What is hht
Last updated: April 1, 2026
Key Facts
- HHT is an autosomal dominant genetic disorder, meaning inheritance of just one mutated gene from either parent causes the disease; approximately 50% of children inherit it from affected parents
- The condition results from mutations in genes controlling blood vessel formation (primarily TLR1 or ENG genes), leading to fragile, abnormal vessels prone to rupture
- Common symptoms include recurrent nosebleeds (epistaxis), anemia from chronic blood loss, and red telangiectasia (small blood vessel clusters) visible on skin and mucous membranes
- HHT can cause life-threatening internal bleeding in organs including the lungs, brain, and gastrointestinal tract; screening is essential for early detection and management
- Treatment focuses on managing bleeding episodes and complications; genetic counseling and regular screening are recommended for family members of affected individuals
Overview
Hereditary hemorrhagic telangiectasia (HHT), also known as Osler-Weber-Rendu disease, is a rare genetic bleeding disorder affecting approximately 1 in 5,000 to 1 in 8,000 people worldwide. The condition causes abnormal formation of blood vessels, resulting in chronic bleeding, potentially life-threatening hemorrhages, and vascular malformations. Early diagnosis and management are critical for preventing serious complications.
Genetic Basis
HHT is inherited as an autosomal dominant condition, meaning only one mutated gene copy inherited from either parent causes the disease. Mutations typically occur in genes responsible for blood vessel formation, most commonly:
- ALK1 (TLR1) gene - accounts for approximately 60% of HHT cases
- ENG (endoglin) gene - accounts for approximately 40% of cases
- SMAD4 gene - causes a combined HHT and juvenile polyposis syndrome
These genes produce proteins essential for proper blood vessel wall structure. Mutations compromise vessel integrity, leading to characteristic symptoms and complications.
Symptoms and Clinical Features
HHT manifests through several characteristic features:
- Recurrent nosebleeds (epistaxis) - often the first symptom, occurring in 50-90% of patients, ranging from minor to severe
- Telangiectasia - small dilated blood vessel clusters appearing as red or purple spots on skin and lips, typically developing in adulthood
- Anemia - resulting from chronic blood loss through nosebleeds and gastrointestinal hemorrhage
- Fatigue and weakness - secondary to anemia and bleeding
Symptoms vary significantly between affected individuals, even within the same family.
Arteriovenous Malformations (AVMs)
Beyond superficial telangiectasia, HHT causes arteriovenous malformations (AVMs) - direct abnormal connections between arteries and veins - in internal organs. These are particularly dangerous in:
- Pulmonary AVMs - can cause stroke, brain abscess, and bleeding into lungs
- Cerebral AVMs - risk of hemorrhagic stroke and bleeding into the brain
- Hepatic AVMs - can cause heart failure and cirrhosis
- Gastrointestinal bleeding - chronic blood loss requiring transfusions
Diagnosis and Screening
Diagnosis typically combines clinical features with genetic testing. The Curaçao criteria help identify HHT based on:
- Family history of HHT
- Presence of telangiectasia
- Recurrent nosebleeds
- Documented AVMs
Patients should undergo screening for complications through chest imaging (for pulmonary AVMs), brain imaging (for cerebral AVMs), echocardiography, and gastrointestinal evaluation.
Management and Treatment
While no cure exists, management focuses on preventing bleeding and detecting complications early:
- Epistaxis management - topical treatments, cauterization, or tranexamic acid
- Antibiotic prophylaxis - for patients with pulmonary AVMs to prevent stroke
- Transfusions - when anemia becomes severe
- Surgical or radiologic intervention - for particularly dangerous AVMs
- Genetic counseling - for affected families
Related Questions
What is the life expectancy for someone with HHT?
With appropriate medical management and monitoring, many people with HHT have near-normal life expectancy. However, life expectancy varies depending on the severity of internal bleeding complications, particularly whether serious arteriovenous malformations develop. Regular screening and treatment of complications significantly improve outcomes.
Can HHT be cured?
Currently, there is no cure for hereditary hemorrhagic telangiectasia. Treatment focuses on managing symptoms, preventing complications, and screening for life-threatening bleeding. Research into gene therapy and targeted treatments is ongoing but not yet widely available.
Is HHT hereditary in all cases?
HHT is genetic and inherited in an autosomal dominant pattern, but approximately 20% of cases occur as new mutations without family history. Children of affected parents have a 50% chance of inheriting the disease. Genetic testing and counseling are important for family planning decisions.