Franklin J. Miller scite author profile

Hereditary hemorrhagic telangiectasia (HHT) is a genetically heterogeneous vascular dysplasia with multiple telangiectases and arteriovenous malformations and it is caused by mutations in endoglin gene (ENG) (HHT1) and activin A receptor type II-like 1 gene (ACVRL1) (HHT2). We evaluated 111 patients with HHT from 34 families by history, examination, screening for vascular malformations, and sequencing of both genes. We found mutations in 26 of the 34 kindreds (76%) analyzed-54% were in ENG and 46% were in ACVRL1. Mutations in ACVRL1 cluster largely in exons 7 and 8, but ENG mutations were widely distributed within that gene. We found that epistaxis had an earlier onset in patients with HHT1 than those with HHT2, but the severity by middle ages was similar. Pulmonary arteriovenous malformations were more frequent and on the average of larger size in HHT1. Hepatic vascular malformations were more common in patients with HHT2. Cerebral arteriovenous malformations were more common in patients with HHT1, but spinal arteriovenous malformations were seen only in patients with HHT2. Truncating mutations in ENG were associated with more affected organs and more severe hemorrhaging than were missense mutations. We conclude that HHT2 has a later onset than HHT1 and the former may disproportionately involve smaller vessels in tissues with more significant vascular remodeling.

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Liver involvement in hereditary hemorrhagic telangiectasia: consensus recommendations

Buscarini

Plauchu²,

Tsao

et al. 2006

Liver International

146

165

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Study Purpose: To formulate recommendations about clinical management of liver involvement in hereditary hemorrhagic telangiectasia (HHT), using a formal consensus development process. Consensus Process: A nominal group technique was used. A list of main clinical, diagnostic and therapeutic issues about liver involvement in HHT was generated by the organizing committee. Panel members then scored their agreement with each statement; the median score, and standard deviation for each statement were determined for each of the three successive panel rounds. These consensus statements formed the basis for recommendations graded with the strength and quality of supporting evidence. Recommendation Statements: Doppler US is sufficiently accurate and suitable for first-line imaging of the liver in the general HHT population. Liver biopsy in any patient with proven or suspected HHT should be avoided. Liver involvement in HHT is generally asymptomatic; in the minority of patients where it is symptomatic, morbidity and mortality can be substantial. The prevalence of focal nodular hyperplasia is much higher in patients with liver involvement by HHT than in the general population. Invasive therapies for liver involvement by HHT (namely liver transplantation) should be considered only in patients who have failed to respond to intensive medical therapy.

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A fourth locus for hereditary hemorrhagic telangiectasia maps to chromosome 7

Bayrak-Toydemir

McDonald

Akarsu

et al. 2006

American J of Med Genetics Pt A

215

130

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Hereditary hemorrhagic telangiectasia (HHT) is a genetically and clinically heterogeneous multisystem vascular dysplasia. Mutations of the endoglin and ACVRL1 genes are known to cause HHT. However, existence of HHT families in which linkage to these genes has been excluded has suggested that other gene(s) can cause HHT in some families. Recently, a family was reported to be linked to chromosome 5q, the HHT3 locus. Here we report on linkage results on a family with classic features of HHT, albeit a less severe phenotype with regards to epistaxis and telangiectases, in which linkage to HHT1, HHT2, and HHT3 is ruled out. Whole genome linkage analysis and fine mapping results suggested a 7 Mb region on the short arm of chromosome 7 (7p14) between STR markers D7S2252 and D7S510. We obtained a maximum two point LOD score of 3.60 with the STR marker D7S817. This region was further confirmed by haplotype analysis. These findings suggest the presence of another gene causing HHT (HHT4). The features in this family that strongly suggest the presence of a hereditary, multisystem vascular dysplasia would be easily missed during the typical evaluation and management of a patient with an AVM. This family helps emphasize the need to obtain a very detailed, targeted medical and family history for even mild, infrequent but recurring nosebleed, subtle telangiectases. Further studies of the candidate region and the identification of the gene responsible for the vascular anomalies in this family will add to our understanding of vascular morphogenesis and related disorders.

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Symptomatic lower extremity deep venous thrombosis: accuracy, limitations, and role of color duplex flow imaging in diagnosis.

Rose

Zwiebel²,

Nelson³

et al. 1990

Radiology

248

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Color duplex flow imaging (CDFI) permits pain- and risk-free direct imaging of the deep venous system of the lower extremities. To prospectively ascertain the accuracy and limitations of this technique, CDFI was performed in 75 lower limbs of 69 consecutive patients referred for venographic evaluation of clinically suspected lower extremity deep venous thrombosis (DVT). The CDFI study was obtained within 24 hours of the contrast venogram. Both studies were interpreted without knowledge of the patient's clinical findings or the results of the other test. Contrast venography was regarded as the standard for diagnosis of DVT. Accuracy was 99% for detection of DVT above the knee and 81% below the knee. Sonographic evaluation of the calf veins was technically adequate in 60% of limbs; accuracy was 98% in this group. In the 40% of limbs with technically limited CDFI studies of the calf, accuracy decreased to 57%. Although small nonocclusive thrombi occurred infrequently in this series of symptomatic patients, CDFI missed three of four such thrombi. It is concluded that CDFI, when not technically compromised, is sufficiently accurate to definitively diagnose symptomatic lower extremity DVT.

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Intracranial Hemorrhage in Infants and Children With Hereditary Hemorrhagic Telangiectasia (Osler-Weber-Rendu Syndrome)

Morgan¹,

McDonald²,

Anderson³

et al. 2002

PEDIATRICS

120

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Clinical manifestations in a large hereditary hemorrhagic telangiectasia (HHT) type 2 kindred

et al. 2000

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HHT type 2 (HHT 2) is a multi-system vascular dysplasia caused by a mutation in the ALK-1 gene, but the phenotype has not been well defined. We report on 51 members of an HHT 2 kindred with an ALK-1 gene mutation shown to be associated with the disorder. This ALK-1 mutation was detected in 38 kindred members who were evaluated systematically for associated vascular abnormalities. Pulmonary arteriovenous malformations (AVMs) were found in 6% of those screened, cerebral AVM in 7%, hepatic AVM in 17%, and spinal AVM in 3%. We discuss these and other findings in the 38 affected kindred members, as well as findings in the 13 kindred members in whom the mutation was not detected. This study shows that pulmonary, cerebral, spinal, and hepatic AVMs can all occur in HHT 2. It also adds to the evidence suggesting that pulmonary AVMs are more common in HHT 1 than in HHT 2. We identify a higher prevalence of hepatic AVMs than previously reported in either HHT 1 or 2. This may be specific to the mutation in this kindred, but probably reflects the lack of routine screening for this manifestation. Even in this family in which all affected individuals have the same mutation, the clinical manifestations of HHT and their severity varied tremendously. Intrafamilial variation in expression of HHT is clearly significant, emphasizing the difficulty in establishing the diagnosis in individuals and in sub-typing families when DNA testing is not available.

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Clinical Outcomes of Patients after a Negative Spiral CT Pulmonary Arteriogram in the Evaluation of Acute Pulmonary Embolism

Lomis

Yoon²,

Moran³

et al. 1999

Journal of Vascular and Interventional Radiology

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Hepatic Actinomycotic Abscesses: Diagnosis and Management

Wong

Kinney

Miller

et al. 2006

American Journal of Roentgenology

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