Showing posts with label Ovarian cancer. Show all posts
Showing posts with label Ovarian cancer. Show all posts

Saturday, August 21, 2010

Of blood and breath: metabolite-based diagnosis of ovarian cancer

Physicians always knew that breath contains clues to diseases. Chemicals in breath often correlate with chemicals in saliva and blood - be it alcohol, anaesthetics or other metabolites (see, for example, this study by Dr Andreas Hengstenberg).

As one of my interests is breath-based detection of ovarian cancer, I took note of the recent paper claiming 99% to 100% accuracy of detecting ovarian cancer by metabolites in blood.
The authors used customized functional support vector machine-based machine-learning algorithms to classify thousands of metabolites measured by mass spectrometry (JEOL AccuTOF™ DART® that allowed to forego conventional liquid chromatography as sufficient resolution was achieved without separation) in peripheral blood. 

100% sensitivity and 100% specificity was achieved with 64-30 split validation technique, while 100% sensitivity and 98% specificity was the accuracy of leave-one-out-cross-validation. Very large number of metabolites, from 2,000 to 3,000 features, contributed to such discriminatory power (see the list of 14,000+ in supplemental material
 
Set of 25 canonical metabolic pathways relevant to the uploaded elemental
formulae ranked according to their p-values (hypergeometric distribution).
Histamine, amino acid, fructose and glucose metabolism were among the most prominent processes discriminating cancer and healthy blood.
It's that simple: sugar feeds cancer. Scientists have long found that cancer cells slurp fructose, and that fructose intake can be linked to some cancers. Histamine/polyamine interplay in cancers is also known. Histamine may be involved in inhibition of the local immune response against cancer. Is amino acid metabolism also linked to cancer? Well, what is not.   




Metabolomic biomarkers were always known to have diagnostic potential - cholesterol and glucose are among the oldest and most widely performed diagnostic tests. Yet, most bleeding edge cancer detection platforms are genomic or proteomic in nature.  Of the thousands of known biomarkers, only a handful have made it into the clinic. Existing ovarian cancer tests mostly rely on detecting a protein -  carbohydrate antigen 125. Vermillion's OVA1 and HealthLinx OvPlex tests use five proteins. This may be extended to 7.

Metabolites represent the end products of the genome and proteome, thus metabolomics-based diagnostics  holds the promise of providing powerful diagnostics,  allowing for differentiation of increased and decreased levels of chemicals with low process coefficient of variation.


Metabolomic tests were used for medical diagnostics starting with Hippocrates and Lavoisier. They continue to be explored by modern scientists. Dr Michael Phillips, for example, developed HeartsBreath Test, approved by the US Food and Drug Agency for early diagnosis of heart transplant rejection. Research proved the potential of inexpensive breath tests in discriminating lung, breast, colon and prostate cancers. Let's hope the new article  - along with others - will lead to novel consumer products, not only more academic research and peer-reviewed publications.


ResearchBlogging.org
Zhou M, Guan W, Walker LD, Mezencev R, Benigno BB, Gray A, Fernández FM, & McDonald JF (2010). Rapid Mass Spectrometric Metabolic Profiling of Blood Sera Detects Ovarian Cancer with High Accuracy. Cancer epidemiology, biomarkers & prevention : a publication of the American Association for Cancer Research, cosponsored by the American Society of Preventive Oncology PMID: 20699376
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