Marloes P. Huitema scite author profile

Sarcoidosis-associated pulmonary hypertension (SAPH) is an important complication of advanced sarcoidosis. Over the past few years, there have been several studies dealing with screening, diagnosis and treatment of SAPH. This includes the results of two large SAPH-specific registries. A task force was established by the World Association of Sarcoidosis and Other Granulomatous disease (WASOG) to summarise the current level of knowledge in the area and provide guidance for the management of patients. A group of sarcoidosis and pulmonary hypertension experts participated in this task force. The committee developed a consensus regarding initial screening including who should undergo more specific testing with echocardiogram. Based on the results, the committee agreed upon who should undergo right-heart catheterisation and how to interpret the results. The committee felt there was no specific phenotype of a SAPH patient in whom pulmonary hypertension-specific therapy could be definitively recommended. They recommended that treatment decisions be made jointly with a sarcoidosis and pulmonary hypertension expert. The committee recognised that there were significant defects in the current knowledge regarding SAPH, but felt the statement would be useful in directing future studies.

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Echocardiographic pulmonary hypertension probability is associated with clinical outcomes after transcatheter aortic valve implantation

Nijenhuis

Huitema

Vorselaars

et al. 2016

International Journal of Cardiology

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Pulmonary hypertension complicating pulmonary sarcoidosis

et al. 2016

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Pulmonary hypertension (PH) is a severe complication of sarcoidosis, with an unknown prevalence. The aetiology is multifactorial, and the exact mechanism of PH in the individual patient is often difficult to establish. The diagnostic work-up and treatment of PH in sarcoidosis is complex, and should therefore be determined by a multidisciplinary expert team in a specialised centre. It is still a major challenge to identify sarcoidosis patients at risk for developing PH. There is no validated algorithm when to refer a patient suspected for PH, and PH analysis itself is difficult. Until present, there is no established therapy for PH in sarcoidosis. Besides optimal treatment for sarcoidosis, case series evaluating new therapeutic options involving PH-targeted therapy are arising for a subgroup of patients. This review summarises the current knowledge regarding the aetiology, diagnosis and possible treatment options for PH in sarcoidosis.

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Pulmonary artery diameter to predict pulmonary hypertension in pulmonary sarcoidosis

et al. 2015

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Pulmonary hypertension (PH) is a known complication of pulmonary sarcoidosis with a prevalence ranging from 5% to 74% [1]. The aetiology of PH in sarcoidosis is not fully understood. Usually, it is attributed to the destruction of the distal capillary bed by lung fibrosis and/or chronic hypoxaemia. However, the severity of PH does not correlate consistently with the degree of pulmonary fibrosis, and PH exists in sarcoidosis patients without fibrosis, suggesting a multifactorial mechanism. The presence of PH is associated with a poor prognosis, and early diagnosis and treatment might improve outcome [1]. Echocardiography should always be performed when PH is suspected [2]. However, the accuracy of echocardiography in patients with interstitial lung diseases is often limited due to poor image quality and unreliable tricuspid regurgitation signal to measure the right ventricular systolic pressure (RVSP) [3]. Further invasive investigation with the gold standard, right heart catheterisation (RHC), is often required. In order to optimise the noninvasive diagnostic approach, there is a need for more accurate predictors of PH. Computed tomography (CT) may raise suspicion of PH in symptomatic patients or those examined for unrelated indications by showing an increased pulmonary artery (PA) diameter (⩾29 mm) and PA diameter/ascending aorta diameter (AAD) ratio (⩾1.0) [2]. Similarly, PA diameter indexed to body surface area (BSA) has been suggested as possible predictor of PH. However, these parameters have never been investigated in pulmonary sarcoidosis specifically.In this study, PA diameter measurements on chest CT were retrospectively evaluated as predictors of PH. Patients suspected of PH and referred for analysis between November 2007 and May 2014 were included in cases with a consensus diagnosis of pulmonary sarcoidosis, aged ⩾18 years, with availability of chest CT within 1 year of PH analysis. The analysis protocol was based on the European PH guideline [2], and consisted of an ECG, laboratory testing, and echocardiographic assessment of RVSP and secondary parameters. Subsequently, patients were classified as "PH likely" (RVSP >50 mmHg), "PH possible" (RVSP of 36-50 mmHg or presence of secondary signs with normal/absent RVSP signal) or "PH unlikely" (RVSP <36 mmHg or absence of signal without secondary signs). RHC was performed if PH was possible or likely. PH was defined as an invasively measured mean PA pressure (mPAP) ⩾25 mmHg. Patients were divided into three groups: "PH confirmed by RHC", "no PH confirmed by RHC" and "no PH based on echocardiography".

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