Tuberous sclerosis overview: Difference between revisions
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{{Tuberous sclerosis}} | {{Tuberous sclerosis}} | ||
{{CMG}} | {{CMG}} {{AE}} {{Jose}} | ||
==Overview== | ==Overview== | ||
'''Tuberous sclerosis complex''' ('''TSC'''), is a rare autosomal dominant congenital disorder that affects multiple organ systems and is characterized by an abnormal growth of ectodermal and mesodermal cells that causes [[benign tumor|non-cancerous tumours]] to grow in the [[human brain|brain]] and on other vital organs such as the [[kidney]]s, [[ | '''Tuberous sclerosis complex''' ('''TSC'''), is a rare [[autosomal dominant]] congenital disorder that affects multiple organ systems and is characterized by an abnormal [[growth]] of [[Ectoderm|ectodermal]] and [[Mesoderm|mesodermal]] cells that causes [[benign tumor|non-cancerous tumours]] to grow in the [[human brain|brain]] and on other vital organs such as the [[kidney]]s, [[heart]], [[liver]], [[human eye|eye]]s, [[human lung|lung]]s, and [[human skin|skin]]. | ||
==Historical Perspective== | ==Historical Perspective== | ||
Tuberous Sclerosis was described as a specific disease in the 19th century, being initially referred to adenoma sebaceum, epiloia, Pringle's disease or Bourneville's disease. In 1862, von Recklinghausen reported a tumor of the heart found in a newborn during autopsy, and by that he is credited to be the first that described the microscopic appearance of tuberous sclerosis. Bourneville in 1880, a French neurologist, described the case of a girl who presented at the age of 3 with facial eruption and died at 15 years of age due to epilepsy, which complicated with pneumonia and inanition. He found brain and kidney tumors on the autopsy which were correctly believed to be the cause of her seizures and mental retardation. | Tuberous Sclerosis was described as a specific disease in the 19th century, being initially referred to adenoma sebaceum, epiloia, Pringle's disease or Bourneville's disease. In 1862, von Recklinghausen reported a tumor of the [[heart]] found in a newborn during autopsy, and by that he is credited to be the first that described the microscopic appearance of tuberous sclerosis. Bourneville in 1880, a French neurologist, described the case of a girl who presented at the age of 3 with facial eruption and died at 15 years of age due to [[epilepsy]], which complicated with [[pneumonia]] and inanition. He found [[brain]] and [[kidney]] tumors on the autopsy which were correctly believed to be the cause of her [[seizures]] and [[mental retardation]]. | ||
==Classification== | ==Classification== | ||
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==Pathophysiology== | ==Pathophysiology== | ||
Patients with tuberous sclerosis have loss-of-function germline mutations in both alleles of the following tumor suppressor genes: TSC1 or TSC2. One third of the mutations is inherited, two thirds are de novo mutations. The mutations causes the loss of one allele, but as long as the second one remains intact, the cell won't present any metabolic change. When there is a second TSC1 or TSC2 mutation, which typically occurs in multiple cells over a person's lifetime, then the disease starts to manifest (fitting the "two-hit" tumor-suppressor gene model, with the germline mutation inactivating one gene and then a somatic event inactivating the remaining other one). TSC1 codes for a protein called hamartin, and TSC2 codes for a protein called tuberin. They belong to a protein complex that inhibits the mammalian target of rapamycin (mTOR) complex 1, which regulates cell growth. | Patients with tuberous sclerosis have loss-of-function germline [[Mutation|mutations]] in both [[Allele|alleles]] of the following [[Tumor suppressor gene|tumor suppressor genes]]: TSC1 or TSC2. One third of the [[Mutation|mutations]] is inherited, two thirds are de novo [[Mutation|mutations]]. The mutations causes the loss of one [[allele]], but as long as the second one remains intact, the cell won't present any metabolic change. When there is a second TSC1 or TSC2 [[mutation]], which typically occurs in multiple cells over a person's lifetime, then the disease starts to manifest (fitting the "two-hit" tumor-suppressor gene model, with the germline mutation inactivating one gene and then a [[Somatic damage|somatic]] event inactivating the remaining other one). TSC1 codes for a protein called [[hamartin]], and TSC2 codes for a protein called [[tuberin]]. They belong to a protein complex that inhibits the [[mammalian target of rapamycin]] ([[mTOR]]) complex 1, which regulates [[cell growth]]. | ||
==Causes== | ==Causes== | ||
Loss of function mutation of the genes TSC1 and TSC2 which are responsible for the production of hamartin and tuberin. These proteins regulate the cell cycle. Damage to this pathway leads to a very variable presentation of benign tumors in multiple systems. | Loss of function [[mutation]] of the genes TSC1 and TSC2 which are responsible for the production of [[hamartin]] and [[tuberin]]. These proteins regulate the cell cycle. Damage to this pathway leads to a very variable presentation of [[benign tumors]] in multiple systems. | ||
''TSC1'' and ''TSC2'' are both [[tumor suppressor gene]]s that function according to [[Knudson hypothesis|Knudson's "two hit" hypothesis]]. That is, a second random mutation must occur before a tumor can develop. | ''TSC1'' and ''TSC2'' are both [[tumor suppressor gene]]s that function according to [[Knudson hypothesis|Knudson's "two hit" hypothesis]]. That is, a second random mutation must occur before a tumor can develop. | ||
==Differentiating Tuberous Sclerosis from other Diseases== | ==Differentiating Tuberous Sclerosis from other Diseases== | ||
Tuberous sclerosis must be differentiated from other diseases that cause myxoma or other benign tumors and/or seizures, such as Sturge Weber, hypomelanosis of Ito, Birt-Hogg-Dube syndrome, multiple endocrine neoplasia and various seizures disorders. | Tuberous sclerosis must be differentiated from other diseases that cause [[myxoma]] or other benign tumors and/or [[seizures]], such as [[Sturge-Weber syndrome|Sturge-Weber]], [[hypomelanosis of Ito]], [[Birt-Hogg-Dube syndrome]], [[multiple endocrine neoplasia]] and various [[Seizure|seizures]] disorders. | ||
==Epidemiology and Demographics== | ==Epidemiology and Demographics== | ||
Tuberous sclerosis complex affects about 1 in 6,000 people, occurring in all races and ethnic groups, and in both genders. Prior to the invention of CT scanning to identify the nodules and tubers in the brain, the prevalence was thought to be much lower and the disease associated with those people diagnosed clinically with learning disability, seizures, and facial angiofibroma. Whilst still regarded as a rare disease, TSC is common when compared to many other genetic diseases, with at least 1 million individuals worldwide. | Tuberous sclerosis complex affects about 1 in 6,000 people, occurring in all races and ethnic groups, and in both genders. Prior to the invention of [[CT-scans|CT]] scanning to identify the nodules and tubers in the brain, the [[prevalence]] was thought to be much lower and the disease associated with those people diagnosed clinically with [[learning disability]], [[Seizure|seizures]], and [[facial angiofibroma]]. Whilst still regarded as a rare disease, TSC is common when compared to many other genetic diseases, with at least 1 million individuals worldwide. | ||
==Risk Factors== | ==Risk Factors== | ||
There are no established environmental risk factors for tuberous sclerosis. One third of the cases are familial, so family history can be a risk factor for the disease. | There are no established [[environmental risk factors]] for tuberous sclerosis. One third of the cases are familial, so family history can be a risk factor for the disease. | ||
==Screening== | ==Screening== | ||
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==Natural History, Complications, and Prognosis== | ==Natural History, Complications, and Prognosis== | ||
===Skin=== | ===Skin=== | ||
Symptoms develop in almost all patients with TSC and include ungual fibromas, facial angiofibromas (may demand treatment and may worsen with UV exposure), shagreen patches (oval-shaped lesions, generally skin-colored but can be sometimes pigmented, may be crinkled or smooth), focal hypopigmented macules (ash-leaf spots), dental enamel pits (present in 100% of the patients), oral fibromas, retinal astrocytic hamartomas (tumors of the retinal nerve), retinal achromic patches (light or dark spots on the eye). | Symptoms develop in almost all patients with TSC and include ungual [[Fibroma|fibromas]], facial [[Angiofibroma|angiofibromas]] (may demand treatment and may worsen with UV exposure), shagreen patches (oval-shaped lesions, generally skin-colored but can be sometimes pigmented, may be crinkled or smooth), focal [[hypopigmented macules]] (ash-leaf spots), dental enamel pits (present in 100% of the patients), oral fibromas, retinal astrocytic [[hamartomas]] (tumors of the retinal nerve), retinal achromic patches (light or dark spots on the eye). | ||
===Renal=== | ===Renal=== | ||
TSC leads to the formation of renal angiomyolipomas (present in 60-80% of the TSC patients), which are commonly multiple and bilateral. Angiomyolipomas larger than 4 cm are at risk for potentially catastrophic hemorrhage either spontaneously or with minimal trauma. Patients may also develop epithelial cysts, polycystic kidney disease and renal-cell carcinomas. | TSC leads to the formation of renal [[Angiomyolipoma|angiomyolipomas]] (present in 60-80% of the TSC patients), which are commonly multiple and bilateral. [[Angiomyolipoma|Angiomyolipomas]] larger than 4 cm are at risk for potentially catastrophic hemorrhage either spontaneously or with minimal trauma. Patients may also develop [[Epithelial|epithelial cysts]], [[polycystic kidney disease]] and [[renal-cell carcinomas]]. | ||
===Pulmonary=== | ===Pulmonary=== | ||
Lymphangiomyomatosis is a proliferation of smooth-muscle cells that may result in cystic changes in the lungs. Diagnosed mostly during early adulthood, may cause pneumothorax. Multifocal micronodular pneumocyte hyperplasia can occur in both men and women and are mostly asymptomatic. | [[Lymphangiomyomatosis]] is a proliferation of smooth-muscle cells that may result in cystic changes in the lungs. Diagnosed mostly during early adulthood, may cause [[pneumothorax]]. [[Multifocal micronodular pneumocyte hyperplasia]] can occur in both men and women and are mostly asymptomatic. | ||
===Neurologic=== | ===Neurologic=== | ||
TSC may cause epilepsy, which is the most common neurological presentation occurring in 70-80% of patients and may complicate with infantile spasms, a severe form of epileptic syndrome. Neuropsychiatric disorders are present in two-thirds of the patients and anxiety is one of the most common presentations. Autism is one possible manifestation and is especially associated with cerebral cortical tubers. | TSC may cause [[epilepsy]], which is the most common neurological presentation occurring in 70-80% of patients and may complicate with [[infantile spasms]], a severe form of [[epileptic]] syndrome. Neuropsychiatric disorders are present in two-thirds of the patients and [[anxiety]] is one of the most common presentations. Autism is one possible manifestation and is especially associated with cerebral cortical tubers. | ||
===Cardiovascular=== | ===Cardiovascular=== | ||
Rhabdomyomas may be present, being intramural or intracavitary in its distribution along the myocardium. May be detected in utero on fetuses and is associated with cardiac failure. Often disappear spontaneously in later life. | [[Rhabdomyomas]] may be present, being intramural or intracavitary in its distribution along the [[myocardium]]. May be detected in utero on fetuses and is associated with [[cardiac failure]]. Often disappear spontaneously in later life. | ||
==Diagnosis== | ==Diagnosis== | ||
TSC can be first diagnosed at any stage of life and it is diagnosed if a set of diagnostic criteria are met. If a case meets the clinical diagnostic criteria, then it is performed a genetic molecular testing which is seem mostly as corroborative. The latest diagnostic criteria was developed by the 2012 International Tuberous Sclerosis Complex Consensus Conference. | TSC can be first diagnosed at any stage of life and it is diagnosed if a set of diagnostic criteria are met. If a case meets the clinical diagnostic criteria, then it is performed a genetic molecular testing which is seem mostly as corroborative. The latest diagnostic criteria was developed by the 2012 International Tuberous Sclerosis Complex Consensus Conference. | ||
===History and Symptoms=== | ===History and Symptoms=== | ||
The most common symptoms of tuberous sclerosis are due to the growth of the already disclosed benign tumors. Tumors in the CSN may cause epilepsy, autism and children may also present with cognitive disabilities. Tumors in the kidneys may compromise renal function and metastasize to the lungs, which in most cases is asymptomatic. | The most common [[symptoms]] of tuberous sclerosis are due to the growth of the already disclosed benign tumors. Tumors in the CSN may cause [[epilepsy]], [[autism]] and children may also present with [[cognitive disabilities]]. Tumors in the [[Kidney|kidneys]] may compromise renal function and [[Metastasis|metastasize]] to the [[lungs]], which in most cases is [[Asymptomatic condition|asymptomatic]]. | ||
===Physical Examination=== | ===Physical Examination=== | ||
Skin lesions are present and they are usually remarkable for dental enamel pits (present in 100% of the patients) | Skin lesions are present and they are usually remarkable for dental enamel pits (present in 100% of the patients), [[hypomelanotic macules]], shagreen patches, and forehead plaques. | ||
===Laboratory Findings=== | ===Laboratory Findings=== | ||
There are no typical diagnostic laboratory findings associated with tuberous sclerosis. Patients may present with elevated BUN or creatinine if their renal angiomyolipomas compromise renal function or if they also present with autosomal dominant polycystic kidney disease. | There are no typical diagnostic laboratory findings associated with tuberous sclerosis. Patients may present with elevated [[BUN]] or [[creatinine]] if their renal [[angiomyolipomas]] compromise renal function or if they also present with [[Autosomal dominant polycystic kidney disease|autosomal dominant polycystic kidney]] disease. | ||
===Electrocardiogram=== | ===Electrocardiogram=== | ||
There are no ECG findings associated with tuberous sclerosis. | There are no [[ECG]] findings associated with tuberous sclerosis. | ||
===X-ray=== | ===X-ray=== | ||
There are no typical x-ray findings associated with tuberous sclerosis, but patients may present with pneumothorax and/or chylous pleural effusions due if they develop lymphangioleiomyomatosis. | There are no typical x-ray findings associated with tuberous sclerosis, but patients may present with [[pneumothorax]] and/or [[chylous pleural effusions]] due if they develop [[lymphangioleiomyomatosis]]. | ||
===Echocardiography or Ultrasound=== | ===Echocardiography or Ultrasound=== | ||
Echocardiography/ultrasound may be helpful raising the suspicion of tuberous sclerosis. Echocardiographs can detect cardiac rhabdomyomas, present in more than 80% of the children with TSC. Ultrasound can detect hepatic angiomyolipomas, renal angiomyolipomas (present in 55-75% of patients) and renal cysts (present in 18-55% of the patients). | [[Echocardiography]]/[[ultrasound]] may be helpful raising the suspicion of tuberous sclerosis. [[Echocardiographs]] can detect cardiac [[rhabdomyomas]], present in more than 80% of the children with TSC. [[Ultrasound]] can detect hepatic [[angiomyolipomas]], renal [[Angiomyolipoma|angiomyolipomas]] (present in 55-75% of patients) and [[renal cysts]] (present in 18-55% of the patients). | ||
===CT scan=== | ===CT scan=== | ||
CT scan may be helpful in the diagnosis of tuberous sclerosis. It can diagnose cortical or subependymal tubers and white matter abnormalities, subependymal hamartomas, subependymal giant cell astrocytomas, renal angiomyolipomas, renal cysts, renal cell carcinoma (associated with tuberous sclerosis), retroperitoneal lymphangiomyomatosis, gastrointestinal polyps, pancreatic neuroendocrine tumors, lymphangioleiomyomatosis, multifocal micronodular pneumocyte hyperplasia and cardiac rhabdomyomas. | [[CT scan]] may be helpful in the diagnosis of tuberous sclerosis. It can diagnose [[Cerebral cortex|cortical]] or [[Subependymal|subependymal tubers]] and [[white matter]] abnormalities, [[subependymal]] [[hamartomas]], [[subependymal]] [[giant cell astrocytomas]], renal [[Angiomyolipoma|angiomyolipomas]], [[renal cysts]], [[renal cell carcinoma]] (associated with tuberous sclerosis), [[retroperitoneal]] [[lymphangiomyomatosis]], [[Polyps|gastrointestinal polyps]], pancreatic [[neuroendocrine tumors]], [[lymphangioleiomyomatosis]], multifocal micronodular pneumocyte hyperplasia and cardiac [[rhabdomyomas]]. | ||
===MRI=== | ===MRI=== | ||
MRI may be helpful in the diagnosis of tuberous sclerosis as it can find the same abnormalities found on CT scan which are described above, some of them with much more detail, but it is especially useful for evaluating white matter changes seen in the disease. | [[MRI]] may be helpful in the diagnosis of tuberous sclerosis as it can find the same abnormalities found on CT scan which are described above, some of them with much more detail, but it is especially useful for evaluating [[white matter]] changes seen in the disease. | ||
===Other Imaging Findings=== | ===Other Imaging Findings=== | ||
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===Other Diagnostic Studies=== | ===Other Diagnostic Studies=== | ||
Genetic testing may be helpful in the diagnosis of tuberous sclerosis but some patients may not have detectable genetic mutations on the test and still have the disease. It is considered to be a corroborative test. | [[Genetic testing]] may be helpful in the diagnosis of tuberous sclerosis but some patients may not have detectable genetic mutations on the test and still have the disease. It is considered to be a corroborative test. | ||
==Treatment== | ==Treatment== | ||
Treatment with [[mTOR inhibitors]] may be indicated for [[Subependymal|subependyma]]<nowiki/>l giant cell [[astrocytomas]], asymptomatic [[Angiomyolipoma|angiomyolipomas]] or [[lymphangioleiomyomatosis]]. Depending on the size, location and symptoms, surgery can be required to treat [[subependymal]] giant cell [[astrocytomas]], and, should [[Angiomyolipoma|angiomyolipomas]] bleed, the best treatment is [[embolisation]]. Epilepsy should be managed with [[vigabatrin]] and [[adrenocorticotropic hormone]]. | |||
[[Category:Genetic disorders]] | [[Category:Genetic disorders]] | ||
[[Category:Disease]] | [[Category:Disease]] | ||
[[Category:Neurology]] | [[Category:Neurology]] | ||
[[Category:Needs content]] | [[Category:Needs content]] | ||
Latest revision as of 17:53, 23 June 2020
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Editor-In-Chief: C. Michael Gibson, M.S., M.D. [1] Associate Editor(s)-in-Chief: José Eduardo Riceto Loyola Junior, M.D.[2]
Overview
Tuberous sclerosis complex (TSC), is a rare autosomal dominant congenital disorder that affects multiple organ systems and is characterized by an abnormal growth of ectodermal and mesodermal cells that causes non-cancerous tumours to grow in the brain and on other vital organs such as the kidneys, heart, liver, eyes, lungs, and skin.
Historical Perspective
Tuberous Sclerosis was described as a specific disease in the 19th century, being initially referred to adenoma sebaceum, epiloia, Pringle's disease or Bourneville's disease. In 1862, von Recklinghausen reported a tumor of the heart found in a newborn during autopsy, and by that he is credited to be the first that described the microscopic appearance of tuberous sclerosis. Bourneville in 1880, a French neurologist, described the case of a girl who presented at the age of 3 with facial eruption and died at 15 years of age due to epilepsy, which complicated with pneumonia and inanition. He found brain and kidney tumors on the autopsy which were correctly believed to be the cause of her seizures and mental retardation.
Classification
There is no established system for the classification of tuberous sclerosis.
Pathophysiology
Patients with tuberous sclerosis have loss-of-function germline mutations in both alleles of the following tumor suppressor genes: TSC1 or TSC2. One third of the mutations is inherited, two thirds are de novo mutations. The mutations causes the loss of one allele, but as long as the second one remains intact, the cell won't present any metabolic change. When there is a second TSC1 or TSC2 mutation, which typically occurs in multiple cells over a person's lifetime, then the disease starts to manifest (fitting the "two-hit" tumor-suppressor gene model, with the germline mutation inactivating one gene and then a somatic event inactivating the remaining other one). TSC1 codes for a protein called hamartin, and TSC2 codes for a protein called tuberin. They belong to a protein complex that inhibits the mammalian target of rapamycin (mTOR) complex 1, which regulates cell growth.
Causes
Loss of function mutation of the genes TSC1 and TSC2 which are responsible for the production of hamartin and tuberin. These proteins regulate the cell cycle. Damage to this pathway leads to a very variable presentation of benign tumors in multiple systems.
TSC1 and TSC2 are both tumor suppressor genes that function according to Knudson's "two hit" hypothesis. That is, a second random mutation must occur before a tumor can develop.
Differentiating Tuberous Sclerosis from other Diseases
Tuberous sclerosis must be differentiated from other diseases that cause myxoma or other benign tumors and/or seizures, such as Sturge-Weber, hypomelanosis of Ito, Birt-Hogg-Dube syndrome, multiple endocrine neoplasia and various seizures disorders.
Epidemiology and Demographics
Tuberous sclerosis complex affects about 1 in 6,000 people, occurring in all races and ethnic groups, and in both genders. Prior to the invention of CT scanning to identify the nodules and tubers in the brain, the prevalence was thought to be much lower and the disease associated with those people diagnosed clinically with learning disability, seizures, and facial angiofibroma. Whilst still regarded as a rare disease, TSC is common when compared to many other genetic diseases, with at least 1 million individuals worldwide.
Risk Factors
There are no established environmental risk factors for tuberous sclerosis. One third of the cases are familial, so family history can be a risk factor for the disease.
Screening
As it is a rare disease, screening is not recommended.
Natural History, Complications, and Prognosis
Skin
Symptoms develop in almost all patients with TSC and include ungual fibromas, facial angiofibromas (may demand treatment and may worsen with UV exposure), shagreen patches (oval-shaped lesions, generally skin-colored but can be sometimes pigmented, may be crinkled or smooth), focal hypopigmented macules (ash-leaf spots), dental enamel pits (present in 100% of the patients), oral fibromas, retinal astrocytic hamartomas (tumors of the retinal nerve), retinal achromic patches (light or dark spots on the eye).
Renal
TSC leads to the formation of renal angiomyolipomas (present in 60-80% of the TSC patients), which are commonly multiple and bilateral. Angiomyolipomas larger than 4 cm are at risk for potentially catastrophic hemorrhage either spontaneously or with minimal trauma. Patients may also develop epithelial cysts, polycystic kidney disease and renal-cell carcinomas.
Pulmonary
Lymphangiomyomatosis is a proliferation of smooth-muscle cells that may result in cystic changes in the lungs. Diagnosed mostly during early adulthood, may cause pneumothorax. Multifocal micronodular pneumocyte hyperplasia can occur in both men and women and are mostly asymptomatic.
Neurologic
TSC may cause epilepsy, which is the most common neurological presentation occurring in 70-80% of patients and may complicate with infantile spasms, a severe form of epileptic syndrome. Neuropsychiatric disorders are present in two-thirds of the patients and anxiety is one of the most common presentations. Autism is one possible manifestation and is especially associated with cerebral cortical tubers.
Cardiovascular
Rhabdomyomas may be present, being intramural or intracavitary in its distribution along the myocardium. May be detected in utero on fetuses and is associated with cardiac failure. Often disappear spontaneously in later life.
Diagnosis
TSC can be first diagnosed at any stage of life and it is diagnosed if a set of diagnostic criteria are met. If a case meets the clinical diagnostic criteria, then it is performed a genetic molecular testing which is seem mostly as corroborative. The latest diagnostic criteria was developed by the 2012 International Tuberous Sclerosis Complex Consensus Conference.
History and Symptoms
The most common symptoms of tuberous sclerosis are due to the growth of the already disclosed benign tumors. Tumors in the CSN may cause epilepsy, autism and children may also present with cognitive disabilities. Tumors in the kidneys may compromise renal function and metastasize to the lungs, which in most cases is asymptomatic.
Physical Examination
Skin lesions are present and they are usually remarkable for dental enamel pits (present in 100% of the patients), hypomelanotic macules, shagreen patches, and forehead plaques.
Laboratory Findings
There are no typical diagnostic laboratory findings associated with tuberous sclerosis. Patients may present with elevated BUN or creatinine if their renal angiomyolipomas compromise renal function or if they also present with autosomal dominant polycystic kidney disease.
Electrocardiogram
There are no ECG findings associated with tuberous sclerosis.
X-ray
There are no typical x-ray findings associated with tuberous sclerosis, but patients may present with pneumothorax and/or chylous pleural effusions due if they develop lymphangioleiomyomatosis.
Echocardiography or Ultrasound
Echocardiography/ultrasound may be helpful raising the suspicion of tuberous sclerosis. Echocardiographs can detect cardiac rhabdomyomas, present in more than 80% of the children with TSC. Ultrasound can detect hepatic angiomyolipomas, renal angiomyolipomas (present in 55-75% of patients) and renal cysts (present in 18-55% of the patients).
CT scan
CT scan may be helpful in the diagnosis of tuberous sclerosis. It can diagnose cortical or subependymal tubers and white matter abnormalities, subependymal hamartomas, subependymal giant cell astrocytomas, renal angiomyolipomas, renal cysts, renal cell carcinoma (associated with tuberous sclerosis), retroperitoneal lymphangiomyomatosis, gastrointestinal polyps, pancreatic neuroendocrine tumors, lymphangioleiomyomatosis, multifocal micronodular pneumocyte hyperplasia and cardiac rhabdomyomas.
MRI
MRI may be helpful in the diagnosis of tuberous sclerosis as it can find the same abnormalities found on CT scan which are described above, some of them with much more detail, but it is especially useful for evaluating white matter changes seen in the disease.
Other Imaging Findings
There are no other imaging findings associated with tuberous sclerosis.
Other Diagnostic Studies
Genetic testing may be helpful in the diagnosis of tuberous sclerosis but some patients may not have detectable genetic mutations on the test and still have the disease. It is considered to be a corroborative test.
Treatment
Treatment with mTOR inhibitors may be indicated for subependymal giant cell astrocytomas, asymptomatic angiomyolipomas or lymphangioleiomyomatosis. Depending on the size, location and symptoms, surgery can be required to treat subependymal giant cell astrocytomas, and, should angiomyolipomas bleed, the best treatment is embolisation. Epilepsy should be managed with vigabatrin and adrenocorticotropic hormone.