Prostate cancer Screening Clinical practice guidelines for prostate cancer
screening vary and are controversial, in part due to uncertainty as to whether the benefits of screening ultimately outweigh the risks of
overdiagnosis and overtreatment. In the United States, the
Food and Drug Administration (FDA) has approved the PSA test for annual screening of prostate cancer in men of age 50 and older. The patient is required to be informed of the risks and benefits of PSA testing prior to performing the test. In the United Kingdom, the
National Health Service (NHS) does not mandate, nor advise routine PSA testing, but allows patients over 50 to request a test based on their doctor's advice, in an "informed choice programme called prostate cancer risk management for healthy men". PSA levels between 4 and 10 ng/mL (nanograms per millilitre) are considered to be suspicious, and consideration should be given to confirming the abnormal PSA with a repeat test. If indicated,
prostate biopsy is performed to obtain a tissue sample for
histopathological analysis. False-positive test results can cause confusion and anxiety in men, and can lead to unnecessary prostate
biopsies, a procedure which causes risk of pain, infection, and
hemorrhage. False-negative results can give men a false sense of security, though they may actually have cancer.
Risk stratification and staging Men with prostate cancer may be characterized as low, intermediate, or high risk for having/developing metastatic disease or dying of prostate cancer. PSA level is one of three variables on which the risk stratification is based; the others are the grade of prostate cancer (
Gleason grading system) and the stage of cancer based on physical examination and imaging studies. D'Amico criteria for each risk category are: :Low risk: PSA 20, Gleason score ≥ 8, OR clinical stage ≥ T3 Given the relative simplicity of the 1998 D'Amico criteria (above), other predictive models of risk stratification based on
mathematical probability constructs exist or have been proposed to allow for better matching of treatment decisions with disease features. Studies are being conducted into the incorporation of multiparametric
MRI imaging results into
nomograms that rely on PSA, Gleason grade, and tumor stage.
Post-treatment monitoring PSA levels are monitored periodically (e.g., every 6–36 months) after treatment for prostate cancermore frequently in patients with high-risk disease, less frequently in patients with lower-risk disease. If surgical therapy (i.e., radical prostatectomy) is successful at removing all prostate tissue (and prostate cancer), PSA becomes undetectable within a few weeks. A subsequent rise in PSA level above 0.2ng/mL L is generally regarded as evidence of recurrent prostate cancer after a radical prostatectomy; less commonly, it may simply indicate residual benign prostate tissue. Following radiation therapy of any type for prostate cancer, some PSA levels might be detected, even when the treatment ultimately proves to be successful. This makes interpreting the relationship between PSA levels and recurrence/persistence of prostate cancer after radiation therapy more difficult. PSA levels may continue to decrease for several years after radiation therapy. The lowest level is referred to as the PSA nadir. A subsequent increase in PSA levels by 2.0ng/mL above the nadir is the currently accepted definition of prostate cancer recurrence after radiation therapy. Recurrent prostate cancer detected by a rise in PSA levels after curative treatment is referred to as a "
biochemical recurrence". The likelihood of developing recurrent prostate cancer after curative treatment is related to the pre-operative variables described in the preceding section (PSA level and grade/stage of cancer). Low-risk cancers are the least likely to recur, but they are also the least likely to have required treatment in the first place.
Prostatitis PSA levels increase in the setting of prostate infection/inflammation (prostatitis), often markedly (> 100). ==Forensic identification of semen==