WASOG statement on the diagnosis and management of sarcoidosis-associated pulmonary hypertension

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

Echocardiographic estimate of pulmonary artery pressure in sarcoidosis patients - real world data from a multi-national study

INTRODUCTION: Echocardiographic measurement of the right ventricular systolic pressure (RVSP) is commonly used for estimating systolic pulmonary artery pressure (PASP) measured during right heart catheterization (RHC) in patients suspected for pulmonary hypertension (PH). Generally, there seems to be a strong correlation. However, this has been reported as less robust in sarcoidosis. We aim to investigate the correlation between RVSP and RHC measurements using real world data and analyzed factors influencing the relationship between RVSP and PASP in sarcoidosis. METHODS & RESULTS: Data of patients with and without sarcoidosis associated PH who had both a measurable echocardiographic RVSP and invasive PASP were collected from the RESAPH registry, PULSAR study and Cincinnati Sarcoidosis Clinic database (n=173, 60.1% female, mean age 56.0±9.5 years). Among them, 124 had PH confirmed by RHC. There was a strong correlation between RVSP and PASP (r=0.640). This correlation was significant in both male and female, white or non-white, forced vital capacity (FVC) >60%, and presence of fibrosis (p 10mmHg. Inaccurate echocardiographic estimation of the invasive PASP occurred in 50.8%, with overestimation mostly in patients without PH, and underestimation in patients with severe PH. An RVSP>50mmHg was associated with worse survival. CONCLUSIONS: In this real world multicenter cohort of sarcoidosis patients, we found a significant correlation between RVSP as determined by echocardiography and invasive PASP. Over- or underestimation of PASP occurred frequently. Therefore, echocardiographic RVSP measurement alone to screen for PH in sarcoidosis should be used with caution

The six-minute walk test in sarcoidosis associated pulmonary hypertension: Results from an international registry

Introduction: Sarcoidosis associated pulmonary hypertension (SAPH) is a leading contributor to sarcoidosis-related mortality. The 6-min walk test (6MWT) is widely used in assessment of cardiorespiratory conditions. A reduced 6-min walk distance (6MWD) has been associated with increased mortality in SAPH. We examined patients from the Registry of Sarcoidosis Associated Pulmonary Hypertension (ReSAPH) who had performed 6MWT at enrollment to identify variables that affect 6MWD, and the prognostic value of 6MWT variables regarding death or lung transplantation. Material and methods: ReSAPH patients with available 6MWT were included. Variables analyzed using pre-defined cutoffs included 6MWD, initial and end of test Borg dyspnea score, oxygen saturation, and heart rate at beginning, end, and after 1-min recovery, absolute change in oxygen saturation, modified distance-saturation product (mDSP), and the heart rate recovery at 1-min (HRR). Findings: 174 patients met inclusion criteria; 48 patients died and 8 underwent lung transplantation. Patients with 6MWD300 m (p = 0.012). No associations with outcome were observed with mDSP cutoff 200 m%, desaturation≥5% and oxygen saturation<88% at end of 6MWT, or multiple HRR cutoffs (13,14,16). 6MWD correlated with initial Borg score, (p = 0.001), DLCO% (p = 0.0001) and sPAP (p = 0.031) on multivariate analysis. These variables were significant for both pre- and post-capillary PH subgroups. 6MWD also correlated with fatigue assessment scale (FAS) (p = 0.015). Conclusion: Of the parameters evaluated, 6MWD had the greatest prognostic value in SAPH which correlated with other physiologic and hemodynamic variables. 6MWT captures the multidimensional effects of sarcoidosis

Pulmonary hemodynamics and transplant‐free survival in sarcoidosis‐associated pulmonary hypertension: Results from an international registry

Abstract Pulmonary hypertension (PH) is a risk factor for mortality in patients with sarcoidosis. Severe PH in chronic lung disease has previously been defined as mean pulmonary arterial pressure (mPAP) ≥ 35 mmHg or mPAP 25 ≥ mmHg with cardiac index (CI) ≤ 2 L/min/m2. However, there is no clear definition denoting severity of sarcoidosis‐associated PH (SAPH). We aimed to determine pulmonary hemodynamic cut‐off values where transplant‐free survival was worse among patients with SAPH. This was a retrospective cohort analysis of the Registry of SAPH database focusing on pulmonary hemodynamic predictors of transplant‐free survival among patients with precapillary SAPH. Cox regression was performed to determine which pulmonary hemodynamic values predicted death or lung transplantation. Kaplan−Meier survival analysis was performed on statistically significant predictors to determine pulmonary hemodynamic cut‐off values where transplant‐free survival was decreased. Decreased transplant‐free survival occurred among SAPH patients with mPAP ≥ 40 mmHg and SAPH patients with pulmonary vascular resistance (PVR) ≥ 5 Woods units (WU). Transplant‐free survival was not decreased in patients who fulfilled prior criteria of severe PH in chronic lung disease. We identified new cut‐offs with decreased transplant‐free survival in the SAPH population. Neither cut‐off of mPAP ≥ 40 mmHg nor PVR ≥ 5 WU has previously been shown to be associated with decreased transplant‐free survival in SAPH. These values could suggest a new definition of severe SAPH. Our PVR findings are in line with the most recent European Society of Cardiology/European Respiratory Society guideline definition of severe PH in chronic lung disease