Prostate Biopsy - Facoltà di Medicina e Chirurgia
Transcription
Prostate Biopsy - Facoltà di Medicina e Chirurgia
Marcatori Tumorali Breast self exam. Clinical Breast exam. Fecal occul blood test CA Cancer J Clin 2010;60:99-119 CA Cancer J Clin 2010;60:99-119 CLASSI DI MARCATORI TUMORALI • Proteine oncofetali – Antigene carcinoembrionario (CEA) – Alfa-fetoproteina (AFP) – Gonadotropina corionica umana (hCG) – Antigene del carcinoma a cellule squamose (SCC) • Glicoproteine (Carbohydrate Antigen, CA) – CA-125 – CA 19-9 – CA-15-3 • Enzimi – – – • Prostate-specific antigen (PSA) Enolasi neurone-specifica (NSE) Fosfatasi alcalina Ormoni e recettori ormonali – ACTH e altri ormoni – Recettori mammari per estrogeni e progesterone • Proteine di superficie cellulare – Beta2-microglobulina • Marcatori cellulari – Oncogeni (N-ras) – Geni soppressori (p53) – BRCA1 e BRCA2 – c-erB-2 (HER-2)/neu Gion & Daidone Eur J Cancer 2004;40:2613-22 MARKERS TUMORALI IDEAL TUMOR MARKER • Be specific to the tumor • Level should change in response to tumor size • An abnormal level should be obtained in the presence of micrometastases • The level should not have large fluctuations that are independent of changes in tumor size • Levels in healthy individuals are at much lower concentrations than those found in cancer patients • Predict recurrences before they are clinically detectable • Test should be cost effective 6 Tumor Markers some key facts: 1. 2. 3. 4. 5. 6. Lack of specificity Cancer heterogeneity False negatives Benign diseases positive CA 125 or CEA Smokers have raised CEA Many men (20-40% !?) die with, not from, prostate ca. 7 MARKERS TUMORALI • OBIETTIVO CLINICO • Diagnosi differenziale con malattia benigna: markers tumorali che hanno potenzialità diagnostica nel distinguere appunto il tumore dalle patologie benigne dello stesso organo; • Bilancio di base: markers tumorali utili nell'inquadramento iniziale del paziente a diagnosi fatta, prima di ogni intervento terapeutico; in particolare si riferisce se i markers tumorali danno indicazioni sull'estensione della malattia, sul tipo istologico o sulla prognosi; • Risposta al trattamento primario: markers tumorali che danno indicazioni circa la radicalità del trattamento del tumore primitivo; • Riconoscimento precoce della progressione: markers tumorali che sono considerati efficaci per l'identificazione precoce di una eventuale ricaduta della malattia. • Monitoraggio della terapia per la malattia avanzata: markers tumorali che possono essere usati per monitorare l'efficacaia delle terapie per la malattia metastatica. 8 Antigene polipeptidico tissutale Mucinous-like cancer antigen 9 La proteina di Bence Jones: il primo marcatore tumorale nella storia della medicina CEA: antigene carcinoembrionario identificazione: Gold P., Freedman S.O., 1965 categoria: antigene tumore associato natura chimica: glicoproteina peso molecolare: 200 kD tempo di dimezzamento: circa 6-8 gg cause non oncologiche di incremento: - patologia benigna del tratto gastroenterico, del fegato, del polmone, - insufficienza renale cronica Carlo Franzini - Università degli Studi di Milano - 2004 12 13 Carlo Franzini - Università degli Studi di Milano - 2004 14 Carlo Franzini - Università degli Studi di Milano - 2004 15 Carlo Franzini - Università degli Studi di Milano - 2004 16 AFP: alfafetoproteina identificazione: Abelev G.T., 1963 categoria: antigene tumore associato natura chimica: glicoproteina (alfa-1-globulina) peso molecolare: circa 67 kD tempo di dimezzamento: 5-6 gg cause non oncologiche di incremento: - epatopatia cronica, - gravidanza CYFRA21.1 identificazione: Stieber P. et al; Pujol, J.L. et al, 1993 categoria: frammento solubile della citocheratina 19 natura chimica: proteina peso molecolare: 40 kD tempo di dimezzamento: non noto principali cause non oncologiche di incremento: - epatopatia, - malattie broncopolmonari croniche CA15.3 identificazione: Kufe D., 1984 categoria: mucina natura chimica: glicoproteina mucino simile peso molecolare: 300-450 kD tempo di dimezzamento: non determinato principali cause non oncologiche di incremento: - epatopatia NSE: enolasi neurone specifica identificazione (come marker tumorale): Tapia E.J., 1981 categoria: enzimi natura chimica: glicoproteina peso molecolare: circa 90 kD tempo di dimezzamento: non determinato cause non oncologiche di incremento: - emolisi del campione 2007 UPDATE OF ASCO RECOMMENDATIONS FOR THE USE OF TUMOR MARKERS IN BREAST CANCER Clinical Practice Guideline JCO, Vol 25, No 33 (November 20), 2007:5287-5312 Not Recommended Recommended CA 15-3, CA 27.29 (Circulating) Screening, diagnosis, staging, prognosis, or surveillance. Using alone for monitoring. For monitoring patients with metastatic disease during active therapy, in conjunction with diagnostic imaging, history, and physical exam. CEA (Circulating) Screening, diagnosis, staging, prognosis, or surveillance. Using alone for monitoring. For monitoring patients with metastatic disease during active therapy, conjunction with diagnostic imaging, history, and physical exam. ER (tissue), PgR (tissue) For women with DCIS who are candidates for hormonal therapy. For diagnosis, treatment planning – on every primary invasive breast cancer and on metastatic lesions if would influence treatment planning. DNA Flow Cytometrybased proliferation (tissue) Screening, diagnosis, staging, prognosis, surveillance, or monitoring. Ki67, Cyclin D, Cyclin Screening, diagnosis, E, p27, p21, thymidine staging, prognosis, kinase, topoisomerase surveillance, or monitoring. II, or other markers of proliferation (tissue) HER2 (tissue) Human epidermal growth factor receptor-2 (HER2) Screening, diagnosis, staging, prognosis, surveillance, or monitoring. Should not be used to withhold or select one specific type of endocrine treatment. Not to Guide use of adjuvant taxane treatment. Circulating Extracellular Domain of HER2 Screening, diagnosis, staging, prognosis, surveillance, or monitoring. For treatment planning, identification of patients who may benefit from trastuzumab and/or from anthracyclinebased adjuvant therapy. ASCO 2006 Update of Recommendations for the Use of Tumor Markers in Gastrointestinal Cancer Recommendations and Conclusion For colorectal cancer, it is recommended that: CEA be ordered preoperatively, if it would assist in staging and surgical planning. Postoperative CEA levels should be performed every 3 months for stage II and III disease for at least 3 years if the patient is a potential candidate for surgery or chemotherapy of metastatic disease. CEA is the marker of choice for monitoring the response of metastatic disease to systemic therapy. Data are insufficient to recommend the routine use of p53, ras, thymidine synthase, dihydropyrimidine dehydrogenase, thymidine phosphorylase, microsatellite instability, 18q loss of heterozygosity, or deleted in colon cancer (DCC) protein in the management of patients with colorectal cancer. J Clin Oncol 24:5313-5327 2006 CA19-9 (pancreatic cancer) Screening CA19-9 is not recommended for use as a screening test for pancreatic cancer. Operability The use of CA19-9 testing alone is not recommended for use in determining operability or the results of operability in pancreatic cancer. Evidence of recurrence CA19-9 determinations by themselves cannot provide definitive evidence of disease recurrence without seeking confirmation with imaging studies for clinical findings and/or biopsy. Monitoring response to therapy Present data are insufficient to recommend the routine use of serum CA19-9 levels alone for monitoring response to treatment. However, CA19-9 can be measured at the start of treatment for locally advanced metastatic disease and every one to three months during active treatment. If there is an elevation in serial CA19-9 determinations, this may be an indication of progressive disease and confirmation with other studies should be sought. Zones of the Prostate Urinary Bladder Transition Zone (BPH) Anterior Fibromuscular Stroma Urethra Ejaculatory Duct Rectum Central Zone Peripheral Zone (Prostate Cancer) 30 Diagnosing Prostate Cancer DETECTING PROSTATE CANCER PSA Digital Rectal Exam Biopsy STAGING PROSATE CANCER The TNM staging system Histologic Grading: The Gleason Score Post-Surgical Evaluation Imaging Bone Metastases 31 PSA and Prostate Cancer Incidence and Mortality (U.S. 1975-2000) 250 15 PSA Screening 200 14 175 13 150 12 125 100 Mortality Incidence 225 11 75 Source: Surveillance, Epidemiology, and End Results Program, 1975-2000, Division of Cancer Control and Population Sciences, National Cancer Institute, 2003. 2000 1995 1990 1985 1980 10 1975 50 32 What is PSA? Prostate-Specific Antigen An antigen is something an antibody binds to. Member of the Kallikrein protease family. Vast majority of PSA in our body is produced by secretory prostate epithelial cells. Also made in very low amounts in the breast, thyroid, and placenta, among others. 33 Normal Function of PSA Secreted in high concentrations into the seminal fluid (mg/mL), where it cleaves gel-forming proteins semenogelin and fibronectin to increase sperm motility Normally found in low concentration in sera (ng/mL). Serum PSA increases as epithelial cell number (tumor volume) increases. 34 PSA Function and Activity Pro-PSA (Inactive) Inhibitory Region PSA (Active) Pro-Seminogelin (Inactive) Seminogelin (Active) Liquefaction of Seminal Fluid 35 Forms of PSA in Blood 70-90% of serum PSA is bound to the protease inhibitor a1-Anti-Chymotrypsin (ACT). 10-30% of serum PSA is free and unbound. Minor amounts (<1.0%) are bound to a2MicroGlobulin (MG – undetectable using current clinical methods). PSA index: ratio of free/total PSA. Aids in the discrimination between BPH and PCa, values < 7% are associated with PCa, values >25% are usually not associated with PCa 36 PSA Levels and Turnover Semen: 0.5-2.0 milligram/mL (1/1000 gram). Normal Blood: varies with age, race, and prostate volume. Around 1.0 nanogram/mL. The serum half-life of PSA is 2-3 days. 37 Use of PSA as a Marker for Prostate Cell Growth PSA elevations may indicate the presence of prostate disease. Normal prostatic growth: 0.04ng/mL increase per year. BPH: 0.07-0.27ng/mL increase per year. Prostate Cancer: greater than 0.75ng/mL increase per year. 38 The Predictive Power of SPSA Approximate chance of having prostate cancer on biopsy: Below 4 ng/mL Between 4-10 ng/mL Greater than 10 ng/mL 1 in 50 1 in 4 1 in 2 to 2 in 3 Comparison: A man older than 50 years with PSA abnormality is 2x more likely to harbor a tumor than a woman older than 50 years of age with an abnormal mammogram. 40 Factors That Influence PSA Levels Prostate Disease – BPH (Benign Prostatic Hyperplasia) – Prostatitis (Inflammation) – Prostate Cancer Prostate Manipulation – Prostate Massage (DRE) – Prostate Biopsy – Sexual Activity PSA gene expression is regulated by Androgens. 41 DRE and PSA Combined In a screening study where 264 cancers were found: 18% would have been missed if PSA alone had been used. 45% would have been missed is DRE alone was used. Other studies have confirmed that both PSA and DRE are complimentary approaches. 42 Prostate Biopsy Gold standard to confirm the presence of prostate cancer. Used after rising PSA and/or suspicious DRE. Purpose: take prostate tissue and examine under a microscope (Histology). 43 Schröder et al. Screening and prostate-cancer mortality in a randomized European study. N Engl J Med. 2009 Mar 26;360(13):1320-8. We identified 182,000 men between the ages of 50 and 74 years, they were randomly assigned to a group that was offered PSA screening at an average of once every 4 years or to a control group that did not receive such screening. Results. 1410 men would need to be screened and 48 additional cases of prostate cancer would need to be treated to prevent one death from prostate cancer. Conclusions PSA-based screening reduced the rate of death from prostate cancer by 20% but was associated with a high risk of overdiagnosis. Andriole et al. Mortality results from a randomized prostatecancer screening trial. N Engl J Med. 2009 Mar 26;360(13):1310-9. We randomly assigned 76,693 men at 10 U.S. study centers to receive either annual screening (38,343 subjects) or usual care as the control (38,350 subjects). Men in the screening group were offered annual PSA testing for 6 years and digital rectal examination for 4 years. Results After 7 years of follow-up, the incidence of prostate cancer per 10,000 person-years was 116 (2820 cancers) in the screening group and 95 (2322 cancers) in the control group. The incidence of death per 10,000 person-years was 2.0 (50 deaths) in the screening group and 1.7 (44 deaths) in the control group Conclusions After 7 to 10 years of follow-up, the rate of death from prostate cancer was very low and did not differ significantly between the two study groups. CA Cancer J Clin 2010;60:70–98. Figure 1. Trends in prostate cancer incidence and mortality rates, US, 1975-2006. American Cancer Society Guideline for Early Prostate Cancer Detection 2010 • The ACS recommends that asymptomatic men who have at least a 10-year life expectancy should have an opportunity to make an informed decision with their health care provider about whether to be screened for prostate cancer, after receiving information about the uncertainties, risks, and potential benefits associated with prostate cancer screening. • Prostate cancer screening should not occur without an informed decisionmaking process. • Men at average risk should receive this information beginning at age 50 years. • Men at higher risk, including African American men and men who have a first-degree relative (father or brother) diagnosed with prostate cancer before age 65 years, should receive this information beginning at age 45 years. • Men at appreciably higher risk (multiple family members diagnosed with prostate cancer before age 65 years) should receive this information beginning at age 40 years. CA Cancer J Clin 2010;60:70–98. American Cancer Society Guideline for Early Prostate Cancer Detection 2010 • For men who are unable to decide, the screening decision can be left to the discretion of the health care provider • Asymptomatic men who have less than a 10-year life expectancy based on age and health status should not be offered prostate cancer screening. • At age 75 years, only about half of men have a life expectancy of 10 years or more. Men in this age group with significant comorbidities, as well as younger men with life-limiting comorbid conditions, are not likely to benefit from screening. CA Cancer J Clin 2010;60:70–98.