Testicular cancer is cancer that develops in the testicles, a part of the male reproductive system. Symptoms may include a lump in the testicle, or swelling or pain in the scrotum. Treatment may result in infertility.
|Other names||Testis tumor|
|7.4 × 5.5-cm seminoma in a radical orchiectomy specimen.|
|Symptoms||Lump in the testicle, swelling or pain in the scrotum|
|Usual onset||20 to 34 years old males|
|Types||Germ cell tumors (seminomas and nonseminomas), sex-cord stromal tumors, lymphomas|
|Risk factors||Undescended testis, family history of the disease, previous history of testicular cancer|
|Diagnostic method||Physical exam, ultrasound, blood tests, surgical removal of the testicle|
|Differential diagnosis||Spermatocele, epididymitis, inguinal hernia, appendix testis|
|Treatment||Surgery, radiation therapy, chemotherapy, stem cell transplantation|
|Prognosis||Five-year survival rate rates ~ 95% (US)|
Risk factors include an undescended testis, family history of the disease, and previous history of testicular cancer. The most common type is germ cell tumors which are divided into seminomas and nonseminomas. Other types include sex-cord stromal tumors and lymphomas. Diagnosis is typically based on a physical exam, ultrasound, and blood tests. Surgical removal of the testicle with examination under a microscope is then done to determine the type.
Testicular cancer is highly treatable and usually curable. Treatment options may include surgery, radiation therapy, chemotherapy, or stem cell transplantation. Even in cases in which cancer has spread widely, chemotherapy offers a cure rate greater than 80%.
Globally testicular cancer affected about 686,000 people in 2015. That year it resulted in 9,400 deaths up from 7,000 deaths in 1990. Rates are lower in the developing than the developed world. Onset most commonly occurs in males 20 to 34 years old, rarely before 15 years old. The five-year survival rate in the United States is about 95%. Outcomes are better when the disease remains localized.
- 1 Signs and symptoms
- 2 Causes
- 3 Mechanisms
- 4 Diagnosis
- 5 Treatment
- 6 Prognosis
- 7 Epidemiology
- 8 Other animals
- 9 References
- 10 External links
Signs and symptomsEdit
One of the first signs of testicular cancer is often a lump or swelling in the testes. The U.S. Preventive Services Task Force (USPSTF) recommends against routine screening for testicular cancer in asymptomatic adolescent and adults including routine testicular self-exams. However, the American Cancer Society suggests that some men should examine their testicles monthly, especially if they have a family history of cancer, and the American Urological Association recommends monthly testicular self-examinations for all young men.
Symptoms may also include one or more of the following:
- a lump in one testis which may or may not be painful
- sharp pain or a dull ache in the lower abdomen or scrotum
- a feeling often described as "heaviness" in the scrotum
- firmness of the testicle
- breast enlargement (gynecomastia) from hormonal effects of β-hCG
- low back pain (lumbago) due to the cancer spreading to the lymph nodes along the back
It is not very common for testicular cancer to spread to other organs, apart from the lungs. If it has, however, the following symptoms may be present:
- shortness of breath (dyspnea), cough or coughing up blood (hemoptysis) from metastatic spread to the lungs
- a lump in the neck due to metastases to the lymph nodes
A major risk factor for the development of testis cancer is cryptorchidism (undescended testicles). It is generally believed that the presence of a tumor contributes to cryptorchidism; when cryptorchidism occurs in conjunction with a tumor then the tumor tends to be large. Other risk factors include inguinal hernias, Klinefelter syndrome, and mumps orchitis. Physical activity is associated with decreased risk and sedentary lifestyle is associated with increased risk. Early onset of male characteristics is associated with increased risk. These may reflect endogenous or environmental hormones.
Most testicular germ cell tumors have too many chromosomes, and most often they are triploid to tetraploid. An isochromosome 12p (the short arm of chromosome 12 on both sides of the same centromere) is present in about 80% of the testicular cancers, and also the other cancers usually have extra material from this chromosome arm through other mechanisms of genomic amplification.
This section needs additional citations for verification. (January 2014) (Learn how and when to remove this template message)
The main way testicular cancer is diagnosed is via a lump or mass inside a testis. More generally, if a young adult or adolescent has a single enlarged testicle, which may or may not be painful, this should give doctors reason to suspect testicular cancer.
Other conditions may also have symptoms similar to testicular cancer:
- Epididymitis or epididymoorchitis
- Prostate infections or inflammations (prostatitis), bladder infections or inflammations (cystitis), or kidney (renal) infections (nephritis) or inflammations which have spread to and caused swelling in the vessels of the testicles or scrotum
- Testicular torsion or a hernia
- Infection, inflammation, retro-peritonitis, or other conditions of the lymph nodes or vessels near the scrotum, testicles, pubis, anorectal area, and groin
- Benign tumors or lesions of the testicles
- Metastasis to the testicles from another, primary tumor site(s)
The nature of any palpated lump in the scrotum is often evaluated by scrotal ultrasound, which can determine exact location, size, and some characteristics of the lump, such as cystic vs solid, uniform vs heterogeneous, sharply circumscribed or poorly defined. The extent of the disease is evaluated by CT scans, which are used to locate metastases.
The differential diagnosis of testicular cancer requires examining the histology of tissue obtained from an inguinal orchiectomy - that is, surgical excision of the entire testis along with attached structures (epididymis and spermatic cord). A biopsy should not be performed, as it raises the risk of spreading cancer cells into the scrotum.
Inguinal orchiectomy is the preferred method because it lowers the risk of cancer cells escaping. This is because the lymphatic system of the scrotum, through which white blood cells (and, potentially, cancer cells) flow in and out, links to the lower extremities, while that of the testicle links to the back of the abdominal cavity (the retroperitoneum). A transscrotal biopsy or orchiectomy will potentially leave cancer cells in the scrotum and create two routes for cancer cells to spread, while in an inguinal orchiectomy only the retroperitoneal route exists.
Blood tests are also used to identify and measure tumor markers (usually proteins present in the bloodstream) that are specific to testicular cancer. Alpha-fetoprotein, human chorionic gonadotropin (the "pregnancy hormone"), and LDH-1 are the typical tumor markers used to spot testicular germ cell tumors.
A pregnancy test may be used to detect high levels of chorionic gonadotropin; however, the first sign of testicular cancer is usually a painless lump. Note that only about 25% of seminomas have elevated chorionic gonadotropin, so a pregnancy test is not very sensitive for making out testicular cancer.
After removal, the testicle is fixed with Bouin's solution because it better conserves some morphological details such as nuclear conformation. Then the testicular tumor is staged by a pathologist according to the TNM Classification of Malignant Tumors as published in the AJCC Cancer Staging Manual. Testicular cancer is categorized as being in one of three stages (which have subclassifications). The size of the tumor in the testis is irrelevant to staging. In broad terms, testicular cancer is staged as follows:
- Stage I: the cancer remains localized to the testis.
- Stage II: the cancer involves the testis and metastasis to retroperitoneal and/or paraaortic lymph nodes (lymph nodes below the diaphragm).
- Stage III: the cancer involves the testis and metastasis beyond the retroperitoneal and paraaortic lymph nodes. Stage 3 is further subdivided into non-bulky stage 3 and bulky stage 3.
This article's factual accuracy may be compromised due to out-of-date information. In particular: New WHO classification (2016). (May 2017)
Although testicular cancer can be derived from any cell type found in the testicles, more than 95% of testicular cancers are germ cell tumors (GCTs). Most of the remaining 5% are sex cord-gonadal stromal tumours derived from Leydig cells or Sertoli cells. Correct diagnosis is necessary to ensure the most effective and appropriate treatment. To some extent, this can be done via blood tests for tumor markers, but definitive diagnosis requires examination of the histology of a specimen by a pathologist.
- Germ cell tumors
- Precursor lesions
- Tumors of one histologic type (pure forms)
- Variant - Seminoma with syncytiotrophoblastic cells
- Spermatocytic seminoma
- Variant - spermatocytic seminoma with sarcoma
- Embryonal carcinoma
- Yolk sac tumor
- Trophoblastic tumors
- Tumours of more than one histologic type (mixed forms)
- Embryonal carcinoma and teratoma
- Teratoma and seminoma
- Choriocarcinoma and teratoma.embryonal carcinoma
- Sex cord/Gonadal stromal tumors
- Leydig cell tumor
- Sertoli cell tumor
- Lipid rich variant
- Scleriosing variant
- Large cell calcifying variant
- Intratubular sertoli cell neoplasia in Peutz-Jeghers syndrome
- Granulosa cell tumor
- Adult type
- Juvenile type
- Thecoma Fibroma Group
- Sex cord/gonadal stromal tumor - incompletely differentiated
- Sex cord/gonadal stromal tumor - mixed types
- Mixed Germ Cell and Sex Cord/Gonadal Stromal Tumors
- Germ cell-sex cord/gonadal stromal tumor, unclassified
- Miscellaneous tumours of the testis
- Haematopoietic tumors
- Tumours of collecting ducts and rete
- Tumors of the paratesticular structures
- Mesenchymal tumors of the spermatic cord and testicular adnexae
- Secondary tumors of the testis
Surgery is performed by urologists; radiation therapy is administered by radiation oncologists; and chemotherapy is the work of medical oncologists. In most patients with testicular cancer, the disease is cured readily with minimal long-term morbidity. While treatment success depends on the stage, the average survival rate after five years is around 95%, and stage 1 cancer cases, if monitored properly, have essentially a 100% survival rate.
The initial treatment for testicular cancer is surgery to remove the affected testicle (orchiectomy). While it may be possible, in some cases, to remove testicular cancer tumors from a testis while leaving the testis functional, this is almost never done, as the affected testicle usually contains pre-cancerous cells spread throughout the entire testicle. Thus removing the tumor alone without additional treatment greatly increases the risk that another cancer will form in that testicle.
Since only one testis is typically required to maintain fertility, hormone production, and other male functions, the afflicted testis is almost always removed completely in a procedure called inguinal orchiectomy. (The testicle is almost never removed through the scrotum; an incision is made beneath the belt line in the inguinal area.) In the UK, the procedure is known as a radical orchidectomy.
Retroperitoneal lymph node dissectionEdit
In the case of nonseminomas that appear to be stage I, surgery may be done on the retroperitoneal/paraaortic lymph nodes (in a separate operation) to accurately determine whether the cancer is in stage I or stage II and to reduce the risk that malignant testicular cancer cells that may have metastasized to lymph nodes in the lower abdomen. This surgery is called retroperitoneal lymph node dissection (RPLND). However, this approach, while standard in many places, especially the United States, is out of favor due to costs and the high level of expertise required to perform successful surgery. Sperm banking is frequently carried out prior to the procedure (as with chemotherapy), as there is a risk that RPLND may damage the nerves involved in ejaculation, causing ejaculation to occur internally into the bladder rather than externally.
Many patients are instead choosing surveillance, where no further surgery is performed unless tests indicate that the cancer has returned. This approach maintains a high cure rate because of the growing accuracy of surveillance techniques.
Since testicular cancers can spread, patients are usually offered adjuvant treatment - in the form of chemotherapy or radiotherapy - to kill any cancerous cells that may exist outside of the affected testicle. The type of adjuvant therapy depends largely on the histology of the tumor (i.e. the size and shape of its cells under the microscope) and the stage of progression at the time of surgery (i.e. how far cells have 'escaped' from the testicle, invaded the surrounding tissue, or spread to the rest of the body). If the cancer is not particularly advanced, patients may be offered careful surveillance by periodic CT scans and blood tests, in place of adjuvant treatment.
Before 1970, survival rates from testicular cancer were low. Since the introduction of adjuvant chemotherapy, chiefly platinum-based drugs like cisplatin and carboplatin, the outlook has improved substantially. Although 7000 to 8000 new cases of testicular cancer occur in the United States yearly, only 400 men are expected to die of the disease.
In the UK, a similar trend has emerged: since improvements in treatment, survival rates have risen rapidly to cure rates of over 95%.
Radiation may be used to treat stage II seminoma cancers, or as adjuvant (preventative) therapy in the case of stage I seminomas, to minimize the likelihood that tiny, non-detectable tumors exist and will spread (in the inguinal and para-aortic lymph nodes). Radiation is ineffective against and is therefore never used as a primary therapy for nonseminoma.
Chemotherapy is the standard treatment for non-seminoma when the cancer has spread to other parts of the body (that is, stage 2B or 3). The standard chemotherapy protocol is three, or sometimes four, rounds of Bleomycin-Etoposide-Cisplatin (BEP). BEP as a first-line treatment was first reported by Professor Michael Peckham in 1983. The landmark trial published in 1987 which established BEP as the optimum treatment was conducted by Dr. Lawrence Einhorn at Indiana University. An alternative, equally effective treatment involves the use of four cycles of Etoposide-Cisplatin (EP).
Lymph node surgery may also be performed after chemotherapy to remove masses left behind (stage 2B or more advanced), particularly in the cases of large nonseminomas.
As an adjuvant treatment, use of chemotherapy as an alternative to radiation therapy in the treatment of seminoma is increasing, because radiation therapy appears to have more significant long-term side effects (for example, internal scarring, increased risks of secondary malignancies, etc.). Two doses, or occasionally a single dose of carboplatin, typically delivered three weeks apart, is proving to be a successful adjuvant treatment, with recurrence rates in the same ranges as those of radiotherapy. The concept of carboplatin as a single-dose therapy was developed by Tim Oliver, Professor of Medical Oncology at Barts and The London School of Medicine and Dentistry. However, very long-term data on the efficacy of adjuvant carboplatin in this setting do not exist.
Since seminoma can recur decades after the primary tumor is removed, patients receiving adjuvant chemotherapy should remain vigilant and not assume they are cured 5 years after treatment.
Treatment of testicular cancer is one of the success stories of modern medicine, with sustained response to treatment in more than 90% of cases, regardless of stage. In 2011 overall cure rates of more than 95% were reported, and 80% for metastatic disease—the best response by any solid tumor, with improved survival being attributed primarily to effective chemotherapy. By 2013 more than 96 per cent of the 2,300 men diagnosed each year in the U.K. were deemed cured, a rise by almost a third since the 1970s, the improvement attributed substantially to the chemotherapy drug cisplatin. In the United States, when the disease is treated while it is still localized, more than 99% of people survive 5 years.
For many patients with stage I cancer, adjuvant (preventative) therapy following surgery may not be appropriate and patients will undergo surveillance instead. The form this surveillance takes, e.g. the type and frequency of investigations and the length time it should continue, will depend on the type of cancer (non-seminoma or seminoma), but the aim is to avoid unnecessary treatments in the many patients who are cured by their surgery, and ensure that any relapses with metastases (secondary cancers) are detected early and cured. This approach ensures that chemotherapy and or radiotherapy is only given to the patients that need it. The number of patients ultimately cured is the same using surveillance as post-operative “adjuvant” treatments, but the patients have to be prepared to follow a prolonged series of visits and tests.
For both non-seminomas and seminomas, surveillance tests generally include physical examination, blood tests for tumor markers, chest x-rays and CT scanning. However, the requirements of a surveillance program differ according to the type of disease since, for seminoma patients, relapses can occur later and blood tests are not as good at indicating relapse.
CT scans are performed on the abdomen (and sometimes the pelvis) and also the chest in some hospitals. Chest x-rays are increasingly preferred for the lungs as they give sufficient detail combined with a lower false-positive rate and significantly smaller radiation dose than CT.
The frequency of CT scans during surveillance should ensure that relapses are detected at an early stage while minimizing the radiation exposure.
For patients treated for stage I non-seminoma, a randomised trial (Medical Research Council TE08) showed that, when combined with the standard surveillance tests described above, 2 CT scans at 3 and 12 months were as good as 5 over 2 years in detecting relapse at an early stage.
For patients treated for stage I seminoma who choose surveillance rather than undergoing adjuvant therapy, there have been no randomized trials to determine the optimum frequency of scans and visits, and the schedules vary very widely across the world, and within individual countries. In the UK there is an ongoing clinical trial called TRISST. This is assessing how often scans should take place and whether magnetic resonance imaging (MRI) can be used instead of CT scans. MRI is being investigated because it does not expose the patient to radiation and so, if it is shown to be as good at detecting relapses, it may be preferable to CT.
For more advanced stages of testicular cancer, and for those cases in which radiation therapy or chemotherapy was administered, the extent of monitoring (tests) after treatment will vary on the basis of the circumstances, but normally should be done for five years in uncomplicated cases and for longer in those with higher risks of relapse.
A man with one remaining testis may maintain fertility. However, sperm banking may be appropriate for men who still plan to have children, since fertility may be adversely affected by chemotherapy and/or radiotherapy. A man who loses both testicles will be infertile after the procedure, though he may elect to bank viable, cancer-free sperm prior to the procedure.
Globally testicular cancer resulted in 8,300 deaths in 2013 up from 7,000 deaths in 1990. Testicular cancer has the highest prevalence in the U.S. and Europe, and is uncommon in Asia and Africa. Worldwide incidence has doubled since the 1960s, with the highest rates of prevalence in Scandinavia, Germany, and New Zealand.
Although testicular cancer is most common among men aged 15–40 years, it has three peaks: infancy through the age of four as teratomas and yolk sac tumors, ages 25–40 years as post-pubertal seminomas and nonseminomas, and from age 60 as spermatocytic seminomas.
In the United States, about 8,900 cases are diagnosed a year. The risk of testicular cancer in white men is approximately 4-5 times the risk in black men, and more than three times that of Asian American men. The risk of testicular cancer in Latinos and American Indians is between that of white and Asian men. The cause of these differences is unknown.
In the UK, approximately 2,000 people are diagnosed a year. Over a lifetime, the risk is roughly 1 in 200 (0.5%). It is the 16th most common cancer in men. It accounts for less than 1% of cancer deaths in men (around 60 men died in 2012).
Testicular tumors occur also in animals. In horses, these include interstitial cell tumors and teratomas. Typically, the former are found in older stallions (affected stallions may become extremely vicious, suggesting excessive production of androgen), and the latter are found in young horses and are large.
- Ferri, Fred F. (2017). Ferri's Clinical Advisor 2018 E-Book: 5 Books in 1. Elsevier Health Sciences. p. 1253. ISBN 9780323529570.
- "Testicular Cancer Treatment". National Cancer Institute. 7 July 2016.
- "Cancer of the Testis - Cancer Stat Facts". SEER. Retrieved 19 December 2017.
- Feldman DR; Bosl GJ; Sheinfeld J; Motzer RJ (13 February 2008). "Medical treatment of advanced testicular cancer". JAMA. 299 (6): 672–684. doi:10.1001/jama.299.6.672. PMID 18270356.
- "Testicular Cancer Treatment". National Cancer Institute. 26 January 2017. Retrieved 19 December 2017.
- GBD 2015 Disease and Injury Incidence and Prevalence, Collaborators. (8 October 2016). "Global, regional, and national incidence, prevalence, and years lived with disability for 310 diseases and injuries, 1990-2015: a systematic analysis for the Global Burden of Disease Study 2015". Lancet. 388 (10053): 1545–1602. doi:10.1016/S0140-6736(16)31678-6. PMC 5055577. PMID 27733282.
- GBD 2015 Mortality and Causes of Death, Collaborators. (8 October 2016). "Global, regional, and national life expectancy, all-cause mortality, and cause-specific mortality for 249 causes of death, 1980-2015: a systematic analysis for the Global Burden of Disease Study 2015". Lancet. 388 (10053): 1459–1544. doi:10.1016/s0140-6736(16)31012-1. PMC 5388903. PMID 27733281.
- GBD 2013 Mortality and Causes of Death, Collaborators (17 December 2014). "Global, regional, and national age-sex specific all-cause and cause-specific mortality for 240 causes of death, 1990-2013: a systematic analysis for the Global Burden of Disease Study 2013". Lancet. 385 (9963): 117–171. doi:10.1016/S0140-6736(14)61682-2. PMC 4340604. PMID 25530442.
- "Testicular cancer incidence statistics". Cancer Research UK. 15 May 2015. Retrieved 19 December 2017.
- Hayes-Lattin, Brandon; Nichols, Craig R. (October 2009). "Testicular Cancer: A Prototypic Tumor of Young Adults". Seminars in Oncology. 36 (5): 432–438. doi:10.1053/j.seminoncol.2009.07.006. PMC 2796329. PMID 19835738.
- "Screening for Testicular Cancer". uspreventiveservicestaskforce.org. U.S. Preventive Services Task Force. April 2011. Retrieved 4 December 2011.
- "Can testicular cancer be found early?". Testicular Cancer: Early Detection, Diagnosis, and Staging. American Cancer Society. 19 January 2011. Retrieved 4 December 2011.
- "Testicular Self-Examination (TSE)". American Urological Association. Retrieved 13 February 2013.
- Motzer, Robert J.; Bosl, George J. (2005). "82. Testicular Cancer". In Kasper, Dennis L.; Jameson, J. Larry (eds.). Harrison's Principles of Internal Medicine (16th ed.). McGraw-Hill. pp. 550–553. ISBN 978-0-07-139140-5.
- Shaw, Joel (15 February 2008). "Diagnosis and Treatment of Testicular Cancer". American Family Physician. 77 (4): 469–474. ISSN 1532-0650. PMID 18326165. Retrieved 5 August 2010.
- Forman, D; M C Pike; G Davey; S Dawson; K Baker; C E D Chilvers; R T D Oliver; C A C Coupland (28 May 1994). "Aetiology of testicular cancer: association with congenital abnormalities, age at puberty, infertility, and exercise. United Kingdom Testicular Cancer Study Group". BMJ. 308 (6941): 1393–9. doi:10.1136/bmj.308.6941.1393. PMC 2540340. PMID 7912596.
- Swerdlow, AJ; Huttly SR; Smith PG. (January 1987). "Testicular cancer and antecedent diseases". Br. J. Cancer. 55 (1): 97–103. doi:10.1038/bjc.1987.20. PMC 2001571. PMID 2880604.
- Daling, Janet; Swartz, Stephen (15 March 2009). "Marijuana Use Linked To Increased Risk Of Testicular Cancer". Cancer. 115 (6): 1215–23. doi:10.1002/cncr.24159. PMC 2759698. PMID 19204904. Lay summary – Science Daily.
- Testicular Cancer Risk Linked To Marijuana Smoking Medical News Today 2 September 2009.
- Cannabis linked to testicular cancer . The Independent 2 September 2009.
- Smoking Marijuana Tied to Testicular Cancer Web MD 9 October 2012.
- Atkin NB, Baker MC (December 1982). "Specific chromosome change, i(12p), in testicular tumours?". Lancet. 2 (8311): 1349. doi:10.1016/s0140-6736(82)91557-4. PMID 6128640.
- "How is testicular cancer diagnosed".
- ABC News. "Pregnancy Test, Used by a Man as Joke, Reveals Testicular Cancer - ABC News". ABC News.
- "Serum tumor markers in testicular germ cell tumors".
- "American Academy of Family Physicians | Choosing Wisely". www.choosingwisely.org. Retrieved 14 August 2018.
- Bonin, S; Petrera, F; Rosai, J; Stanta, G (29 September 2011). "DNA and RNA obtained from Bouin's fixed tissues". Journal of Clinical Pathology. 58 (3): 313–6. doi:10.1136/jcp.2004.016477. PMC 1770606. PMID 15735167.
- Wollina, U.; Schreiber, G.; Zollmann, C.; Hipler, C.; Günther, E. (1989). "Lectin-binding sites in normal human testis". Andrologia. 21 (2): 127–130. doi:10.1111/j.1439-0272.1989.tb02380.x. PMID 2469362.
- "Archived copy" (PDF). Archived from the original (PDF) on 11 October 2006. Retrieved 16 November 2006.CS1 maint: archived copy as title (link)
- "Testicular Cancer Resource Center's Staging Page". Retrieved 13 December 2007.
- "How is testicular cancer staged?". cancer.org. American Cancer Society. 19 January 2011. Retrieved 12 July 2011.
- Eble J.N., Sauter G., Epstein J.I., Sesterhenn I.A. (Eds.): World Health Organization Classification of Tumours. Pathology and Genetics of Tumours of the Urinary System and Male Genital Organs. IARC Press: Lyon 2004. ISBN 92-832-2412-4
- Mills, S (ed.) 2009.Sternberg's Diagnostic Pathology. 5th Edition. ISBN 978-0-7817-7942-5
- "Testicular Cancer Treatment (PDQ)". National Cancer Institute. 15 January 2009. Retrieved 13 February 2009.
- "Testicular Cancer Survival Rates". www.cancer.org. Retrieved 18 January 2018.
- "Testicular Cancer survival statistics". cancerresearchuk.org. Cancer Research UK. 9 October 2009. Archived from the original on 24 December 2011. Retrieved 4 December 2011.
- Peckham, MJ; Barrett, A; Liew, KH; Horwich, A; Robinson, B; Dobbs, HJ; McElwain, TJ; Hendry, WF (1983). "The treatment of metastatic germ-cell testicular tumours with bleomycin, etoposide and cisplatin (BEP)". British Journal of Cancer. 47 (5): 613–619. doi:10.1038/bjc.1983.99. PMC 2011384. PMID 6189504.
- "Chemotherapy - BEP and EP". Retrieved 16 February 2009.
- "MRC trial shows single dose of drug is as effective as two weeks' radiotherapy for testicular cancer". News and Publications. Medical Research Council. 22 July 2005. Retrieved 4 December 2011.
- Huang, William C. (5 June 2008). "Book Review: Urological Oncology". The New England Journal of Medicine. 358 (23): 2527. doi:10.1056/NEJMbkrev59744. ISSN 1533-4406.
- Whipple, Tom (29 July 2013). "Male cancer is almost beaten after chance find". The Times. Archived from the original on 29 July 2013.
- "SEER Stat Fact Sheets: Testis Cancer". National Cancer Institute. Retrieved 18 March 2016.
- Krege, S.; Beyer, J.; Souchon, R.; Albers, P.; Albrecht, W.; Algaba, F.; et al. (2008). "European consensus conference on diagnosis and treatment of germ cell cancer: a report of the second meeting of the European Germ Cell Cancer Consensus group (EGCCCG): part I". European Urology. 53 (3): 478–496. doi:10.1016/j.eururo.2007.12.024. PMID 18191324.
- Rustin, G. J.; Mead, G. M.; Stenning, S. P.; Vasey, P. A.; Aass, N.; Huddart, R. A.; et al. (2007). "Randomized trial of two or five computed tomography scans in the surveillance of patients with stage I nonseminomatous germ cell tumors of the testis: Medical Research Council Trial TE08; ISRCTN56475197—the National Cancer Research Institute Testis Cancer Clinical Studies Group". JCO. 25 (11): 1310–1315. doi:10.1200/JCO.2006.08.4889. PMID 17416851.
- "A trial to find the best way of using scans to monitor men after treatment for seminoma testicular cancer (TRISST MRC TE24)". CancerHelp UK. Cancer Research UK. Retrieved 4 December 2011.
- "Would it be better to use MRI scans instead of CT scans to monitor men with early stage testicular cancer? And is it safe to use less CT scans than we do now?". Medical Research Council. Archived from the original on 4 January 2012. Retrieved 4 December 2011.
- Some facts about testicular cancer, American Cancer Society.
- Leendert H. J. Looijenga; J. Wolter Oosterhuis (May 1999). "Pathogenesis of testicular germ cell tumours" (PDF). Rev. Reprod. 4 (2): 90–100. doi:10.1530/ror.0.0040090. ISSN 1359-6004. PMID 10357096.
- Holmes L; Escalante C; Garrison O; Foldi BX; Ogungbade GO; Essien EJ; Ward D (September 2008). "Testicular cancer incidence trends in the United States (1975−2004): Plateau or shifting racial paradigm?". Public Health. 122 (9): 862–872. doi:10.1016/j.puhe.2007.10.010. PMC 2551560. PMID 18555499.
- CancerStats, 2007 UK incidence data Archived 4 May 2011 at the Wayback Machine, Cancer Research UK.
- "Testicular cancer incidence statistics". Cancer Research UK. 25 August 2011. Retrieved 10 October 2013.
- "Testicular cancer statistics". Cancer Research UK. 14 May 2015.
- Jones TC, Hunt RD, King NW (1997). Veterinary pathology (6th ed.). Wiley-Blackwell. p. 1210. ISBN 9780683044812.
|Wikimedia Commons has media related to Testicular cancer.|