Breathing For Life :: Information :: Health :: Pulmonary Arterial Hypertension - View Topic
| Ian
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pm | | Pulmonary Arterial Hypertension (5th May 12 at 6:58pm UTC) | | Pulmonary Arterial Hypertension James Kiley, Ph.D., Elizabeth Denholm, Ph.D.
http://www.nhlbi.nih.gov/health/public/lung/update/pah_update.htm
When someone says high blood pressure (hypertension), most people think of heart disease. However, a specific type of hypertension, called pulmonary arterial hypertension or PAH, affects the arteries in your lungs, but does not affect the arteries in the rest of the body.
The pulmonary arteries carry blood from the right ventricle of the heart into the lungs, where the blood picks up oxygen for delivery to the rest of the body. In normal lungs, the pulmonary arteries are flexible and look like a tree with many delicate branches. In PAH, the walls of the pulmonary arteries become thickened and constricted, resulting in an inadequate amount of oxygen delivered to the blood and much higher pressure in the pulmonary arteries than normal. As PAH progresses, many of the vessels become obstructed and resistance to blood flow through the lungs is increased, causing the right heart to work much harder. As a result of advanced PAH, right heart failure and death often occur.
There are two types of PAH: 1) the relatively rare, primary or idiopathic, which includes PAH of unknown cause that can be either sporadic or familial (inherited), and 2) the more common, secondary PAH found in association with other chronic lung and heart diseases. Primary PAH most commonly affects young women, but it can affect both genders regardless of age or race.
The symptoms of PAH include fatigue, dizziness, fainting, chest pains and difficulty in breathing. These symptoms are nonspecific and are a reason PAH is often undiagnosed or misdiagnosed. The most definitive diagnostic test is right heart catheterization. Treatment options for PAH have improved over the past several years and basic research is leading to better therapies.
The NHLBI supports a portfolio of nearly 80 research projects on PAH. This includes basic cell and molecular biology of PAH; identification of the gene(s) and gene mutations that predispose a person to develop PAH; and multi-disciplinary projects combining basic and patient-based research. Clinical research currently includes five clinical studies supported through investigator-initiated grants, and two clinical studies being conducted by the Division of Intramural Research. These clinical studies include trials of new therapies and diagnostic methods, as well as studies that examine the underlying mechanisms of PAH, secondary to scleroderma or sickle cell anemia, and pulmonary hypertension that occurs in newborn babies. | |
| Linus
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pm | | Re: Pulmonary Arterial Hypertension (7th Sep 13 at 5:59pm UTC) | | Treatment of pulmonary hypertension in interstitial lung disease: do not throw out the baby with the bath water
http://erj.ersjournals.com/content/41/4/781#
Vincent Cottin, Hôpital Louis Pradel, 69677 Lyon Cedex, France. E-mail: vincent.cottin@chu-lyon.fr
Pulmonary hypertension (PH), group III of the international aetiological classification [1], is a frequent and severe complication of interstitial lung diseases (ILDs), especially idiopathic pulmonary fibrosis (IPF), the syndrome of combined pulmonary fibrosis and emphysema, ILD associated with connective tissue disease, sarcoidosis, pulmonary Langerhans cell histiocytosis and, rarely, other ILDs [2–6]. Although its prevalence varies widely between these conditions, PH, when present, dramatically impacts morbidity and survival.
Despite recent progress with pirfenidone and nintedanib, which reduce the rate of decline in lung function in patients with mild-to-moderate disease [7, 8], management of IPF remains largely supportive, with a relentless progression to respiratory failure and death after a median of only 3 years from the time of diagnosis. Precapillary PH is common in advanced IPF, with a prevalence of 32–46% [9–12] at right heart catheterisation (RHC) at the time of evaluation for lung transplantation. The haemodynamic severity of PH in this context is usually mild, although 2–10% of patients have severe PH with a mean pulmonary artery pressure (mPAP) greater than 35–40 mmHg [9, 10]. PH is associated with increased dyspnoea, decreased exercise capacity as measured by the 6-min walk distance (6MWD) and the peak oxygen uptake at cardiopulmonary exercise testing [9, 13, 14], lower diffusing capacity of the lung for carbon monoxide (DLCO), greater oxygen requirements and reduced survival [2, 9]. In one study, the 1-year mortality of patients with IPF and associated PH at RHC was 28% versus only 5.5% in those without PH [9]. In subjects with moderate functional impairment, the prevalence of PH is lower and varies depending upon the procedures used.
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