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Pituitary adenoma

MedGen UID:
45933
Concept ID:
C0032000
Neoplastic Process
Synonyms: Adenoma, Pituitary; Adenomas, Pituitary; Pituitary Adenoma; Pituitary Adenomas
SNOMED CT: Adenoma of pituitary (254956000); Pituitary adenoma (254956000)
 
HPO: HP:0002893
Monarch Initiative: MONDO:0006373
Orphanet: ORPHA99408

Definition

A benign epithelial tumor derived from intrinsic cells of the adenohypophysis (anterior pituitary). [from HPO]

Term Hierarchy

CClinical test,  RResearch test,  OOMIM,  GGeneReviews,  VClinVar  
  • CROGVPituitary adenoma
Follow this link to review classifications for Pituitary adenoma in Orphanet.

Conditions with this feature

Multiple endocrine neoplasia, type 1
MedGen UID:
9957
Concept ID:
C0025267
Neoplastic Process
Multiple endocrine neoplasia type 1 (MEN1) includes varying combinations of more than 20 endocrine and non-endocrine tumors. Endocrine tumors become evident either by overproduction of hormones by the tumor or by growth of the tumor itself. Parathyroid tumors are the most common MEN1-associated endocrinopathy; onset in 90% of individuals is between ages 20 and 25 years with hypercalcemia evident by age 50 years; hypercalcemia causes lethargy, depression, confusion, anorexia, constipation, nausea, vomiting, diuresis, dehydration, hypercalciuria, kidney stones, increased bone resorption/fracture risk, hypertension, and shortened QT interval. Pituitary tumors include prolactinoma (the most common), which manifests as oligomenorrhea/amenorrhea and galactorrhea in females and sexual dysfunction in males. Well-differentiated endocrine tumors of the gastro-entero-pancreatic (GEP) tract can manifest as Zollinger-Ellison syndrome (gastrinoma); hypoglycemia (insulinoma); hyperglycemia, anorexia, glossitis, anemia, diarrhea, venous thrombosis, and skin rash (glucagonoma); and watery diarrhea, hypokalemia, and achlorhydria syndrome (vasoactive intestinal peptide [VIP]-secreting tumor). Carcinoid tumors are non-hormone-secreting and can manifest as a large mass after age 50 years. Adrenocortical tumors can be associated with primary hypercortisolism or hyperaldosteronism. Non-endocrine tumors include facial angiofibromas, collagenomas, lipomas, meningiomas, ependymomas, and leiomyomas.
Pituitary dependent hypercortisolism
MedGen UID:
66381
Concept ID:
C0221406
Disease or Syndrome
Adrenocorticotropic hormone (ACTH) hypersecretion by corticotroph adenomas of the pituitary result in excess cortisol secretion, or Cushing disease. The clinical features of Cushing disease include central obesity, moon facies, 'buffalo hump,' diabetes, hypertension, fatigue, easy bruising, depression, and reproductive disorders. Cushing disease is associated with increased morbidity and mortality, mainly due to cardiovascular or cerebrovascular disease and infections (summary by Perez-Rivas et al., 2015). Mutations in the USP8 gene, leading to an upregulated epidermal growth factor receptor (EGFR; 131550) pathway, have been identified in about 36 to 62% of corticotroph adenomas (summary by Mete and Lopes, 2017).
McCune-Albright syndrome
MedGen UID:
69164
Concept ID:
C0242292
Disease or Syndrome
Fibrous dysplasia / McCune-Albright syndrome (FD/MAS), the result of an early embryonic postzygotic somatic activating pathogenic variant in GNAS (encoding the cAMP pathway-associated G-protein, Gsa), is characterized by involvement of the skin, skeleton, and certain endocrine organs. However, because Gsa signaling is ubiquitous, additional tissues may be affected. Café au lait skin macules are common and are usually the first manifestation of the disease, apparent at or shortly after birth. Fibrous dysplasia (FD), which can involve any part and combination of the craniofacial, axial, and/or appendicular skeleton, can range from an isolated, asymptomatic monostotic lesion discovered incidentally to severe disabling polyostotic disease involving practically the entire skeleton and leading to progressive scoliosis, facial deformity, and loss of mobility, vision, and/or hearing. Endocrinopathies include: Gonadotropin-independent precocious puberty resulting from recurrent ovarian cysts in girls and autonomous testosterone production in boys; Testicular lesions with or without associated gonadotropin-independent precocious puberty; Thyroid lesions with or without non-autoimmune hyperthyroidism; Growth hormone excess; FGF23-mediated phosphate wasting with or without hypophosphatemia in association with fibrous dysplasia; and Neonatal hypercortisolism. The prognosis for individuals with FD/MAS is based on disease location and severity.
Multiple endocrine neoplasia type 4
MedGen UID:
373469
Concept ID:
C1970712
Neoplastic Process
Multiple endocrine neoplasia is a group of disorders that affect the body's network of hormone-producing glands called the endocrine system. Hormones are chemical messengers that travel through the bloodstream and regulate the function of cells and tissues throughout the body. Multiple endocrine neoplasia typically involves tumors (neoplasia) in at least two endocrine glands; tumors can also develop in other organs and tissues. These growths can be noncancerous (benign) or cancerous (malignant). If the tumors become cancerous, the condition can be life-threatening.\n\nThe major forms of multiple endocrine neoplasia are called type 1, type 2, and type 4. These types are distinguished by the genes involved, the types of hormones made, and the characteristic signs and symptoms.\n\nMany different types of tumors are associated with multiple endocrine neoplasia. Type 1 frequently involves tumors of the parathyroid glands, the pituitary gland, and the pancreas. Tumors in these glands can lead to the overproduction of hormones. The most common sign of multiple endocrine neoplasia type 1 is overactivity of the parathyroid glands (hyperparathyroidism). Hyperparathyroidism disrupts the normal balance of calcium in the blood, which can lead to kidney stones, thinning of bones, nausea and vomiting, high blood pressure (hypertension), weakness, and fatigue.\n\nMultiple endocrine neoplasia type 4 appears to have signs and symptoms similar to those of type 1, although it is caused by mutations in a different gene. Hyperparathyroidism is the most common feature, followed by tumors of the pituitary gland, additional endocrine glands, and other organs.\n\nThe most common sign of multiple endocrine neoplasia type 2 is a form of thyroid cancer called medullary thyroid carcinoma. Some people with this disorder also develop a pheochromocytoma, which is an adrenal gland tumor that can cause dangerously high blood pressure. Multiple endocrine neoplasia type 2 is divided into three subtypes: type 2A, type 2B (formerly called type 3), and familial medullary thyroid carcinoma (FMTC). These subtypes differ in their characteristic signs and symptoms and risk of specific tumors; for example, hyperparathyroidism occurs only in type 2A, and medullary thyroid carcinoma is the only feature of FMTC. The signs and symptoms of multiple endocrine neoplasia type 2 are relatively consistent within any one family.
Carney complex, type 1
MedGen UID:
388559
Concept ID:
C2607929
Disease or Syndrome
Carney complex (CNC) is characterized by skin pigmentary abnormalities, myxomas, endocrine tumors or overactivity, and schwannomas. Pale brown to black lentigines are the most common presenting feature of CNC and typically increase in number at puberty. Cardiac myxomas occur at a young age, may occur in any or all cardiac chambers, and can manifest as intracardiac obstruction of blood flow, embolic phenomenon, and/or heart failure. Other sites for myxomas include the skin, breast, oropharynx, and female genital tract. Primary pigmented nodular adrenocortical disease (PPNAD), which causes Cushing syndrome, is the most frequently observed endocrine tumor in CNC, occurring in approximately 25% of affected individuals. Large-cell calcifying Sertoli cell tumors (LCCSCTs) are observed in one third of affected males within the first decade and in most adult males. Up to 75% of individuals with CNC have multiple thyroid nodules, most of which are nonfunctioning thyroid follicular adenomas. Clinically evident acromegaly from a growth hormone (GH)-producing adenoma is evident in approximately 10% of adults. Psammomatous melanotic schwannoma (PMS), a rare tumor of the nerve sheath, occurs in an estimated 10% of affected individuals. The median age of diagnosis is 20 years.
X-linked acrogigantism due to Xq26 microduplication
MedGen UID:
856021
Concept ID:
C3891556
Disease or Syndrome
X-linked acrogigantism is the occurrence of pituitary gigantism in an individual heterozygous or hemizygous for a germline or somatic duplication of GPR101. X-linked acrogigantism is characterized by acceleration of linear growth in early childhood – in most cases during the first two years of life – due to growth hormone (GH) excess. Most individuals with X-linked acrogigantism present with associated hyperprolactinemia due to a mixed GH- and prolactin-secreting pituitary adenoma with or without associated hyperplasia; less commonly they develop diffuse hyperplasia of the GH- and prolactin-secreting pituitary cells without a pituitary adenoma. Most affected individuals are females. Growth acceleration is the main presenting feature; other frequently observed clinical features include enlargement of hands and feet, coarsening of the facial features, and increased appetite. Neurologic signs or symptoms are rarely present. Untreated X-linked acrogigantism can lead to markedly increased stature, with obvious severe physical and psychological sequelae.
Pituitary adenoma, growth hormone-secreting, 2
MedGen UID:
860846
Concept ID:
C4012409
Neoplastic Process
Any pituitary gland adenoma in which the cause of the disease is a mutation in the GPR101 gene.
Somatotroph adenoma
MedGen UID:
1618709
Concept ID:
C4538355
Neoplastic Process
AIP familial isolated pituitary adenoma (AIP-FIPA) is defined as the presence of an AIP germline pathogenic variant in an individual with a pituitary adenoma (regardless of family history). The most commonly occurring pituitary adenomas in this disorder are growth hormone-secreting adenomas (somatotropinoma), followed by prolactin-secreting adenomas (prolactinoma), growth hormone and prolactin co-secreting adenomas (somatomammotropinoma), and nonfunctioning pituitary adenomas (NFPA). Rarely TSH-secreting adenomas (thyrotropinomas) are observed. Clinical findings result from excess hormone secretion, lack of hormone secretion, and/or mass effects (e.g., headaches, visual field loss). Within the same family, pituitary adenomas can be of the same or different type. Age of onset in AIP-FIPA is usually in the second or third decade.
Pituitary adenoma 5, multiple types
MedGen UID:
1615593
Concept ID:
C4539685
Neoplastic Process
Both familial and sporadic pituitary adenomas have been found to be caused by germline mutation in the CDH23 gene. Familial pituitary adenoma types include growth hormone (GH)-secreting and nonfunctional tumors. Sporadic pituitary adenoma types include GH-secreting, nonfunctional, prolactin (PRL)-secreting, adrenocorticotropin (ACTH)-secreting, thyroid-stimulating hormone (TSH)-secreting, and plurihormonal (GH and TSH) tumors. For a general description and a discussion of genetic heterogeneity of pituitary adenomas, see PITA1 (102200).

Professional guidelines

PubMed

Giraldi E, Allen JW, Ioachimescu AG
Endocr Pract 2023 Jan;29(1):60-68. Epub 2022 Oct 18 doi: 10.1016/j.eprac.2022.10.004. PMID: 36270609
Ershadinia N, Tritos NA
Mayo Clin Proc 2022 Feb;97(2):333-346. doi: 10.1016/j.mayocp.2021.11.007. PMID: 35120696
Fleseriu M, Biller BMK, Freda PU, Gadelha MR, Giustina A, Katznelson L, Molitch ME, Samson SL, Strasburger CJ, van der Lely AJ, Melmed S
Pituitary 2021 Feb;24(1):1-13. Epub 2020 Oct 20 doi: 10.1007/s11102-020-01091-7. PMID: 33079318Free PMC Article

Recent clinical studies

Etiology

Valassi E
Endocrinol Diabetes Nutr (Engl Ed) 2021 Mar;68(3):184-195. Epub 2021 Jun 12 doi: 10.1016/j.endien.2020.07.002. PMID: 34167698
Hakami OA, Ahmed S, Karavitaki N
Best Pract Res Clin Endocrinol Metab 2021 Jan;35(1):101521. Epub 2021 Mar 15 doi: 10.1016/j.beem.2021.101521. PMID: 33766428
Gupta T, Chatterjee A
Neurol India 2020 May-Jun;68(Supplement):S113-S122. doi: 10.4103/0028-3886.287678. PMID: 32611901
Rostomyan L, Potorac I, Beckers P, Daly AF, Beckers A
Ann Endocrinol (Paris) 2017 Jun;78(2):123-130. Epub 2017 May 5 doi: 10.1016/j.ando.2017.04.012. PMID: 28483363
Chanson P, Raverot G, Castinetti F, Cortet-Rudelli C, Galland F, Salenave S; French Endocrinology Society non-functioning pituitary adenoma work-group
Ann Endocrinol (Paris) 2015 Jul;76(3):239-47. Epub 2015 Jun 10 doi: 10.1016/j.ando.2015.04.002. PMID: 26072284

Diagnosis

Ershadinia N, Tritos NA
Mayo Clin Proc 2022 Feb;97(2):333-346. doi: 10.1016/j.mayocp.2021.11.007. PMID: 35120696
Hakami OA, Ahmed S, Karavitaki N
Best Pract Res Clin Endocrinol Metab 2021 Jan;35(1):101521. Epub 2021 Mar 15 doi: 10.1016/j.beem.2021.101521. PMID: 33766428
Daly AF, Beckers A
Endocrinol Metab Clin North Am 2020 Sep;49(3):347-355. Epub 2020 Jun 10 doi: 10.1016/j.ecl.2020.04.002. PMID: 32741475
Melmed S
N Engl J Med 2020 Mar 5;382(10):937-950. doi: 10.1056/NEJMra1810772. PMID: 32130815
Chanson P, Raverot G, Castinetti F, Cortet-Rudelli C, Galland F, Salenave S; French Endocrinology Society non-functioning pituitary adenoma work-group
Ann Endocrinol (Paris) 2015 Jul;76(3):239-47. Epub 2015 Jun 10 doi: 10.1016/j.ando.2015.04.002. PMID: 26072284

Therapy

Ershadinia N, Tritos NA
Mayo Clin Proc 2022 Feb;97(2):333-346. doi: 10.1016/j.mayocp.2021.11.007. PMID: 35120696
Gomes-Porras M, Cárdenas-Salas J, Álvarez-Escolá C
Int J Mol Sci 2020 Feb 29;21(5) doi: 10.3390/ijms21051682. PMID: 32121432Free PMC Article
Walz PC, Drapeau A, Shaikhouni A, Eide J, Rugino AJ, Mohyeldin A, Carrau R, Prevedello D
Childs Nerv Syst 2019 Nov;35(11):2107-2118. Epub 2019 Jul 13 doi: 10.1007/s00381-019-04293-y. PMID: 31302729
Chanson P, Salenave S, Kamenicky P
Handb Clin Neurol 2014;124:197-219. doi: 10.1016/B978-0-444-59602-4.00014-9. PMID: 25248589
Mehta GU, Jane JA Jr
Curr Opin Neurol 2012 Dec;25(6):751-5. doi: 10.1097/WCO.0b013e3283587bed. PMID: 23108246

Prognosis

Hakami OA, Ahmed S, Karavitaki N
Best Pract Res Clin Endocrinol Metab 2021 Jan;35(1):101521. Epub 2021 Mar 15 doi: 10.1016/j.beem.2021.101521. PMID: 33766428
Daly AF, Beckers A
Endocrinol Metab Clin North Am 2020 Sep;49(3):347-355. Epub 2020 Jun 10 doi: 10.1016/j.ecl.2020.04.002. PMID: 32741475
Chanson P, Maiter D
Best Pract Res Clin Endocrinol Metab 2019 Apr;33(2):101290. Epub 2019 Jul 10 doi: 10.1016/j.beem.2019.101290. PMID: 31326373
Colao A, Grasso LFS, Di Somma C, Pivonello R
Heart Fail Clin 2019 Jul;15(3):399-408. doi: 10.1016/j.hfc.2019.03.001. PMID: 31079698
Ben-Shlomo A, Cooper O
Pituitary 2018 Apr;21(2):183-193. doi: 10.1007/s11102-018-0864-8. PMID: 29344907

Clinical prediction guides

Wan XY, Chen J, Wang JW, Liu YC, Shu K, Lei T
Curr Med Sci 2022 Dec;42(6):1111-1118. Epub 2022 Dec 22 doi: 10.1007/s11596-022-2673-6. PMID: 36544040
Ershadinia N, Tritos NA
Mayo Clin Proc 2022 Feb;97(2):333-346. doi: 10.1016/j.mayocp.2021.11.007. PMID: 35120696
Beckers A, Rostomyan L, Potorac I, Beckers P, Daly AF
Ann Endocrinol (Paris) 2017 Jun;78(2):131-136. Epub 2017 Apr 27 doi: 10.1016/j.ando.2017.04.013. PMID: 28457479
Sav A, Rotondo F, Syro LV, Di Ieva A, Cusimano MD, Kovacs K
Endocrinol Metab Clin North Am 2015 Mar;44(1):99-104. Epub 2014 Nov 4 doi: 10.1016/j.ecl.2014.10.008. PMID: 25732646
Karavitaki N, Ansorge O, Wass JA
Arq Bras Endocrinol Metabol 2007 Nov;51(8):1314-8. doi: 10.1590/s0004-27302007000800017. PMID: 18209869

Recent systematic reviews

Černý M, Sedlák V, Lesáková V, Francůz P, Netuka D
Neurosurg Rev 2022 Dec 9;46(1):11. doi: 10.1007/s10143-022-01909-x. PMID: 36482215
Heringer LC, Machado de Lima M, Rotta JM, Botelho RV
World Neurosurg 2020 Apr;136:374-381.e4. Epub 2019 Dec 30 doi: 10.1016/j.wneu.2019.11.041. PMID: 31899390
Roca E, Mattogno PP, Porcelli T, Poliani L, Belotti F, Schreiber A, Maffezzoni F, Fontanella MM, Doglietto F
World Neurosurg 2018 Jun;114:e158-e164. Epub 2018 Mar 6 doi: 10.1016/j.wneu.2018.02.120. PMID: 29501516
Cooper O
Pituitary 2015 Apr;18(2):225-31. doi: 10.1007/s11102-014-0624-3. PMID: 25534889Free PMC Article
Vlak MH, Algra A, Brandenburg R, Rinkel GJ
Lancet Neurol 2011 Jul;10(7):626-36. doi: 10.1016/S1474-4422(11)70109-0. PMID: 21641282

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