Summary
Background
Hereditary hemorrhagic telangiectasia (HHT) is a genetic disorder associated with abnormal angiogenesis and disabling epistaxis. Tranexamic acid (TA) has been widely used in the ...treatment of these severe bleeds but with no properly designed trial.
Objectives
To demonstrate the efficacy of TA in epistaxis in HHT patients and to explore its safety of use.
Patients/Methods
A randomized, placebo‐controlled, double‐blind, cross‐over trial was conducted. Participants were randomized to receive TA (3 g a day) then placebo or the opposite sequence. The main analysis compared intra‐individual mean duration of epistaxis under TA vs. placebo on a log scale. The primary outcome was the mean duration of epistaxis per month, assessed with specific grids to be completed by participants. The number of epistaxis episodes was recorded as a secondary outcome.
Results
A total of 118 randomized patients contributed to the statistical analysis. The mean duration of epistaxis per month was significantly shorter with TA than placebo (0.19 on the log scale; SD = 0.07; P = 0.005), corresponding to a decrease of 17.3% (15.7 min) in the duration of epistaxis per month (CI 95%, 5.5–27.6). The median number of epistaxis episodes per month was 22.1 episodes in the placebo arm vs. 23.3 episodes in the TA arm. No thrombophlebitis was observed.
Conclusions
In the ATERO study, we demonstrated a significant decrease in the duration of epistaxis in HHT patients taking TA. No safety issues were recorded in our cohort of patients.
Hereditary hemorrhagic telangiectasia (HHT) is an autosomal dominant vascular disorder characterized by severe and recurrent nosebleeds, mucocutaneous telangiectases, and, in some cases, ...life‐threatening visceral arteriovenous malformations of various types, including pulmonary, hepatic, cerebral, and spinal. Gastrointestinal telangiectases are frequent and may cause severe bleeding. HHT type 1 results from mutations in ENG on chromosome 9 (coding for endoglin), and HHT type 2 results from mutations in ACVRL1 on chromosome 12 (coding for activin receptor‐like kinase 1). Mutations of either of these two genes account for most clinical cases. In addition, mutations in MADH4 (encoding SMAD4), which cause a juvenile polyposis/HHT overlap syndrome, have been described, and recently, an HHT3 locus on chromosome 5 (5q31.3–5q32) has been reported. The mutated genes in HHT encode proteins that modulate transforming growth factor‐β superfamily signaling in vascular endothelial cells. Management of patients has changed considerably in the last 20 years, in terms of both treatment and the prevention of complications. The goal of this review was to describe the underlying molecular and cellular physiopathology, explore clinical and genetic diagnostic strategies for HHT, and present clinical management recommendations in order to treat symptomatic disease and to screen for vascular malformations.
Faivre L, Collod‐Beroud G, Adès L, Arbustini E, Child A, Callewaert BL, Loeys B, Binquet C, Gautier E, Mayer K, Arslan‐Kirchner M, Grasso M, Beroud C, Hamroun D, Bonithon‐Kopp C, Plauchu H, Robinson ...PN, De Backer J, Coucke P, Francke U, Bouchot O, Wolf JE, Stheneur C, Hanna N, Detaint D, De Paepe A, Boileau C, Jondeau G. The new Ghent criteria for Marfan syndrome: what do they change?
The diagnosis of Marfan syndrome (MFS) is challenging and international criteria have been proposed. The 1996 Ghent criteria were adopted worldwide, but new diagnostic criteria for MFS were released in 2010, giving more weight to aortic root aneurysm and ectopia lentis. We aimed to compare the diagnosis reached by applying this new nosology vs the Ghent nosology in a well‐known series of 1009 probands defined by the presence of an FBN1 mutation. A total of 842 patients could be classified as MFS according to the new nosology (83%) as compared to 894 (89%) according to the 1996 Ghent criteria. The remaining 17% would be classified as ectopia lentis syndrome (ELS), mitral valve prolapse syndrome or mitral valve, aorta, skeleton and skin (MASS) syndrome, or potential MFS in patients aged less than 20 years. Taking into account the median age at last follow‐up (29 years), the possibility has to be considered that these patients would go on to develop classic MFS with time. Although the number of patients for a given diagnosis differed only slightly, the new nosology led to a different diagnosis in 15% of cases. Indeed, 10% of MFS patients were reclassified as ELS or MASS in the absence of aortic dilatation; conversely, 5% were reclassified as MFS in the presence of aortic dilatation. The nosology is easier to apply because the systemic score is helpful to reach the diagnosis of MFS only in a minority of patients. Diagnostic criteria should be a flexible and dynamic tool so that reclassification of patients with alternative diagnosis is possible, requiring regular clinical and aortic follow‐up.
The aim of this study was to evaluate psychosocial quality of life (PQoL) in patients with Hereditary Haemorrhagic Telangiectasia (HHT).
A retrospective study was performed on PQoL in HHT patients ...presenting with epistaxis. One hundred fifteen patients were interviewed using a questionnaire designed by two sociologists and a head and neck surgeon. Changes over time were assessed according to information on psychosocial well-being, social life, family support, occupation, and medical and demographic data regarding age, gender and patient appearance.
Analysis of Psychosocial Quality of Life (PQoL) revealed no statistical difference in relation to gender, marital status, household income or place of residence (rural or urban); however, a significant difference was observed with age. Elderly patients had a poorer PQoL than younger patients. Workers had a better PQoL than unemployed patients. Epistaxis and professional duties were correlated: workers with less than one episode of epistaxis per month were more active. Frequent episodes of epistaxis and abundant bleeding decreased PQoL. These patients felt different and often experienced a desire to withdraw compared to others.
Epistaxis in hereditary haemorrhagic telangiectasia patients was associated with the impairment of many PQoL criteria, together with relationship modifications.
The diagnosis of Marfan syndrome (MFS) is usually initially based on clinical criteria according to the number of major and minor systems affected following international nosology. The number of FBN1 ...mutation carriers, at risk of aortic complications who would not be properly diagnosed based only on clinical grounds, is of growing importance owing to the increased availability of molecular screening. The aim of the study was to identify patients who should be considered for FBN1 mutation screening.
Our international series included 1009 probands with a known FBN1 mutation. Patients were classified as either fulfilling or not fulfilling "clinical" criteria. In patients with unfulfilled "clinical" criteria, we evaluated the percentage of additional patients who became positive for international criteria when the FBN1 mutation was considered. The aortic risk was evaluated and compared in patients fulfilling or not fulfilling the "clinical" international criteria.
Diagnosis of MFS was possible on clinical grounds in 79% of the adults, whereas 90% fulfilled the international criteria when including the FBN1 mutation. Corresponding figures for children were 56% and 85%, respectively. Aortic dilatation occurred later in adults with unfulfilled "clinical criteria" when compared to the Marfan syndrome group (44% vs 73% at 40 years, p<0.001), but the lifelong risk for ascending aortic dissection or surgery was not significantly different in both groups.
Because of its implications for aortic follow-up, FBN1 molecular analysis is recommended in newly suspected MFS when two systems are involved with at least one major system affected. This is of utmost importance in patients without aortic dilatation and in children.
Among 353 patients with hereditary hemorrhagic telangiectasia retrospectively analyzed during the period 1985-2005, we identified 67 cases of severe infection that affected 48 patients (13.6%). ...Extracerebral infections accounted for 67% of all infections, and most involved Staphylococcus aureus and were associated with prolonged epistaxis. Cerebral infections accounted for 33% of all infections, were mainly due to multiple and anaerobic bacteria, and were associated with the presence of pulmonary arteriovenous malformations and a short duration of epistaxis.
A high proportion of all cases of congenital deafness is causedby mutations in a gene coding for a gap-junction protein,connexin 26. The deafness associated with this gene, Cx26, is the autosomal ...recessive form, DFNB1(refs ref. 1-3); its involvement in autosomal dominant forms of deafness has remained controversial. Here we show that a mutation in Cx26 underlies the dominant form of deafness, DFNA3.
Hereditary haemorrhagic telangiectasia (HHT) is a genetic vascular disorder characterised by epistaxis, telangiectases, and visceral manifestations. The two known disease types, HHT1 and HHT2, are ...caused by mutations in the endoglin (ENG) and ALK-1 genes, respectively. A higher frequency of pulmonary arteriovenous malformations (AVMs) has been reported for HHT1 while HHT2 is thought to be associated with a lower penetrance and milder disease manifestations. In this study, we present 10 families with an ALK-1 genotype. Visceral manifestations were detected in 24 (26%) of the 93 HHT2 patients from nine of the families and included gastrointestinal bleeding (14%), intrahepatic shunts (6%), and AVMs in the lung (4%) and brain (3%). Gastrointestinal bleeding, the most frequent visceral manifestation, was reported in six of the 10 families, mostly in patients over the age of 50. These patients also had frequent epistaxis and suffered from anaemia, often requiring blood transfusions. The identification of ALK-1 mutations in subjects with a suspected diagnosis and without clinical signs of HHT argue in favour of a molecular diagnosis. We also analysed the data published on 44 families with HHT2 and conclude that visceral manifestations occur in 26 of these families and affect 30% of HHT2 patients. This is considered an underestimate given incomplete and variable screening for lung, brain, and/or liver involvement in different clinical centres. These findings, however, stress the need for an early diagnosis of HHT that can be useful for the early control of associated visceral involvement.
The aim of this prospective study was to evaluate the consequences of the disclosure of a positive genetic test result to patients affected with cancer. Personal repercussions and patients' behavior ...with the transmission of their results to relatives were considered. We conducted semistructured interviews with 23 cancer patients identified as carriers of a cancer-predisposing mutation for hereditary breast ovarian or nonpolyposis colorectal cancers, 1 month after the disclosure of the test result. Eight patients spontaneously expressed distressed reactions ("you no longer feel cured"), and 14 patients reported at least one negative feeling (dissatisfied, discouraged, unhappy, or worried), despite expecting to be a carrier. Sixteen patients expressed concerns about the risk of developing another cancer, and 18 were concerned for their children's future, in that they may carry the mutation and develop a cancer. Although 8 patients found that disadvantages of knowing their genetic status outweighed the advantages, all but 1 did not regret having undergone genetic testing. All of the patients transmitted their results to at least one close relative. Although 6 of them expressed difficulties in being the only person who could transmit the information and 9 said it was a heavy responsibility, all except 1 did not want someone else to have to inform their families. Our results illustrate the potential negative impact of diagnostic genetic testing in patients with cancer. This includes distressed reactions and difficulties in transmitting their results to relatives. Future large-scale studies are warranted to confirm our findings.