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Hereditary hemorrhagic telangiectasia

In medicine, hereditary hemorrhagic telangiectasia (HHT), also known as Rendu-Osler-Weber syndrome, is a genetic disorder that leads to vascular malformations. more...

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Signs and symptoms

HHT is characterised by telangiectasia (small vascular malformations) on the skin and mucosal linings, epistaxis (nosebleeds), and arteriovenous malformations (AVMs) in various internal organs.

Skin and mucosa telangiectasias are most remarkable on the tongue, hands/fingers, nose, lips, mouth/throat and conjunctiva.

The internal organs that can harbor AVMs often include the brain and lungs. In both, bleeding can seriously endanger life.

Diagnosis

There are four diagnostic criteria. If three or four are met, a patient has definite HHT, while two gives a possible diagnosis:

  1. Spontaneous recidivating epistaxis
  2. Multiple teleangiectasias on typical locations (see above)
  3. Proven visceral AVM
  4. First-degree family member with HHT

When HHT is suspected, physical examination focuses on inspecting the whole skin for teleangiectasias, auscultation of the lungs and neurological examination.

Pulmonary AVMs can be anticipated by measuring oxygen levels and performing arterial blood gas (ABG) sampling. An X-ray of the chest can show susceptible lesions; in addition, low oxygen tension (<96% or a 2% decrease upon standing) or low blood oxygen levels on ABG are required for a diagnosis.

Genetics

HHT is a genetic disorder by definition. It is inherited in an autosomal dominant manner.

Four forms have been described:

  • HHT1: mutation of the endoglin gene (ninth chromosome). Endoglin is a receptor of TGFβ1 (transforming growth factor beta 1) and TGFβ3. It also interacts with zyxin and ZRP-1 with its intracellular domain, to control composition of focal adhesions and regulate organization of actin filaments. This form predisposes for pulmonary AVMs and early nosebleeds.
  • HHT2: mutation in the alk1 gene (12th chromosome). Alk-1 (activin receptor-like kinase 1) is a TGFβ1 receptor. Less pulmonary AVMs and later nosebleeds, but an increased risk of pulmonary hypertension (supposedly due to altered TGFβ signalling or other related pathways which may lead to vascular malformations).
  • HHT3: a third form has been suspected to exist, but has not yet been linked to a defective gene.
  • Juvenile polyposis/hereditary hemorrhagic telangiectasia syndrome is caused by mutations in the gene SMAD4

It is possible to test patients for the presence of mutations in endoglin, ALK-1 and SMAD4. When the mutation in an affected family member has been found it is possible to test other family members and identify those people not at risk for developing the disease.

Pathophysiology

The mechanism underlying the formation of vascular malformations is not completely understood, but signalling of transforming growth factor-β1 is most likely to be involved. Possibly, connective tissue is required to support and guide proliferating blood vessels during angiogenesis, and defects in TGF-β signalling adversely affect connective tissue and matrix production.

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Pulmonary Arteriovenous Malformations Are Frequent In Hereditary Hemorrhagic Telangiectasia - Abstract
From CHEST, 10/1/99 by Marie E Faughnan

Purpose: To determine the prevalence of pulmonary arteriovenous malformations (PAVMs) in Hereditary Hemorrhagic Telangiectasia (HHT) through a systematic screening program. To compare the various screening modalities for PAVMs.

Methods: All adults seen at the Toronto HHT Centre were screened for PAVMs. Screening methods included: history, physical examination, resting oximetry, diffusing capacity, chest radiograph, arterial blood gas on room air, oxygen shunt test and contrast echocardiography. Patients who had an abnormal screening test were recommended to undergo diagnostic imaging, including a CT scan of the chest and a pulmonary angiogram.

Results: 172 patients were screened, of whom 66% were female. The mean age was 41 years (range 15 to 87 years). Eighteen patients had previously been treated for PAVMs. Either chest radiograph, shunt test or contrast echocardiography was positive in 78/172 (45%). Diagnostic testing has been performed in 59/78 (76%). Patent PAVMs were diagnosed in 43/59 (73%). The minimum prevalence of PAVMs in our population of HHT patients is therefore 50/172 (29%). No additional cases were detected by history, physical examination, resting oximetry or diffusing capacity. In those with PAVMs, only 28/49 (57%) had exercise intolerance. Sensitivity and specificity of the oxygen shunt test were determined using local results and an ROC curve. Comparatively, contrast echocardiography was the most sensitive tool for diagnosing PAVMs.

Conclusion: PAVMs are frequent in people with HHT. Contrast echocardiography is a sensitive screening tool.

Clinical Implications: PAVMs, which are known to cause serious complications, are frequent in HHT. Patients with HHTshould therefore be screened for PAVMs. A sensitive screening program should include contrast echocardiography and a chest radiograph.

Supported by: Medical Research Council of Canada / Canadian Thoracic Society Fellowship (for Dr. M.E. Faughnan) and generous support of Nelson Arthur Hyland Foundation.

Marie E Faughnan, MD(*); J L Mandzia, BSc; K Nanthakumar, MD; R A Pugash, MD; J c Clark, MD; A T Graham, MD; D A Redelmeier, MD and R H Hyland, MD. Medicine, St Michael's Hospital, University of Toronto, Toronto, Ontario, Canada; Radiology and Diagnostic Imaging, St Michael's Hospital, University of Toronto, Toronto, Ontario, Canada and Medicine, Sunnybrook and Women's College HSC, Toronto, Ontario, Canada.

COPYRIGHT 1999 American College of Chest Physicians
COPYRIGHT 2000 Gale Group

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