1.Prostate cancer group, INSERM U981, Institut Gustave Roussy, 114 rue Edouard Vaillant, 94800 Villejuif, France, University Paris-Sud 11, France
Epithelial tumours
Glandular neoplasms:Adenocarcinoma (acinar)- Atrophic- Pseudohyperplastic- Foamy- Colloid - Signet ring - Oncocytic - Lymphoepithelioma-like Carcinoma with spindle cell differentiation (carcinosarcoma, sarcomatoid carcinoma) Prostatic intraepithelial neoplasia (PIN)Prostatic intraepithelial neoplasia, grade III (PIN III) Ductal adenocarcinoma - Cribriform - Papillary - Solid
Urothelial tumours:Urothelial carcinoma
Squamous tumours:Adenosquamous carcinoma Squamous cell carcinoma
Basal cell tumours:Basal cell adenoma Basal cell carcinoma
Neuroendocrine tumoursEndocrine differentiation within adenocarcinoma Carcinoid tumour Small cell carcinoma Paraganglioma Neuroblastoma
Prostatic stromal tumoursStromal tumour of uncertain malignant potential Stromal sarcoma
Mesenchymal tumoursLeiomyosarcoma Rhabdomyosarcoma Chondrosarcoma Angiosarcoma Malignant fibrous histiocytoma Malignant peripheral nerve sheath tumour Haemangioma Chondroma Leiomyoma Granular cell tumour Haemangiopericytoma Solitary fibrous tumour
Hematolymphoid tumoursLymphomaLeukaemia
Miscellaneous tumoursCystadenoma Nephroblastoma (Wilms tumour) Rhabdoid tumour Germ cell tumoursYolk sac tumour Seminoma Embryonal carcinoma & teratoma Choriocarcinoma Clear cell adenocarcinoma Melanoma
Metastatic tumours
TNM classification: The TNM system is the most widely used for the stratification of prostatic carcinoma and is the standard system only for prostate adenocarcinomas. The current revision of the TNM system is shown in the Table (ICD-O C61):
Classification of Prostatic Carcinoma: TNM classification:
T-Primary TumorTX Primary tumour cannot be assessedT0 No evidence of primary tumorT1 Clinically inapparent tumour, neither palpable nor visible by imagingT1a Tumour incidental histological finding in 5% or less of tissue resectedT1b Tumour incidental histological finding in more than 5% of tissue resectedT1c Tumour identified by needle biopsy (e.g., because of elevated PSA)T2 Tumour confined within prostateT2a Tumour involves one-half of one lobe of lessT2b Tumour involves more than one-half of one lobe, but not both lobesT2c Tumour involves both lobesT3 Tumour extends through the prostatic capsuleT3a Extracapsular extension (unilateral or bilateral) including microscopic bladder neck involvementT3b Tumour invades seminal vesicle(s)T4 Tumour is fixed or invades adjacent structures other than seminal vesicles: external sphincter, rectum, levator muscles and/or pelvic wall
N-Regional Lymph NodesNX regional lymph nodes cannot be assessedN0 No regional lymph node metastasisN1 Regional lymph node metastasis
M-Distant MetastasisM0 No distant metastasisM1 Distant metastasisM1a Non-regional lymph node(s)M1b Bone(s)M1c Other site(s)
Prostate-specific markerPSA (Prostate-Specific Antigen) represents the best serum marker for prostate carcinoma. It is a 34 kD glycoprotein which is exclusively secreted from epithelial cells of the prostatic ducts. A small portion is absorbed into the blood. PSA is useful in diagnostic, staging and monitoring men who have prostate carcinoma, 4 ng/ml was established as the upper limit of normal. An elevation in the total PSA level can be the result of benign prostate hyperplasia, prostatitis, prostatic manipulations (DRE, needle biopsy, transrectal ultrasound) and intravesical BCG therapy rather than prostate carcinoma.Despite the reasonable performance of PSA in this setting, serum PSA lacks high sensitivity and specificity for prostate cancer. To improve this point, several approaches have been used including PSA density, PSA velocity and the fraction of free serum PSA.
Histopathological Grading and Gleason scoreGX: Grade cannot be assessed.G1: Well differenciated, Gleason 2-4.G2: Moderately differenciated; Gleason score 5-6.G3-4: Poorly differentiated/undifferentiated; Gleason score 7-10.
Therapeutic options for localized prostate cancer- Watchful waiting: or active surveillance is the best option for low risk cancers or for patients with a short life expectancy, estimated by age and co-morbidities. This therapeutic decision is also based on patient general health, potential side effects of treatment and patient preference.- Radical prostatectomy: is the best treatment in localised prostate cancer for patients with at least 10 years life expectancy. This option is classically used in low or intermediate intra-capsular tumors. Otherwise, surgical treatment may include not only prostatectomy but lymphadenectomy. - External-beam radiation therapy (EBRT): is one of the primary treatment modalities in localised and locally advanced prostate cancer. The introduction of 3D conformal radiotherapy in the early 1990s allows higher doses and safety radiation. The second generation 3D technique, intensity modulated radiotherapy (IMRT) is now required. - Brachytherapy: interstitial permanent brachytherapy as monotherapy is indicated for patients with low risk cancer. Intermediate risk patient could benefit from the brachytherapy if they have only one of the pre-mentionned risk factors.- Androgen deprivation: is not recommended in low and intermediate risk disease.- Cryotherapy, HIFU (High-intensity focused ultrasound) and other focal therapies are not recommended as standard initial treatment.
Therapeutic options for locally advanced prostate cancer (T3-4N0M0)- Management of locally advanced prostate cancer is usually EBRT combined to androgen deprivation therapy. Actually, a study of Messing and al. suggests that immediate androgen deprivation by surgical castration or LHRH agonist therapies decrease the risk of mortality. The benefit of neo-adjuvant hormone therapy remains unclear. - Radical prostatectomy in this case is indicated only occasionally in a very high selected patients.
Management of metastatic diseaseAndrogen suppression using surgical castration or LHRH agonist therapies are the first line. Short-course anti-androgen should be used to prevent the disease flare up on starting an LHRH agonist.
Management of castration-refractory prostate cancer (CRPC)- The patients with castration refractory prostate cancer should be considered for second line hormonal therapies by anti-androgen, corticosteroid, oestrogen or ketoconazol.- Docetaxel (Taxotere): Chemotherapy with Docetaxel should be envisaged after the failure of all second lines hormonal manipulations and in a symptomatic disease. In a phase III trial, Tannock et al. demonstrated that Docetaxel plus prednisone every 3 weeks improved patients survival by 3 months over Mithoxantrone plus prednisone.- Cabazitaxel (Jevtana): In june 2010, chemotherapy with Cabazitaxel was approved by the FDA (US Food and Drug Administration) for CRPC previously treated with Docetaxel containing regimen.- Abiraterone (Zytiga): abiraterone is a new generation androgen inhibitor approved for CRPC previously treated with Docetaxel. - Sipuleucel-T (Provenge): is an immunotherapy approved by the FDA since April 2010 for asymptomatic or minimally symptomatic prostate cancer resistant to standard hormonotherapy. - Biphosphonates: mainly zoledronic acid (Zometa) may be offered to patients with skeletal metastasis to prevent osseous complications.Recently, RANK ligand inhibitor, such as denosumab has been developed. Denosumab has the effect to slow down metastasis in patients with hormonal therapy and also prevents osseous complications much more than zoledronic acid.- Radiopharmaceuticals: like samarium and strontium, can be used for the management of painful osseous metastasis.
Anne Chauchereau ; Safae Aarab-Terrisse
Prostate tumors: an overview
Atlas Genet Cytogenet Oncol Haematol. 2011-07-01
Online version: http://atlasgeneticsoncology.org/solid-tumor/5041/teaching-explorer/meetings/tumors-explorer/