Hamartoma pathophysiology: Difference between revisions
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Cardiac [[rhabdomyomas]] are hamartomas comprised of altered cardiac myocytes that contain large vacuoles and [[glycogen]]. They are the second most common tumor of the heart in children and infants (after fibromas). There is a strong association between cardiac rhabdomyomas and tuberous sclerosis (characterized by hamartomas of the central nervous system, kidneys and [[skin]], as well as pancreatic cysts; 25-50% of patients with cardiac [[rhabdomyomas]] will have [[tuberous sclerosis]], and up to 100% of patients with tuberous sclerosis will have cardiac masses by [[echocardiography]]. | Cardiac [[rhabdomyomas]] are hamartomas comprised of altered cardiac myocytes that contain large vacuoles and [[glycogen]]. They are the second most common tumor of the heart in children and infants (after fibromas). There is a strong association between cardiac rhabdomyomas and tuberous sclerosis (characterized by hamartomas of the central nervous system, kidneys and [[skin]], as well as pancreatic cysts; 25-50% of patients with cardiac [[rhabdomyomas]] will have [[tuberous sclerosis]], and up to 100% of patients with tuberous sclerosis will have cardiac masses by [[echocardiography]]. | ||
Cardiac hamartoma symptoms depend on the size of the tumor, its location relative to the conduction system, and whether it obstructs blood flow. Symptoms are usually from congestive heart failure. If patients survive [[infancy]], their tumors may regress spontaneously; resection in symptomatic patients has good results.<ref>Stojcev Z, Borun P, Hermann J, et al. Hamartomatous polyposis syndromes. Hered Cancer Clin Pract. 2013;11(1):4.</ref><ref> Kumar V, Abbas AK, Aster JC. Robbins Basic Pathology. Elsevier Health Sciences; 2012.</ref> | Cardiac hamartoma symptoms depend on the size of the tumor, its location relative to the conduction system, and whether it obstructs blood flow. Symptoms are usually from congestive heart failure. If patients survive [[infancy]], their tumors may regress spontaneously; resection in symptomatic patients has good results.<ref>Stojcev Z, Borun P, Hermann J, et al. Hamartomatous polyposis syndromes. Hered Cancer Clin Pract. 2013;11(1):4.</ref><ref name="kumar"> Kumar V, Abbas AK, Aster JC. Robbins Basic Pathology. Elsevier Health Sciences; 2012.</ref> | ||
===Hypothalamus=== | ===Hypothalamus=== |
Revision as of 15:54, 11 January 2016
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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1]Associate Editor(s)-in-Chief: Maria Fernanda Villarreal, M.D. [2]
Overview
Hamartomas arise from connective tissue and are generally formed of cartilage, fat, and connective tissue cells, although they may include many other types of cells. They can be located in lung (most common), heart, hypothalamus, kidneys, or spleen. The pathogenesis consists in the disorganized replication of normal tissue cells. There are many genetic syndromes that cause multiple hamartomas, such as; Peutz-Jeghers syndrome, PTEN hamartoma tumour syndrome and Cowden’s syndrome. Genes involved in the pathogenesis of harmatomatous syndromes include; BMPR1A, SMAD4, PTEN and STK11.[1][2]
Pathogenesis
Hamartomas result from an abnormal formation of normal tissue, although the underlying reasons for the abnormality are not fully understood. They grow along with, and at the same rate as, the organ from whose tissue they are made, and, unlike cancerous tumors, only rarely invade or compress surrounding structures significantly. [3]
Lung
Most hamartomas occur in the lungs. About 5-8% of all solitary lung tumors and about 75% of all benign lung tumors are hamartomas. They almost always arise from connective tissue and are generally formed of cartilage, fat, and connective tissue cells, although they may include many other types of cells. The great majority of them form in the connective tissue on the outside of the lungs, although about 10% form in the linings of the bronchi. In most cases, it can be difficult to distinguish them from malignancies.[3]
Pulmonary hamartomas can be divided into two subtypes: endobronchial and parenchymal. Endobronchial location is described in 3%–20% of all pulmonary hamartomas, they are mainly composed of contain cartilage and fibrous tissue. On the other hand, endobronchial hamartomas typically contain more fat tissue than parenchymal ones.
Heart
Cardiac rhabdomyomas are hamartomas comprised of altered cardiac myocytes that contain large vacuoles and glycogen. They are the second most common tumor of the heart in children and infants (after fibromas). There is a strong association between cardiac rhabdomyomas and tuberous sclerosis (characterized by hamartomas of the central nervous system, kidneys and skin, as well as pancreatic cysts; 25-50% of patients with cardiac rhabdomyomas will have tuberous sclerosis, and up to 100% of patients with tuberous sclerosis will have cardiac masses by echocardiography. Cardiac hamartoma symptoms depend on the size of the tumor, its location relative to the conduction system, and whether it obstructs blood flow. Symptoms are usually from congestive heart failure. If patients survive infancy, their tumors may regress spontaneously; resection in symptomatic patients has good results.[4][5]
Hypothalamus
For more information on hypothalamic hamartoma, See here
A hypothalamic or tuber cinereum hamartoma is benign non neoplasic heterotopia in the brain that typically occurs in the region of the hypothalamus, arising from the tuber cinereum, a part of the hypothalamus located between the mamillary bodies and the optic chiasm. Also called "Tuber cinereum hamartoma" unlike other hamartomas, a hypothalamic hamartoma is symptomatic; it most often causes gelastic seizures, and can cause visual problems, other seizures, rage disorders associated with hypothalamic diseases, and early onset of puberty. The symptoms typically begin in early infancy and are progressive, often into general cognitive and/or functional disability.[6]
Kidneys, spleen, and other vascular organs
For more information on angiomyolipoma, See here
One general danger of hamartoma is that they may impinge into blood vessels, resulting in a risk of serious bleeding. Because hamartoma typically lacks elastic tissue, it may lead to the formation of aneurysms and thus possible hemorrhage. Where a hamartoma impinges into a major blood vessel, such as the renal artery, hemorrhage must be considered life-threatening.[7]
Hamartoma of the kidney is also called angiomyolipoma and can be associated with tuberous sclerosis. It is one of the more frequently seen hamartomas. The condition is more prevalent in women than men, and generally occurs in the right kidney. Hamartomas of the spleen are uncommon, but can be dangerous. They are often associated with hematologic abnormalities and spontaneous rupture.
Genetics
Genes involved in the pathogenesis of harmatomatous syndromes include BMPR1A, SMAD4, PTEN and STK11.[8]
Associated Conditions
Many hereditary syndromes are associated with hamartomatous formation. The familial inheritance diseases include; juvenile polyposis syndrome, Peutz-Jeghers syndrome, hereditary mixed polyposis syndrome (HMPS) and PTEN hamartoma tumour syndrome, tuberous sclerosis, Cowden’s syndrome and Bannayan-Riley-Ruvalcaba syndrome.
Cowden syndrome
For more information on cowden syndrome, See here
Cowden syndrome is a serious genetic disorder characterized by multiple hamartomas. [9] Usually skin hamartomas exist, and commonly (about 66% of cases) hamartoma of the thyroid gland exists. Additional growths can form in many parts of the body, especially in mucosa, the GI tract, bones, CNS, the eyes, and the genitourinary tract. The hamartomas themselves may cause symptoms or even death, but morbidity is more often associated with increased occurrence of malignancies, usually in the breast or thyroid.
Tuberous sclerosis
For more information on tuberous sclerosis, See here
Tuberous sclerosis is a syndrome caused by potentially by more than 900 mutations of the tumor suppressor genes for tuberin (TSC2) and hamartin (TSC1) that cause abnormal cellular signaling through rapamycin complex 1It is characterized by multiple hamartomas, angiomyolipomas (in 80%) and lymphangioleiomyomatosis usually in women. Important clinical features include; Epilepsy,learning difficulties, and skin tumors.
Peutz-Jeghers syndrome
For more information on Peutz-Jeghers syndrome, See here
Peutz-Jeghers syndrome is an autosomal dominant disorder characterised by the concurrence of hamartomatous intestinal polyps with mucocutaneous melanotic macules usually on the lips, buccal mucosa, and digits.The polyps are usually benign but there is a 15x increase in the risk of bowel and other cancer compared to the general population. Females are more likely to develop granulosa cell ovarian tumours. Cancers of the pancreas, stomach, and even multiple myeloma are associated. It is caused by mutations of the STK11 gene at 19p13.3.[10]
Gross Pathology
On gross pathology, a hallmark feature of hamartoma is a well-circumscribed mass that may show a variegated yellow and white appearance, which corresponds respectively to fat and cartilage.[5] They are unencapsulated, lobulated tumors with connective tissue septa. Tumoral size ranges between 1 and 3 cm in diameter at the time of diagnosis.
Microscopic Pathology
On microscopic pathology, hamartomas have benign tumors features such as, disorganized (non-neoplastic) growth, tissue of the region within it is found and no invasion to surrounding tissue or structures.[5]
Common findings include:
Cartilage
- Single cells in lacunae surrounded by abundant matrix
- Paucicellular vis-a-vis malignant lesions
Fat (adipocytes)
- Respiratory epithelium (columnar epithelium with cilia) - lung hamartoma
Gallery
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Low magnification micrograph of a pulmonary hamartoma. H&E stain.[11]
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Pulmonary hamartoma: The surrounding lung falls away from the well-circumscribed mass, a typical feature of these lesions. The hamartoma shows a variegated yellow and white appearance, which corresponds respectively to fat and cartilage.[11]
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Gross pathology of pulmonary hamartoma.[11]
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Epithelial lined clefts within myxoid fibrous connective tissue.[11]
References
- ↑ Stojcev Z, Borun P, Hermann J, et al. Hamartomatous polyposis syndromes. Hered Cancer Clin Pract. 2013;11(1):4.
- ↑ Kumar V, Abbas AK, Aster JC. Robbins Basic Pathology. Elsevier Health Sciences; 2012.
- ↑ 3.0 3.1 Zakharov V, Schinstine M (2008). "Hamartoma of the lung". Diagn. Cytopathol. 36 (5): 331–2. doi:10.1002/dc.20790. PMID 18418855.
- ↑ Stojcev Z, Borun P, Hermann J, et al. Hamartomatous polyposis syndromes. Hered Cancer Clin Pract. 2013;11(1):4.
- ↑ 5.0 5.1 5.2 Kumar V, Abbas AK, Aster JC. Robbins Basic Pathology. Elsevier Health Sciences; 2012.
- ↑ Zhu M, Maeda M, Lee GJ, and Yuh WTC: Chapter 53. Sellar Lesions. In: Stark DD. Bradley WG. (eds): Magnetic Resonance Imaging. (ed 3)St. Louis:Mosby,1999, pp 1225–1230
- ↑ Splenic hamartoma.Dr Henry Knipe et al Radiopedia.http://radiopaedia.org/articles/pulmonary-hamartoma-1 Accessed on December 09, 2015
- ↑ Stojcev Z, Borun P, Hermann J, et al. Hamartomatous polyposis syndromes. Hered Cancer Clin Pract. 2013;11(1):4.
- ↑ Liaw D, Marsh DJ, Li J, Dahia PL, Wang SI, Zheng Z; et al. (1997). "Germline mutations of the PTEN gene in Cowden disease, an inherited breast and thyroid cancer syndrome". Nat Genet. 16 (1): 64–7. doi:10.1038/ng0597-64. PMID 9140396.
- ↑ Peutz-Jeghers syndrome. http://www.ganfyd.org/index.php?title=Peutz-Jeghers_syndrome Accessed on December 09,2015
- ↑ 11.0 11.1 11.2 11.3 Hamartoma. Libre Pathology.http://librepathology.org/wiki/index.php/Pulmonary_hamartoma Accessed on December 8, 2015