Lymphangioleiomyomatosis

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Lymphangioleiomyomatosis (LAM) is a low-grade destructive metastasising PEComatous tumour, resulting from the proliferation of LAM cells in the lung, kidney and axial lymphatics. ~~Disease~~The disease is caused by mutations of the TSC2 or TSC1 genes and is most commonly sporadic. Cystic lung disease is the most frequent manifestation.

Epidemiology

Cystic lung disease almost exclusively affects women, and the majority of symptomatic lung disease is occurs in sporadic LAM (s-LAM). Diagnosis is typically delayed and advanced cystic lung destruction may be mistaken for emphysema. The true prevalence of s-LAM may be as high as 8:1,000,000 ¹.

The prevalence of tuberous sclerosis (TSC) is 1:6,000 births, however, cystic lung disease is frequently asymptomatic. The few cases of cystic LAM lung disease in men are in this category, except for one reported case of s-LAM.

S-LAM may be a ~~forme~~'forme fruste' of ~~TSC~~tuberous sclerosis. In s-LAM, the mutations are somatic and not heritable, whereas in ~~TSC~~tuberous sclerosis germline mutations are inherited in an autosomal dominant fashion. Even in ~~TSC~~tuberous sclerosis, sporadic mutations outnumber inherited disease 2:1. ~~TSC~~Tuberous sclerosis may be ~~under-diagnosed~~underdiagnosed due to the attached stigma.

Clinical presentation

S-LAM presents in late teens or adulthood and lung and lymphatic disease predominate:

pneumothorax, which often precedes diagnosis, occurring in >65% of cases and often recurrent, sometimes bilateral
pneumothorax during pregnancy
progressive dyspnoea: the disease is variable, the average age of onset of symptoms is 33 years of age and untreated patients become dependent on home oxygen about 10 years afterwards
haemoptysis
acute abdominal pain due to haemorrhagic renal angiomyolipoma (AML)

Diagnosis

American Thoracic Society/Japanese Respiratory Society guidelines 2017 support a clinical diagnosis of LAM based on typical lung CT and accompanied by any of the following:

~~TSC~~tuberous sclerosis
renal angiomyolipoma
cystic lymphangioleiomyoma
chylous pleural effusions in the chest and/or abdomen

This society also recommends testing for vascular endothelial growth factor D (VEGF D) before resorting to a lung biopsy which must be stained appropriately, including for HMB-45 (other smooth muscle~~–predominant~~-predominant lesions in the lung do not react with this antibody). VEGF D levels correlate with the severity of lymphatic involvement. Higher levels predict more rapid disease progression and a more robust ~~response~~responses to mTOR inhibitors¹⁷.

One ~~third~~-third of TSC cases are inherited by autosomal dominant transmission and frequently present in childhood with developmental delay and seizures. TSC2 on chromosome 16 codes for tuberin and is more common and severe than TSC1 on chromosome 9 which codes for hamartin.

Pathology

Tissues are infiltrated by smooth muscle-like LAM cells containing inactivating mutations of TSC2 or TSC1 tumour suppressor genes. Consequent activation of the mechanistic target of rapamycin (mTOR) signalling pathway results in proliferation of LAM cells which migrate through lymphatic vessels and infiltrate airways and blood vessels causing obstruction, cystic lung destruction and haemorrhage. LAM cells express oestrogen receptors and functional decline accelerates during pregnancy. Oestrogen is a driver of LAM cell proliferation and lymphatic dissemination.

Lung disease, lymphatic disease and chylous leaks predominate in s-LAM, whereas widespread benign tumours and hamartomas are common in ~~TSC~~tuberous sclerosis.

Radiographic features

Chest

Radiography

large volume lungs with abnormal architecture mimicking emphysema in advanced disease
chylous pleural effusions
pneumothorax

CT

large lungs containing scattered thin-walled rounded empty cysts
- in early disease, the cysts are few and small with normal intervening lung parenchyma
- the cysts progressively enlarge and become more numerous until there is little normal lung remaining
transient areas of increased lung opacity due to haemorrhage
small lung nodules representing multifocal micronodular pneumocyte hyperplasia (MMPH) in ~~TSC~~tuberous sclerosis
pneumothorax
chylous effusions: pleural, pericardial
lymphadenopathy
dilated thoracic duct
myocardial fatty foci in ~~TSC~~tuberous sclerosis ¹²

Abdomen and pelvis

Best delineated by CT or MR.

single or multiple renal epithelioid AMLs containing a mixture of fat and soft~~-tissue~~ tissue. >90% incidence in TSC cases which have larger and more numerous AMLs¹⁵compared with about 30% incidence in s-LAM.
hepatic or retroperitoneal AMLs
chylous ascites
lymphangioleiomyomas: soft cystic/solid masses which can insinuate between normal structures without compressing them
lymphadenopathy

Skeletal

multiple osteoblastic bone lesions in ~~TSC~~tuberous sclerosis, similar in appearance to enostoses

Treatment and prognosis

Median survival is about 30 years following diagnosis. There are few medications ~~which~~that have been shown to benefit patients with LAM, with mTOR inhibitors being one of the main treatment options. Sirolimus or everolimus limit LAM cell proliferation by inhibiting the activated mTOR pathway, thereby improving lung function, at least in the short-term, and often shrinking masses¹³ and chylous effusions. Progression generally resumes on cessation.

About 20% respond to bronchodilators. Pneumococcus and influenza vaccines are advised. Osteoporosis may occur in immobile patients.

Other potential therapies, depending on the manifestations include:

VATS pleurodesis for recurrent pneumothorax. The method affects perioperative haemorrhage at transplantation ¹⁶
lung transplantation for respiratory failure. Recurrent LAM in transplanted lungs carries the original ~~TSC~~tuberous sclerosis mutation ¹⁴
embolisation or nephron-sparing surgery for large, rapidly growing or haemorrhagic AMLs
surgery is contraindicated for lymphatic masses, as it can result in persistent chyle leaks
genetic counselling for ~~TSC~~tuberous sclerosis cases

Complications

respiratory failure
recurrent pneumothorax
bilateral pneumothorax
haemorrhagic AML, potentially fatal
sirolimus or everolimus toxicity, including organising pneumonia, cryptogenic organising pneumonia, interstitial pneumonitis, focal fibrosis or alveolar haemorrhage, Pneumocystis jirovecii pneumonia, cardiac failure
sudden death due to obstructing subependymal giant cell astrocytoma in TSC

Differential diagnosis

emphysema
- similar in appearance to advanced cystic lung disease in LAM
- in the least affected areas, LAM will have typical cysts separated by normal parenchyma
lymphocytic interstitial pneumonitis (LIP)
- in women of child-bearing age, LIP is usually associated with connective tissue disease, especially Sjögren syndrome
- a smaller number of lower zone predominant perivascular cysts, some with internal soft-tissue may coexist with nodules, ground-glass opacity, tree-in ~~bud~~-bud opacities, lymphoma or amyloid deposits
- lung changes may pre-date typical serological abnormalities
light-chain deposition disease
- typically occurs in an older adult with plasma cell dyscrasia (e.g. multiple myeloma) and renal failure with findings of cysts, nodules and lymphadenopathy
pulmonary Langerhans cell ~~histiocystosis~~histiocytosis
- upper zone predominant and bronchocentric cavitating nodules, branching or irregular cysts
- spares costophrenic and costomediastinal angles
- typically a disease of young adult smokers, especially men

-<p><strong>Lymphangioleiomyomatosis (LAM)</strong> is a low-grade destructive metastasising <a href="/articles/perivascular-epithelioid-cell-tumours-pecomas-1">PEComatous</a><a href="/articles/pecomatous-tumour"> tumour</a>, resulting from proliferation of LAM cells in lung, kidney and axial lymphatics. Disease is caused by mutations of the <em>TSC2</em> or <em>TSC1</em> genes and is most commonly sporadic. Cystic lung disease is the most frequent manifestation.</p><h4>Epidemiology</h4><p>Cystic lung disease almost exclusively affects women, and the majority of symptomatic lung disease is occurs in sporadic LAM (s-LAM). Diagnosis is typically delayed and advanced cystic lung destruction may be mistaken for <a href="/articles/pulmonary-emphysema">emphysema</a>. The true prevalence of s-LAM may be as high as 8:1,000,000 <sup>1</sup>. </p><p>The prevalence of <a href="/articles/tuberous-sclerosis-tsc">tuberous sclerosis (TSC)</a> is 1:6,000 births, however cystic lung disease is frequently asymptomatic. The few cases of cystic LAM lung disease in men are in this category, except for one reported case of s-LAM.</p><p>S-LAM may be a <em>forme</em> <em>fruste</em> of TSC. In s-LAM the mutations are somatic and not heritable, whereas in TSC germline mutations are inherited in an autosomal dominant fashion. Even in TSC, sporadic mutations outnumber inherited disease 2:1. TSC may be under-diagnosed due to the attached stigma.</p><h4>Clinical presentation</h4><p>S-LAM presents in late teens or adulthood and lung and lymphatic disease predominate:</p><ul>
+<p><strong>Lymphangioleiomyomatosis (LAM)</strong> is a low-grade destructive metastasising <a href="/articles/perivascular-epithelioid-cell-tumours-pecomas-1">PEComatous</a><a href="/articles/pecomatous-tumour"> tumour</a>, resulting from the proliferation of LAM cells in the lung, kidney and axial lymphatics. The disease is caused by mutations of the <em>TSC2</em> or <em>TSC1</em> genes and is most commonly sporadic. Cystic lung disease is the most frequent manifestation.</p><h4>Epidemiology</h4><p>Cystic lung disease almost exclusively affects women, and the majority of symptomatic lung disease occurs in sporadic LAM (s-LAM). Diagnosis is typically delayed and advanced cystic lung destruction may be mistaken for <a href="/articles/pulmonary-emphysema">emphysema</a>. The true prevalence of s-LAM may be as high as 8:1,000,000 <sup>1</sup>. </p><p>The prevalence of <a href="/articles/tuberous-sclerosis-tsc">tuberous sclerosis (TSC)</a> is 1:6,000 births, however, cystic lung disease is frequently asymptomatic. The few cases of cystic LAM lung disease in men are in this category, except for one reported case of s-LAM.</p><p>S-LAM may be a 'forme fruste' of tuberous sclerosis. In s-LAM, the mutations are somatic and not heritable, whereas in tuberous sclerosis germline mutations are inherited in an autosomal dominant fashion. Even in tuberous sclerosis, sporadic mutations outnumber inherited disease 2:1. Tuberous sclerosis may be underdiagnosed due to the attached stigma.</p><h4>Clinical presentation</h4><p>S-LAM presents in late teens or adulthood and lung and lymphatic disease predominate:</p><ul>
~~-<li>TSC</li>~~
+<li>tuberous sclerosis</li>
-</ul><p>This society also recommends testing for vascular endothelial growth factor D (VEGF D) before resorting to a lung biopsy which must be stained appropriately, including for HMB-45 (other smooth muscle–predominant lesions in the lung do not react with this antibody). VEGF D levels correlate with the severity of lymphatic involvement. Higher levels predict more rapid disease progression and a more robust response to mTOR inhibitors<sup>17</sup>.</p><p>One third of TSC cases are inherited by autosomal dominant transmission and frequently present in childhood with developmental delay and seizures. TSC2 on chromosome 16 codes for tuberin and is more common and severe than TSC1 on chromosome 9 which codes for hamartin.</p><h4>Pathology</h4><p>Tissues are infiltrated by smooth muscle-like LAM cells containing inactivating mutations of <em>TSC2</em> or <em>TSC1</em> tumour suppressor genes. Consequent activation of the mechanistic target of rapamycin (mTOR) signalling pathway results in proliferation of LAM cells which migrate through lymphatic vessels and infiltrate airways and blood vessels causing obstruction, cystic lung destruction and haemorrhage. LAM cells express oestrogen receptors and functional decline accelerates during pregnancy. Oestrogen is a driver of LAM cell proliferation and lymphatic dissemination.</p><p>Lung disease, lymphatic disease and chylous leaks predominate in s-LAM, whereas widespread benign tumours and hamartomas are common in TSC.</p><h4>Radiographic features</h4><h5>Chest</h5><h6>Radiography</h6><ul>
+</ul><p>This society also recommends testing for vascular endothelial growth factor D (VEGF D) before resorting to a lung biopsy which must be stained appropriately, including for HMB-45 (other smooth muscle-predominant lesions in the lung do not react with this antibody). VEGF D levels correlate with the severity of lymphatic involvement. Higher levels predict more rapid disease progression and more robust responses to mTOR inhibitors<sup>17</sup>.</p><p>One-third of TSC cases are inherited by autosomal dominant transmission and frequently present in childhood with developmental delay and seizures. <em>TSC2</em> on chromosome 16 codes for tuberin and is more common and severe than <em>TSC1</em> on chromosome 9 which codes for hamartin.</p><h4>Pathology</h4><p>Tissues are infiltrated by smooth muscle-like LAM cells containing inactivating mutations of <em>TSC2</em> or <em>TSC1</em> tumour suppressor genes. Consequent activation of the mechanistic target of rapamycin (mTOR) signalling pathway results in proliferation of LAM cells which migrate through lymphatic vessels and infiltrate airways and blood vessels causing obstruction, cystic lung destruction and haemorrhage. LAM cells express oestrogen receptors and functional decline accelerates during pregnancy. Oestrogen is a driver of LAM cell proliferation and lymphatic dissemination.</p><p>Lung disease, lymphatic disease and chylous leaks predominate in s-LAM, whereas widespread benign tumours and hamartomas are common in tuberous sclerosis.</p><h4>Radiographic features</h4><h5>Chest</h5><h6>Radiography</h6><ul>
~~-<li>small lung nodules representing <a href="/articles/multifocal-micronodular-pneumocyte-hyperplasia">multifocal micronodular pneumocyte hyperplasia (MMPH)</a> in TSC</li>~~
+<li>small lung nodules representing <a href="/articles/multifocal-micronodular-pneumocyte-hyperplasia">multifocal micronodular pneumocyte hyperplasia (MMPH)</a> in tuberous sclerosis</li>
~~-<a href="/articles/myocardial-fatty-foci">myocardial fatty foci</a> in TSC <sup>12</sup>~~
+<a href="/articles/myocardial-fatty-foci">myocardial fatty foci</a> in tuberous sclerosis <sup>12</sup>
-<li>single or multiple renal <a href="/articles/epithelioid-amls">epithelioid </a><a href="/articles/epithelioid-angiomyolipoma-of-kidney">AMLs</a> containing a mixture of fat and soft-tissue. >90% incidence in TSC cases which have larger and more numerous AMLs<sup>15 </sup>compared with about 30% incidence in s-LAM. </li>
+<li>single or multiple renal <a href="/articles/epithelioid-amls">epithelioid </a><a href="/articles/epithelioid-angiomyolipoma-of-kidney">AMLs</a> containing a mixture of fat and soft tissue. >90% incidence in TSC cases which have larger and more numerous AMLs<sup>15 </sup>compared with about 30% incidence in s-LAM. </li>
-</ul><h5>Skeletal</h5><ul><li>multiple osteoblastic bone lesions in TSC, similar in appearance to enostoses</li></ul><h4>Treatment and prognosis</h4><p>Median survival is about 30 years following diagnosis. There are few medications which have been shown to benefit patients with LAM, with mTOR inhibitors being one of the main treatment options. Sirolimus or everolimus limit LAM cell proliferation by inhibiting the activated mTOR pathway, thereby improving lung function, at least in the short-term, and often shrinking masses<sup>13</sup> and chylous effusions. Progression generally resumes on cessation.</p><p>About 20% respond to bronchodilators. Pneumococcus and influenza vaccines are advised. Osteoporosis may occur in immobile patients.</p><p>Other potential therapies, depending on the manifestations include:</p><ul>
+</ul><h5>Skeletal</h5><ul><li>multiple osteoblastic bone lesions in tuberous sclerosis, similar in appearance to enostoses</li></ul><h4>Treatment and prognosis</h4><p>Median survival is about 30 years following diagnosis. There are few medications that have been shown to benefit patients with LAM, with mTOR inhibitors being one of the main treatment options. Sirolimus or everolimus limit LAM cell proliferation by inhibiting the activated mTOR pathway, thereby improving lung function, at least in the short-term, and often shrinking masses<sup>13</sup> and chylous effusions. Progression generally resumes on cessation.</p><p>About 20% respond to bronchodilators. Pneumococcus and influenza vaccines are advised. Osteoporosis may occur in immobile patients.</p><p>Other potential therapies, depending on the manifestations include:</p><ul>
~~-<li>lung transplantation for respiratory failure. Recurrent LAM in transplanted lungs carries the original TSC mutation <sup>14</sup>~~
+<li>lung transplantation for respiratory failure. Recurrent LAM in transplanted lungs carries the original tuberous sclerosis mutation <sup>14</sup>
~~-<li>genetic counselling for TSC cases</li>~~
+<li>genetic counselling for tuberous sclerosis cases</li>
-<li>a smaller number of lower zone predominant perivascular cysts, some with internal soft-tissue may coexist with nodules, ground-glass opacity, tree-in bud opacities, lymphoma or amyloid deposits</li>
+<li>a smaller number of lower zone predominant perivascular cysts, some with internal soft-tissue may coexist with nodules, ground-glass opacity, tree-in-bud opacities, lymphoma or amyloid deposits</li>
~~-<a href="/articles/pulmonary-langerhans-cell-histiocystosis">pulmonary Langerhans cell histiocystosis</a><ul>~~
+<a href="/articles/pulmonary-langerhans-cell-histiocystosis">pulmonary Langerhans cell histiocytosis</a><ul>

References changed:

12. Abbott G, Rosado-de-Christenson M, Frazier A, Franks T, Pugatch R, Galvin J. From the Archives of the AFIP: Lymphangioleiomyomatosis: Radiologic-Pathologic Correlation. Radiographics. 2005;25(3):803-28. <a href="https://doi.org/10.1148/rg.253055006">doi:10.1148/rg.253055006</a> - <a href="https://www.ncbi.nlm.nih.gov/pubmed/15888627">Pubmed</a>
2. McCormack F, Gupta N, Finlay G et al. Official American Thoracic Society/Japanese Respiratory Society Clinical Practice Guidelines: Lymphangioleiomyomatosis Diagnosis and Management. Am J Respir Crit Care Med. 2016;194(6):748-61. <a href="https://doi.org/10.1164/rccm.201607-1384ST">doi:10.1164/rccm.201607-1384ST</a> - <a href="https://www.ncbi.nlm.nih.gov/pubmed/27628078">Pubmed</a>
13. Harknett E, Chang W, Byrnes S et al. Use of Variability in National and Regional Data to Estimate the Prevalence of Lymphangioleiomyomatosis. QJM. 2011;104(11):971-9. <a href="https://doi.org/10.1093/qjmed/hcr116">doi:10.1093/qjmed/hcr116</a> - <a href="https://www.ncbi.nlm.nih.gov/pubmed/21764810">Pubmed</a>
5. Mohammadieh A, Bowler S, Silverstone E, Glanville A, Yates D. Everolimus Treatment of Abdominal Lymphangioleiomyoma in Five Women with Sporadic Lymphangioleiomyomatosis. Med J Aust. 2013;199(2):121-3. <a href="https://doi.org/10.5694/mja12.11567">doi:10.5694/mja12.11567</a> - <a href="https://www.ncbi.nlm.nih.gov/pubmed/23879512">Pubmed</a>
7. Avila N, Bechtle J, Dwyer A, Ferrans V, Moss J. Lymphangioleiomyomatosis: CT of Diurnal Variation of Lymphangioleiomyomas. Radiology. 2001;221(2):415-21. <a href="https://doi.org/10.1148/radiol.2212001448">doi:10.1148/radiol.2212001448</a> - <a href="https://www.ncbi.nlm.nih.gov/pubmed/11687685">Pubmed</a>
8. Almoosa K, Ryu J, Mendez J et al. Management of Pneumothorax in Lymphangioleiomyomatosis. Chest. 2006;129(5):1274-81. <a href="https://doi.org/10.1378/chest.129.5.1274">doi:10.1378/chest.129.5.1274</a> - <a href="https://www.ncbi.nlm.nih.gov/pubmed/16685019">Pubmed</a>
10. Pham P, Pham P, Danovitch G et al. Sirolimus-Associated Pulmonary Toxicity. Transplantation. 2004;77(8):1215-20. <a href="https://doi.org/10.1097/01.tp.0000118413.92211.b6">doi:10.1097/01.tp.0000118413.92211.b6</a> - <a href="https://www.ncbi.nlm.nih.gov/pubmed/15114088">Pubmed</a>
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13. Mohammadieh A, Bowler S, Silverstone E, Glanville A, Yates D. Everolimus Treatment of Abdominal Lymphangioleiomyoma in Five Women with Sporadic Lymphangioleiomyomatosis. Medical Journal of Australia. 2013;199(2):121-3. <a href="https://doi.org/10.5694/mja12.11567">doi:10.5694/mja12.11567</a> - <a href="https://www.ncbi.nlm.nih.gov/pubmed/23879512">Pubmed</a>
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18. Pham P, Pham P, Danovitch G et al. Sirolimus-Associated Pulmonary Toxicity. Transplantation. 2004;77(8):1215-20. <a href="https://doi.org/10.1097/01.tp.0000118413.92211.b6">doi:10.1097/01.tp.0000118413.92211.b6</a>
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