What is Theranostics?


Theragnostics is an emerging area of medical science that combines therapeutics and diagnostics into a single technique. It involves using imaging or molecular profiling technologies to identify the biological characteristics of a patient's disease or condition, and then tailoring targeted treatment based on that profiling. The goal of theragnostics is to match each patient with the therapy that is most likely to benefit them by taking into account individual molecular variations.

Molecular Profiling Theranostics


A key part of the Theranostics approach involves using profiling technologies like genomics, proteomics or metabolomics to analyze biological samples from patients and determine the expression of certain genes, proteins or metabolites. This molecular profiling provides insights into disease mechanisms at the cellular and molecular level. Some examples of molecular profiling techniques used in theragnostics include:

- Genomic analysis using technologies like next-generation sequencing to sequence DNA or analyze RNA expression profiles. This can uncover genetic mutations that influence disease development or treatment response.

- Protein biomarker analysis using assays like immunohistochemistry, ELISA or mass spectrometry to detect and quantify specific proteins in blood, tissue or other samples. Certain proteins may serve as diagnostic or prognostic markers.

- Metabolomics profiling which analyzes metabolic signatures in biofluids or tissues using mass spectrometry or nuclear magnetic resonance spectroscopy. Metabolite profiles provide a functional readout of disease states.

Tailored Treatments and Monitoring


Once molecular profiling has been conducted to characterize a patient's specific disease biomarkers or signature, targeted therapies can then be selected that are designed to interact with the identified biomarkers. Some common types of tailored theranostic treatments include:

- Targeted drug therapies such as monoclonal antibodies, small molecule inhibitors or immune therapies that directly block or modulate molecular targets connected to a patient's disease. Examples include HER2-targeted drugs for breast cancer or EGFR inhibitors for lung cancer.

- Gene or cell therapies where genetic material or engineered cells are administered to correct genetic mutations or deficiencies. Gene therapies for diseases like retinal dystrophy are in development.

Get More Insights on- Theranostics

 

Explore More Related Article On- Artificial Insemination Market

 

Unlock More Insights—Explore the Report in the Language You Prefer: