to stimulate the immune system to recognize and attack cancer cells, analogous to how traditional vaccines work against infectious diseases. The development principle of cancer vaccines usually includes the identification of antigens, vaccine formulation, immune activation, and targeting of cancer ...
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. ...
Treatment options traditionally include surgery, radiation therapy, and chemotherapy. However, these approaches can be invasive and have severe side effects. ...