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OncologyCondition·Updated Jul 11, 2026·v1

Prostate Cancer

Prostate cancer is a common malignancy with a wide spectrum of behavior. Early detection through PSA and MRI reduces mortality. Management is risk-stratified: active surveillance for low-risk, definitive local therapy for intermediate/high-risk, and systemic therapy intensification for metastatic disease. Genomic testing guides PARP inhibitor use. Survival has improved dramatically with combination therapies.

High Evidence834 references·2,517 words·11 min read·v1
prostate canceroncologyPSAGleason scoreandrogen deprivation therapyADTmetastatic prostate cancercastration-resistantPARP inhibitorsPSMA PETactive surveillancedocetaxelenzalutamideabirateronedarolutamideapalutamideolaparibnirapariblu-177 PSMA-617radium-223neuroendocrine prostate cancerbiochemical recurrencesalvage radiotherapygenomic testingHRR mutationsMSI-HdMMRpembrolizumabbone protectionzoledronic aciddenosumab

Quick Reference

RxDrug of choiceAndrogen deprivation therapy (ADT) with a GnRH agonist (e.g., leuprolide 22.5 mg IM q3mo) or antagonist (relugolix 120 mg PO daily) is the backbone. For mHSPC, add docetaxel 75 mg/m² IV q3wk x6 cycles plus an ARPI (e.g., darolutamide 600 mg BID, enzalutamide 160 mg daily, or abiraterone 1000 mg daily with prednisone 5 mg BID).
AltAlternativesApalutamide 240 mg daily, abiraterone 1000 mg daily with prednisone 5 mg BID, darolutamide 600 mg BID, enzalutamide 160 mg daily; for mCRPC with HRR mutations: olaparib 300 mg BID, niraparib 300 mg daily; for PSMA-positive mCRPC: 177Lu-PSMA-617 7.4 GBq q6wk x6 cycles; for bone metastases: radium-223 55 kBq/kg IV q4wk x6 cycles.
Avoid5α-reductase inhibitors (finasteride, dutasteride) for prevention due to increased detection of high-grade disease; non-dihydropyridine CCBs (diltiazem, verapamil) in heart failure; immunotherapy without MSI-H/dMMR (no benefit).
DxTest of choiceSerum PSA for screening; multiparametric MRI (mpMRI) with PI-RADS v2.1 for risk stratification and biopsy guidance; combined systematic and MRI-targeted biopsy for histologic diagnosis; PSMA PET/CT for staging and biochemical recurrence detection.
ScKey scoreGleason grade group (GG1-5) and NCCN risk stratification (low, favorable intermediate, unfavorable intermediate, high, very high) for localized disease; CHAARTED criteria (high-volume vs low-volume) for metastatic disease; PSA doubling time ≤10 months for nmCRPC.
When to referRefer to urology for abnormal DRE/elevated PSA and biopsy; to radiation oncology for definitive RT or salvage RT; to medical oncology for systemic therapy in metastatic or high-risk disease; to palliative care for advanced symptom management; to genetic counseling for men with germline mutations (BRCA2, HOXB13, Lynch syndrome).
Prostate cancer is highly treatable; early detection via PSA and MRI reduces mortality; management is risk-stratified from active surveillance for low-risk disease to triplet therapy (ADT + docetaxel + ARPI) for high-volume mHSPC; genomic testing for HRR mutations and MSI-H/dMMR guides PARP inhibitor and immunotherapy use, respectively.
Prostate cancer is a common malignancy with diverse clinical presentations and outcomes. This concise reference summarizes key clinical facts, drug regimens, diagnostic thresholds, and management strategies, preserving essential citations and wikilinks for bedside use.

Overview and Recommendations

Background

  • Prostate cancer is the second most common cancer in men worldwide, with over 1.3 million new cases and 416,000 deaths annually, and the lifetime risk of diagnosis is approximately 1 in 8. Age is the strongest risk factor, with median age at diagnosis of 66 years; incidence rises sharply after age 50.
  • The vast majority (>95%) are acinar adenocarcinomas, but histologic variants such as ductal, neuroendocrine, and small-cell carcinoma carry distinct biology and prognosis. Neuroendocrine prostate cancer (NEPC) is particularly aggressive, often AR-negative, and can arise de novo or as treatment-emergent transformation in 17% of CRPC patients.
  • Risk factors include family history (RR 2.3), African American race (1.7-fold incidence), and germline mutations in BRCA2 (3-5 fold risk), HOXB13, and Lynch syndrome genes. Approximately 11.8% of men with metastatic prostate cancer carry a deleterious germline mutation in DNA repair genes.
  • The molecular landscape is defined by recurrent TMPRSS2-ERG fusions (~50% of localized cases), SPOP mutations (~10-15%), and PTEN loss, with the AR pathway remaining central. Androgen receptor signaling drives progression to castration-resistant disease through AR amplification, mutations, and splice variants like AR-V7.
  • Screening with PSA reduces prostate cancer mortality by 13% over 23 years (NNT 456), but overdiagnosis is a concern; MRI-based screening pathways halve detection of insignificant cancer. Shared decision-making beginning at age 45 (age 40 for high-risk) is recommended.
  • The paradigm has shifted from single-agent ADT to biomarker-guided intensification: triplet therapy (ADT + docetaxel + ARPI) for fit patients with high-volume metastatic disease, and PARP inhibitors for HRR-mutated CRPC, improving survival substantially.

Evaluation

  • Suspect prostate cancer in any man over 50 with lower urinary tract symptoms (hesitancy, weak stream, frequency, nocturia) or in younger men with a strong family history or African American ancestry. Many cases are asymptomatic, detected by elevated PSA on screening.
  • Ask about the duration and severity of urinary symptoms, presence of hematuria or hematospermia (suggesting locally advanced disease), new-onset erectile dysfunction, and axial bone pain (suggesting metastases). Constitutional symptoms like unintentional weight loss or fatigue indicate high-volume disease.
  • Examine with digital rectal examination (DRE): a palpable nodule, asymmetry, induration, or loss of seminal vesicle angle suggests extraprostatic extension. Palpable supraclavicular or inguinal lymphadenopathy indicates regional spread.
  • Order serum PSA as the initial test. PSA >4.0 ng/mL is typical threshold for further workup, but age-specific and risk-stratified thresholds exist. Confirm with a repeat PSA if elevated.
  • For patients with abnormal DRE or elevated PSA, proceed with multiparametric MRI (mpMRI) of the prostate using PI-RADS v2.1. A PI-RADS score of 4 or 5 independently predicts clinically significant cancer and guides biopsy targeting.
  • Perform prostate biopsy via transrectal ultrasound (TRUS) or transperineal approach. Combined systematic (10-12 cores) and MRI-targeted biopsy from all visible lesions minimizes undergrading; MRI-targeted alone misses 8.8% of grade group ≥3 cancers.
  • Histologic evaluation reports Gleason grade group (GG1-5) and notes cribriform architecture and intraductal carcinoma (IDC-P), which independently predict aggressive behavior. GG1 (Gleason ≤6) is considered low-risk; GG4-5 are high-risk.
  • Stage the disease using the 8th edition AJCC TNM classification. Clinical T staging relies on DRE and MRI; pathological T staging after prostatectomy is the strongest predictor of recurrence. PSMA PET/CT is superior to conventional imaging for detecting nodal and distant metastases.
  • For patients with metastatic disease, classify as high-volume (visceral metastases or ≥4 bone lesions with ≥1 outside axial skeleton) or low-volume, as this guides therapy intensification (docetaxel benefit primarily in high-volume).
  • Assess for spinal cord compression in any patient with back pain and neurologic symptoms: emergency MRI and dexamethasone 10 mg IV bolus.
  • Order germline and somatic genomic testing for all men with metastatic disease to identify HRR gene alterations (BRCA1/2, ATM) for PARP inhibitor eligibility, and MSI-H/dMMR for immunotherapy.
  • Consider liquid biopsy (ctDNA, CTC) for monitoring disease evolution and detecting resistance mechanisms, particularly in CRPC.

Management

  • For low-risk localized disease (cT1-cT2a, GG1, PSA <10 ng/mL), recommend active surveillance: PSA every 6 months, DRE annually, and repeat MRI/biopsy every 1-3 years. Avoid immediate treatment.
  • For favorable intermediate-risk (one intermediate factor, <50% positive cores), options include active surveillance, radical prostatectomy (RP) with pelvic lymph node dissection, or definitive radiotherapy (RT) with or without short-term ADT (4-6 months). Use stereotactic body RT (SBRT) 36.25 Gy in 5 fractions if appropriate.
  • For unfavorable intermediate-risk (two factors, GG3, or ≥50% positive cores), recommend RP or RT with ADT (4-6 months). Whole-pelvic RT improves biochemical failure-free survival (POP-RT: HR 0.23).
  • For high-risk localized disease (cT3a, GG4/5, PSA >20 ng/mL), use multimodal therapy: RP with extended lymph node dissection, or RT with long-term ADT (18-36 months). Consider a focal boost to the intraprostatic lesion (FLAME: up to 95 Gy) to improve biochemical control.
  • For very high-risk (cT3b-T4, primary pattern 5, >4 cores GG4/5), consider RT with ADT plus abiraterone/prednisone (STAMPEDE arm G) or RP with adjuvant RT.
  • For biochemical recurrence after RP (PSA ≥0.2 ng/mL), observe until PSA reaches 0.2 ng/mL, then offer salvage RT to the prostate bed. If PSA doubling time ≤9 months, add enzalutamide 160 mg daily plus leuprolide 22.5 mg IM q3mo (EMBARK trial: HR 0.42 for MFS).
  • For metastatic hormone-sensitive prostate cancer (mHSPC), initiate ADT (leuprolide 22.5 mg IM q3mo or relugolix 120 mg PO daily) plus an ARPI (darolutamide 600 mg BID, enzalutamide 160 mg daily, or abiraterone 1000 mg daily with prednisone 5 mg BID). For fit patients with high-volume disease, add docetaxel 75 mg/m² IV q3wk for 6 cycles (triplet therapy). This improves OS by 32% (ARASENS).
  • For low-volume mHSPC, doublet therapy (ADT + ARPI) is sufficient; consider prostate RT (≤3 bone metastases, M1a only) to improve OS (HR 0.62).
  • For nonmetastatic CRPC (nmCRPC) with PSA doubling time ≤10 months, continue ADT and add apalutamide 240 mg daily, darolutamide 600 mg BID, or enzalutamide 160 mg daily. These improve MFS by 22-24 months.
  • For mCRPC, continue ADT. First-line options: if no prior ARPI, use abiraterone/prednisone or enzalutamide. If prior ARPI, consider docetaxel 75 mg/m² q3wk, or 177Lu-PSMA-617 (7.4 GBq q6wk x6 cycles) for PSMA-positive disease (VISION: OS 15.3 vs 11.3 months).
  • For mCRPC with HRR mutations (BRCA1/2, ATM), use olaparib 300 mg BID (PROfound: HR 0.34 for rPFS) or niraparib 300 mg daily with abiraterone (MAGNITUDE: HR 0.53 for BRCA1/2). Test for MSI-H/dMMR; if positive, pembrolizumab 200 mg IV q3wk.
  • For mCRPC with bone metastases, consider radium-223 55 kBq/kg IV q4wk x6 cycles (no visceral disease). Add bone-protective agent: zoledronic acid 4 mg IV q6mo or denosumab 120 mg SC monthly.
  • For neuroendocrine prostate cancer, treat with platinum-based chemotherapy: carboplatin AUC 5 IV q3wk + docetaxel 75 mg/m², or etoposide 100 mg/m² IV days 1-3 + cisplatin 25 mg/m² IV days 1-3 q3wk.
  • Avoid: 5α-reductase inhibitors for prevention (increase high-grade detection), non-dihydropyridine CCBs (worsen HF), and immunotherapy without MSI-H/dMMR (no benefit).
  • Monitor: PSA every 3 months during therapy, imaging (CT, bone scan, PSMA PET) as indicated for progression. Assess for ADT side effects: hot flashes, fatigue, osteoporosis, cardiovascular risk. Use GnRH antagonist (relugolix) if prior cardiovascular disease.
  • Refer to medical oncology for systemic therapy, radiation oncology for RT, urology for biopsy and surgery, and palliative care for advanced disease symptom management.
  • Discharge criteria: not applicable; prostate cancer is chronic. For advanced disease, transition to hospice when no further disease-modifying therapy is appropriate.

Board Review — High Yield

  • Gleason grade group, GG1 (Gleason ≤6) is low-risk; GG5 (Gleason 9-10) is high-risk; cribriform architecture and intraductal carcinoma independently predict aggressive behavior.
  • NCCN risk groups, Low (cT1-T2a, GG1, PSA <10), favorable intermediate (one factor, <50% cores), unfavorable intermediate (≥2 factors, GG3, or ≥50% cores), high (cT3a, GG4/5, PSA >20), very high (cT3b-T4, primary pattern 5, >4 cores GG4/5).
  • PSA screening, Reduces mortality by 13% over 23 years (NNT 456); MRI triage halves overdiagnosis; shared decision-making starting at age 45 (age 40 for high-risk).
  • Triplet therapy for mHSPC, ADT + docetaxel 75 mg/m² q3wk x6 cycles + ARPI (darolutamide 600 mg BID, enzalutamide 160 mg daily, or abiraterone 1000 mg daily with prednisone 5 mg BID) reduces risk of death by 32% (ARASENS).
  • PARP inhibitors in mCRPC, Olaparib 300 mg BID (PROfound: HR 0.34 for rPFS in BRCA1/2/ATM) and niraparib 300 mg daily with abiraterone (MAGNITUDE: HR 0.53 for BRCA1/2) are options for HRR-mutated tumors.
  • PSMA PET/CT, Superior to conventional imaging for staging and biochemical recurrence; detection rate >80% for PSA ≥1.0 ng/mL; changes management in 52% of patients.
  • Active surveillance, Preferred for low-risk disease; 15-year cause-specific survival 94.3%; requires PSA q6mo, DRE annually, repeat MRI/biopsy q1-3yr.
  • Neuroendocrine prostate cancer, Aggressive, AR-negative, often treatment-emergent; treat with platinum-based chemotherapy (carboplatin AUC 5 + docetaxel 75 mg/m², or etoposide 100 mg/m² + cisplatin 25 mg/m² days 1-3 q3wk).
  • Biochemical recurrence, PSA ≥0.2 ng/mL after RP; salvage RT at this threshold; consider adding enzalutamide + leuprolide if PSA doubling time ≤9 months (EMBARK: HR 0.42 for MFS).
  • Bone protection, For patients on ADT with metastatic disease, use zoledronic acid 4 mg IV q6mo or denosumab 120 mg SC monthly to reduce skeletal-related events.

Deep Dive — Evidence Details

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