Cancer screening with multicancer detection tests: A translational science review.
Wendy S RubinsteinChristos PatriotisAnthony DickherberPaul K J HanHormuzd A KatkiElyse LeeVanPaul F PinskyPhilip C ProrokAmanda L SkarlupkaSarah M TemkinPhilip E CastleLori M MinasianPublished in: CA: a cancer journal for clinicians (2024)
Multicancer detection (MCD) tests use a single, easily obtainable biospecimen, such as blood, to screen for more than one cancer concurrently. MCD tests can potentially be used to improve early cancer detection, including cancers that currently lack effective screening methods. However, these tests have unknown and unquantified benefits and harms. MCD tests differ from conventional cancer screening tests in that the organ responsible for a positive test is unknown, and a broad diagnostic workup may be necessary to confirm the location and type of underlying cancer. Among two prospective studies involving greater than 16,000 individuals, MCD tests identified those who had some cancers without currently recommended screening tests, including pancreas, ovary, liver, uterus, small intestine, oropharyngeal, bone, thyroid, and hematologic malignancies, at early stages. Reported MCD test sensitivities range from 27% to 95% but differ by organ and are lower for early stage cancers, for which treatment toxicity would be lowest and the potential for cure might be highest. False reassurance from a negative MCD result may reduce screening adherence, risking a loss in proven public health benefits from standard-of-care screening. Prospective clinical trials are needed to address uncertainties about MCD accuracy to detect different cancers in asymptomatic individuals, whether these tests can detect cancer sufficiently early for effective treatment and mortality reduction, the degree to which these tests may contribute to cancer overdiagnosis and overtreatment, whether MCD tests work equally well across all populations, and the appropriate diagnostic evaluation and follow-up for patients with a positive test.
Keyphrases
- papillary thyroid
- public health
- squamous cell
- early stage
- clinical trial
- healthcare
- type diabetes
- childhood cancer
- palliative care
- risk assessment
- adipose tissue
- risk factors
- lymph node
- rectal cancer
- cardiovascular disease
- cardiovascular events
- pain management
- skeletal muscle
- chronic pain
- body composition
- coronary artery disease
- single cell
- metabolic syndrome
- loop mediated isothermal amplification
- glycemic control
- insulin resistance
- soft tissue
- quantum dots
- sensitive detection