Note4Students
From UPSC perspective, the following things are important :
Prelims level: Cell Free DNA vs. Normal DNA
Mains level: Not Much
Central Idea
- Researchers worldwide are increasingly using Cell-free DNA (cfDNA) as a valuable tool to better comprehend human diseases, improve diagnosis, monitoring, and prognosis.
What is Cell-free DNA?
- CfDNA refers to small fragments of nucleic acids that are released from cells and found outside the cell in body fluids.
- Its discovery dates back to the late 1940s when it was first observed in the blood of pregnant women.
- cfDNA can be generated and released from cells in various situations, such as cell death and other physiological processes.
- The release of cfDNA is associated with several disease processes, including autoimmune diseases like systemic lupus erythematosus.
How is it different from normal DNA?
Cell-free DNA |
Normal DNA |
| Found in the bloodstream and other bodily fluids | Found within the cell nucleus or mitochondria |
| Released from dying or dead cells into the circulation | Remains within the cell’s nucleus or mitochondria |
| Exists in a fragmented form | Exists as an intact double-stranded helix |
| Can be isolated and analyzed from blood samples | Requires cell extraction and purification for analysis |
| Provides valuable genetic information for personalized medicine | Forms the basis of genetic inheritance and traits |
| Valuable in infectious disease diagnosis and monitoring | Not used for infectious disease diagnosis |
| Used in forensics for DNA profiling and crime investigations | Not typically used in forensics |
Applications of CfDNA
| Non-Invasive Prenatal Testing (NIPT) | Detect genetic abnormalities in foetuses
Screening for Down syndrome, Edwards syndrome, and Patau syndrome |
| Cancer Screening and Monitoring | Identify genetic mutations in tumour cells
Determine cancer type Monitor treatment response and disease progression |
| Transplant Rejection Monitoring | Monitor immune response after organ transplantation
Early detection of organ rejection |
| Infectious Disease Diagnosis | Identify viruses and bacteria in the bloodstream
Aid in diagnosing infections and guiding treatment |
| Personalized Medicine | Provide genetic information for tailored treatment plans
Enable precision medicine based on individual genetic profile |
| Tracking Tumour Mutations | Monitor drug-resistant mutations in cancer patients for treatment adjustments |
Recent Advances in Therapeutics
- GEMINI Test: Researchers at Johns Hopkins Kimmel Cancer Centre developed a new test called ‘GEMINI’ that uses cfDNA for early cancer detection. By analyzing genetic mutations and using machine learning, they achieved over 90% accuracy in detecting lung cancer, even in early-stage cases.
- Potential Impact: Early detection of cancers using cfDNA could significantly improve patient outcomes and survival rates.
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