Sarcoidosis-associated pulmonary hypertension and lung transplantation for sarcoidosis

Sarcoidosis-Associated Pulmonary Hypertension

Sarcoidosis-associated pulmonary hypertension (SAPH) is a very severe complication of the disease, largely impacting its morbidity and being one of its strongest predictors of mortality. With the recent modifications of the hemodynamic definition of pulmonary hypertension (mean arterial pulmonary pressure >20 instead of <25 mmHg,) its prevalence is presently not precisely known, but it affects from 3 to 20% of sarcoid patients; mostly, although not exclusively, those with an advanced, fibrotic pulmonary disease. Its gold-standard diagnostic tool remains right heart catheterization (RHC). The decision to perform it relies on an expert decision after a non-invasive work-up, in which echocardiography remains the screening tool of choice. The mechanisms underlying SAPH, very often entangled, are crucial to define, as appropriate and personalized therapeutic strategies will aim at targeting the most significant ones. There are no recommendations so far as to the indications and modalities of the medical treatment of SAPH, which is based upon the opinion of a multidisciplinary team of sarcoidosis, pulmonary hypertension and sometimes lung transplant experts.

Wireless pulmonary artery sensor implantation in a unilateral lung transplant recipient

Patients with lung transplantation can have concomitant left ventricular failure which can either precede the lung transplantation or develop after. Implantable wireless pulmonary artery (PA) pressure monitors to guide hemodynamic management in heart failure such as the CardioMEMS device (Abbott, Sylmar, CA, USA) have been shown to improve outcomes. However, in a lung transplant recipient there are unique physiological and practical considerations when contemplating to implant a PA pressure sensor such as safety of implanting the device, choice of site of implantation, accuracy of wedge tracings to calibrate, and exclusion of vascular stenoses post transplantation. We discuss these considerations in the context of a man in his early 60s with a known left lung transplant two years previously who developed worsening heart failure needing invasive monitoring. Right lung PA sensor placement was considered, but on selective pulmonary angiography the right PA was found to be of small caliber and with significant tortuosity. After careful hemodynamic assessment, the PA sensor was implanted in the PA of the transplanted lung which is the first such case to our knowledge.

Learning objective

We report the first documented case of an implantable wireless pulmonary artery pressure monitor (CardioMEMs) into a transplanted lung. Device-related complications, such as pulmonary artery injury, infection, and hemoptysis, must be assessed after placement. Given the changes in pulmonary artery pressures after lung transplantation, recalibration of the CardioMEMs device may need to be considered if placed within first year of transplant.

Sarcoidosis-associated pulmonary fibrosis: joining the dots

Sarcoidosis is a multisystem granulomatous disorder of unknown aetiology. A minority of patients with sarcoidosis develop sarcoidosis-associated pulmonary fibrosis (SAPF), which may become progressive. Genetic profiles differ between patients with progressive and self-limiting disease. The mechanisms of fibrosis in SAPF are not fully understood, but SAPF is likely a distinct clinicopathological entity, rather than a continuum of acute inflammatory sarcoidosis. Risk factors for the development of SAPF have been identified; however, at present, it is not possible to make a robust prediction of risk for an individual patient. The bulk of fibrotic abnormalities in SAPF are located in the upper and middle zones of the lungs. A greater extent of SAPF on imaging is associated with a worse prognosis. Patients with SAPF are typically treated with corticosteroids, second-line agents such as methotrexate or azathioprine, or third-line agents such as tumour necrosis factor inhibitors. The antifibrotic drug nintedanib is an approved treatment for slowing the decline in lung function in patients with progressive fibrosing interstitial lung diseases, but more evidence is needed to assess its efficacy in SAPF. The management of patients with SAPF should include the identification and treatment of complications such as bronchiectasis and pulmonary hypertension. Further research is needed into the mechanisms underlying SAPF and biomarkers that predict its clinical course.

Hot spot imaging in cardiovascular diseases: an information statement from SNMMI, ASNC, and EANM

This information statement from the Society of Nuclear Medicine and Molecular Imaging, American Society of Nuclear Cardiology, and European Association of Nuclear Medicine describes the performance, interpretation, and reporting of hot spot imaging in nuclear cardiology. The field of nuclear cardiology has historically focused on cold spot imaging for the interpretation of myocardial ischemia and infarction. Hot spot imaging has been an important part of nuclear medicine, particularly for oncology or infection indications, and the use of hot spot imaging in nuclear cardiology continues to expand. This document focuses on image acquisition and processing, methods of quantification, indications, protocols, and reporting of hot spot imaging. Indications discussed include myocardial viability, myocardial inflammation, device or valve infection, large vessel vasculitis, valve calcification and vulnerable plaques, and cardiac amyloidosis. This document contextualizes the foundations of image quantification and highlights reporting in each indication for the cardiac nuclear imager.

Healthcare resource utilization and quality of life in patients with sarcoidosis-associated pulmonary hypertension

A retrospective, observational cohort study was conducted to generate real-world evidence in adult patients diagnosed with sarcoidosis-associated pulmonary hypertension (SAPH) at a referral center in England between 2012 and 2019. Data from the referral center electronic medical record database were linked to the National Health Service Hospital Episode Statistics database to collect and analyze patient demographics, clinical characteristics, comorbidities, treatment patterns, health-related quality of life (HRQoL; assessed using the EmPHasis-10 questionnaire), healthcare resource utilization (HCRU), costs, and survival. Sixty-two patients with SAPH were identified. At diagnosis, 84% were in WHO functional class III and presented with significant pulmonary hemodynamic impairment. Cardiovascular and respiratory comorbidities were commonly reported prediagnosis. Median EmPHasis-10 score at diagnosis was 34, indicative of poor HRQoL. In the 1st year after diagnosis, median (Q1, Q3) per-patient HCRU was 1 (0, 2) all-cause inpatient hospitalizations; 3 (2, 4) same-day hospitalizations; and 9 (6, 11) outpatient consultations. In 24 patients who were hospitalized longer than 1 day in the 1st year after diagnosis, the median duration of hospitalization was 4 days. With a median follow-up of 1.8 years, the median overall survival was 2.9 years. In this cohort of patients with SAPH, poor HRQoL and high HCRU were observed following diagnosis. To our knowledge, this is the first study to report on HRQoL and HCRU in patients with SAPH. More research is needed on treatment options for this population with high unmet needs.

[Sarcoidosis]

Sarcoidosis is a granulomatous systemic disease of unknown etiology most commonly affecting the lungs and thoracic lymph nodes. The diagnosis is based on typical clinical radiologic appearance and histology with evidence of noncaseating epithelioid cell granulomas without central necrosis. In the acute form, Löfgren's syndrome, histologic confirmation may not be necessary. Approximately half of patients may develop a chronic form, and extrathoracic organ involvement should be investigated during the course. Indications for therapy are based on functional limitations, marked organ-related or systemic symptoms, and life-threatening organ manifestations (cardiac, central nervous system, renal, and ocular sarcoidosis). To date, there is no approved drug therapy for sarcoidosis. Administration of immunosuppressants such as glucocorticosteroids and as add-on or sequential, methotrexate, azathioprine or mycophenolate mofetil is recommended in the currently published international guideline.

An update on sarcoidosis-associated pulmonary hypertension

PURPOSE OF REVIEW

Pulmonary hypertension in sarcoidosis is a well known entity. Sarcoidosis-associated pulmonary hypertension (SAPH) incurs substantial morbidity and mortality. This review examines recent literatures published on epidemiology, prognosis and therapeutic management in SAPH.

RECENT FINDINGS

Several registries have been published between 2017 and 2020. The consensus conclusion - SAPH is a harbinger for poor prognosis. Several factors were noted for predicting adverse outcome in SAPH like reduced 6-min walk distance and diffusing capacity for carbon monoxide. Given its adverse outcome, experts have now focused on methods for early screening of SAPH in sarcoid patients. The exploration of pulmonary vasodilator drugs in SAPH is ongoing. In recent times, trials have been published utilizing Macitentan and parenteral prostacyclin in severe SAPH. Although these trials show encouraging results, the evidence from these studies are limited to approve these agents as preferred drugs for treating SAPH. A large multicentric trial of drugs used for pulmonary arterial hypertension with meaningful, yet feasible, event driven endpoint is still lacking. Lately, interventional treatment by pulmonary artery balloon pulmonary angioplasty and stenting has gained traction for treating pulmonary artery stenosis and chronic thromboembolic pulmonary hypertension. However, the conclusion is still based on small cohorts or case series.

SUMMARY

Several registries have highlighted SAPH portends an unfavorable consequence. On the contrary, no published guideline exists to treat SAPH. The precise role of immunosuppressive agents is unclear. The limited evidence favoring use of pulmonary vasodilators arise from small retrospective case series and/or single-center nonrandomized observational studies. Further multicenter randomized research is warranted to better define patient population to treat and how best to treat them.

Lung transplantation for sarcoidosis: outcome and prognostic factors

Study question

In patients with sarcoidosis, past and ongoing immunosuppressive regimens, recurrent disease in the transplant and extrapulmonary involvement may affect outcomes of lung transplantation. We asked whether sarcoidosis lung phenotypes can be differentiated and, if so, how they relate to outcomes in patients with pulmonary sarcoidosis treated by lung transplantation.

Patients and methods

We retrospectively reviewed data from 112 patients who met international diagnostic criteria for sarcoidosis and underwent lung or heart–lung transplantation between 2006 and 2019 at 16 European centres.

Results

Patient survival was the main outcome measure. At transplantation, median (interaquartile range (IQR)) age was 52 (46–59) years; 71 (64%) were male. Lung phenotypes were individualised as follows: 1) extended fibrosis only; 2) airflow obstruction; 3) severe pulmonary hypertension (sPH) and airflow obstruction; 4) sPH, airflow obstruction and fibrosis; 5) sPH and fibrosis; 6) airflow obstruction and fibrosis; 7) sPH; and 8) none of these criteria, in 17%, 16%, 17%, 14%, 11%, 9%, 5% and 11% of patients, respectively. Post-transplant survival rates after 1, 3, and 5 years were 86%, 76% and 69%, respectively. During follow-up (median (IQR) 46 (16–89) months), 31% of patients developed chronic lung allograft dysfunction. Age and extended lung fibrosis were associated with increased mortality. Pulmonary fibrosis predominating peripherally was associated with short-term complications.

Answer to the study question

Post-transplant survival in patients with pulmonary sarcoidosis was similar to that in patients with other indications for lung transplantation. The main factors associated with worse survival were older age and extensive pre-operative lung fibrosis.

Combination therapy with pulmonary arterial hypertension targeted drugs and immunosuppression can be a useful strategy for sarcoidosis-associated pulmonary hypertension: a case report

Background

Pulmonary hypertension (PH) is one of the significant complications of sarcoidosis. In the clinical classification of PH proposed in the recent world symposium of PH 2018, sarcoidosis-associated PH is classified in Group 5. The mechanisms of sarcoidosis-associated PH are very heterogeneous. There is no evidence of effective treatment for this condition.

Case summary

We report a case of a 46-year-old female who developed severe pulmonary hypertension due to sarcoidosis. Her haemodynamics, exercise capacity, and functional class remarkably improved after the treatment with pulmonary arterial hypertension (PAH) targeted drugs including macitentan and tadalafil and secondary immunosuppressive therapy with corticosteroids.

Discussion

This case emphasizes the importance of considering the underlying mechanisms of sarcoidosis-associated PH in order to choose appropriate treatment.

Safety and efficacy of abatacept in patients with treatment-resistant SARCoidosis (ABASARC) - protocol for a multi-center, single-arm phase IIa trial

INTRODUCTION

Sarcoidosis is a granulomatous systemic disease that becomes chronic in approximately one third of affected patients resulting in quality of life and functional impairment. Immunosuppressive drugs other than steroids represent alternative therapeutic options, but side effects like liver and bone marrow toxicity or increased susceptibility to infections limit their use. Pathophysiological studies in sarcoidosis patients demonstrate altered regulatory T-cell functions with a reduced expression of CTLA-4 (CD152) and prolonged inflammation. Therefore, interfering with CTLA-4 using abatacept might be a therapeutic option in sarcoidosis similar to rheumatoid arthritis therapy.

METHODS/DESIGN

This is a multicenter prospective open-labeled single arm phase II study addressing the safety of abatacept in sarcoidosis patients. 30 patients with chronic sarcoidosis requiring immunosuppressive therapy beyond 5 mg prednisolone equivalent will be treated with abatacept in combination with corticosteroids for one year in two centers.The primary endpoint is the number and characterization of severe infectious complications under treatment with abatacept.Secondary endpoints are the rate of all infections, patient-related outcomes (assessed by questionnaires), lung function and immunological parameters including alveolar inflammation assessed by bronchoaveolar lavage.

DISCUSSION

This is the first trial of abatacept in patients with sarcoidosis. It is hypothesized that administration of abatacept is safe in patients with chronic sarcoidosis and can limit ongoing inflammation. Patients' wellbeing is assessed by established questionnaires. Immunological work-up will highlight the effect of abatacept on inflammatory pathways in sarcoidosis.

TRIAL REGISTRATION

The trial has been registered at the German Clinical Trial Registry (Deutsches Register Klinischer Studien, DRKS) with the identity number DRKS00011660.

The Multi-modality Cardiac Imaging Approach to Cardiac Sarcoidosis

BACKGROUND

Sarcoidosis is a multisystem granulomatous disease with a neglected but high prevalence of life-threatening cardiac involvement.

DISCUSSION

The clinical presentation of Cardiac Sarcoidosis (CS) depends upon the location and extent of the granulomatous inflammation, with left ventricular free wall the most common location followed by interventricular septum. The lack of a diagnostic gold standard and the unpredictable risk of sudden cardiac death pose serious challenges for the validation of accurate and effective screening test and the management of the disease. In the last few years advanced cardiac imaging modalities such as Cardiac Magnetic Resonance (CMR) and Positron Emission Tomography (PET) have significantly improved our knowledge and understanding of CS, and have also contributed in risk stratification, assessment of inflammatory activity and therapeutic monitoring of the disease.

CONCLUSION

In this review, we will discuss the state of the art in the diagnosis of CS focusing on the role and importance of multi-modality cardiac imaging.

Anesthetic management of laparoscopy-assisted total proctocolectomy in a cardiac sarcoidosis patient with a cardiac resynchronization therapy-defibrillator: a case report

Background

Cardiac sarcoidosis (CS) causes severe conduction abnormalities and arrhythmias. CS patients are increasingly being treated with cardiac resynchronization therapy-defibrillators (CRT-Ds). For the first time, we report the anesthetic management of a CS patient with a CRT-D.

Case presentation

A 65-year-old male with an implanted CRT-D due to CS was scheduled for a laparoscopy-assisted total proctocolectomy for his transverse colon cancer. His left ventricular ejection fraction was 32.0%, and his physical status was a New York Heart Association class III. General and epidural anesthesia were performed while using standard monitors and a FloTrac^TM system. The dual-chamber pacing (DDD) modality of the CRT-D was unchanged, and its defibrillation function was deactivated before surgery. The surgery was successfully performed, and the patient was discharged without worsening of his cardiac condition.

Conclusions

A detailed understanding of this patient’s condition, as well as sarcoidosis, helped to facilitate successful anesthetic management of this patient.

Genetic Basis of Myocarditis: Myth or Reality?

The genetic basis of myocarditis remains an intriguing concept, at least as long as the definition of myocarditis constitutes the definitive presence of myocardial inflammation sufficient to cause the observed ventricular dysfunction in the setting of cardiotropic infections. Autoimmune or immune-mediated myocardial inflammation constitutes a complex area of clinical interest, wherein numerous and not yet fully understood role of hereditary auto-inflammatory diseases can result in inflammation of the pericardium and myocardium. Finally, myocardial involvement in hereditary immunodeficiency diseases, cellular and humoral, is a possible trigger for infections which may complicate the diseases themselves. Whether the role of constitutional genetics can make the patient susceptible to myocardial inflammation remains yet to be explored.

Ferumoxytol-enhanced cardiovascular magnetic resonance detection of early stage acute myocarditis

BACKGROUND

The diagnostic utility of cardiovascular magnetic resonance (CMR) is limited during the early stages of myocarditis. This study examined whether ferumoxytol-enhanced CMR (FE-CMR) could detect an earlier stage of acute myocarditis compared to gadolinium-enhanced CMR.

METHODS

Lewis rats were induced to develop autoimmune myocarditis. CMR (3 T, GE Signa) was performed at the early- (day 14, n = 7) and the peak-phase (day 21, n = 8) of myocardial inflammation. FE-CMR was evaluated as % myocardial dephasing signal loss on gradient echo images at 6 and 24 h (6 h- & 24 h-FE-CMR) following the administration of ferumoxytol (300μmolFe/kg). Pre- and post-contrast T2* mapping was also performed. Early (EGE) and late (LGE) gadolinium enhancement was obtained after the administration of gadolinium-DTPA (0.5 mmol/kg) on day 14 and 21. Healthy rats were used as control (n = 6).

RESULTS

Left ventricular ejection fraction (LVEF) was preserved at day 14 with inflammatory cells but no fibrosis seen on histology. EGE and LGE at day 14 both showed limited myocardial enhancement (EGE: 11.7 ± 15.5%; LGE: 8.7 ± 8.7%; both p = ns vs. controls). In contrast, 6 h-FE-CMR detected extensive myocardial signal loss (33.2 ± 15.0%, p = 0.02 vs. EGE and p < 0.01 vs. LGE). At day 21, LVEF became significantly decreased (47.4 ± 16.4% vs control: 66.2 ± 6.1%, p < 0.01) with now extensive myocardial involvement detected on EGE, LGE, and 6 h-FE-CMR (41.6 ± 18.2% of LV). T2* mapping also detected myocardial uptake of ferumoxytol both at day 14 (6 h R2* = 299 ± 112 s- 1vs control: 125 ± 26 s- 1, p < 0.01) and day 21 (564 ± 562 s- 1, p < 0.01 vs control). Notably, the myocardium at peak-phase myocarditis also showed significantly higher pre-contrast T2* (27 ± 5 ms vs control: 16 ± 1 ms, p < 0.001), and the extent of myocardial necrosis had a strong positive correlation with T2* (r = 0.86, p < 0.001).

CONCLUSIONS

FE-CMR acquired at 6 h enhance detection of early stages of myocarditis before development of necrosis or fibrosis, which could potentially enable appropriate therapeutic intervention.

[Selection of lung transplant candidates in France in 2019]

INTRODUCTION

In 2015, the International Society for Heart and Lung Transplantation (ISHLT) published a consensus document for the selection of lung transplant candidates. In the absence of recent French recommendations, this guideline is useful in order to send lung transplant candidates to the transplantation centers and to list them for lung transplantation at the right time.

BACKGROUND

The main indications for lung transplantation in adults are COPD and emphysema, idiopathic pulmonary fibrosis and interstitial diseases, cystic fibrosis and pulmonary arterial hypertension (PAH). The specific indications for each underlying disease as well as the general contraindications have been reviewed in 2015 by the ISHLT. For cystic fibrosis, the main factors are forced expiratory volume in one second, 6-MWD, PAH and clinical deterioration characterized by increased frequency of exacerbations; for emphysema progressive disease, the BODE score, hypercapnia and FEV1; for PAH progressive disease or the need of specific intravenous therapy and NYHA classification. Finally, the diagnosis of fibrosing interstitial lung disease is usually a sufficient indication for lung transplantation assessment.

OUTLOOK AND CONCLUSION

These new recommendations, close to French practices, help clinicians to find the right time for referral of patients to transplantation centers. This is crucial for the prognosis of lung transplantation.

Microvascular dysfunction in infiltrative cardiomyopathies

Infiltrative heart diseases are characterized by myocardial tissue alterations leading to mechanical dysfunction which in turn develops into bi-ventricular congestive heart failure. Also the coronary microvasculature undergoes significant remodeling and dysfunction. The effects of the unbalance of the mechanical cross-talk between cardiac muscle and vessels and of the impairment of vasodilatory function can be measured non-invasively by means of positron emission tomography and cardiac magnetic resonance.

Manganese-Enhanced T1 Mapping in the Myocardium of Normal and Infarcted Hearts

Background

Manganese-enhanced MRI (MEMRI) has the potential to identify viable myocardium and quantify calcium influx and handling. Two distinct manganese contrast media have been developed for clinical application, mangafodipir and EVP1001-1, employing different strategies to mitigate against adverse effects resulting from calcium-channel agonism. Mangafodipir delivers manganese ions as a chelate, and EVP1001-1 coadministers calcium gluconate. Using myocardial T1 mapping, we aimed to explore chelated and nonchelated manganese contrast agents, their mechanism of myocardial uptake, and their application to infarcted hearts.

Methods

T1 mapping was performed in healthy adult male Sprague-Dawley rats using a 7T MRI scanner before and after nonchelated (EVP1001-1 or MnCl2 (22 μmol/kg)) or chelated (mangafodipir (22-44 μmol/kg)) manganese-based contrast media in the presence of calcium channel blockade (diltiazem (100-200 μmol/kg/min)) or sodium chloride (0.9%). A second cohort of rats underwent surgery to induce anterior myocardial infarction by permanent coronary artery ligation or sham surgery. Infarcted rats were imaged with standard gadolinium delayed enhancement MRI (DEMRI) with inversion recovery techniques (DEMRI inversion recovery) as well as DEMRI T1 mapping. A subsequent MEMRI scan was performed 48 h later using either nonchelated or chelated manganese and T1 mapping. Finally, animals were culled at 12 weeks, and infarct size was quantified histologically with Masson's trichrome (MTC).

Results

Both manganese agents induced concentration-dependent shortening of myocardial T1 values. This was greatest with nonchelated manganese, and could be inhibited by 30-43% with calcium-channel blockade. Manganese imaging successfully delineated the area of myocardial infarction. Indeed, irrespective of the manganese agent, there was good agreement between infarct size on MEMRI T1 mapping and histology (bias 1.4%, 95% CI -14.8 to 17.1 P>0.05). In contrast, DEMRI inversion recovery overestimated infarct size (bias 11.4%, 95% CI -9.1 to 31.8 P=0.002), as did DEMRI T1 mapping (bias 8.2%, 95% CI -10.7 to 27.2 P=0.008). Increased manganese uptake was also observed in the remote myocardium, with remote myocardial ∆T1 inversely correlating with left ventricular ejection fraction after myocardial infarction (r=-0.61, P=0.022).

Conclusions

MEMRI causes concentration and calcium channel-dependent myocardial T1 shortening. MEMRI with T1 mapping provides an accurate assessment of infarct size and can also identify changes in calcium handling in the remote myocardium. This technique has potential applications for the assessment of myocardial viability, remodelling, and regeneration.

Echocardiography in Sarcoidosis

PURPOSE OF REVIEW

Cardiac sarcoidosis (CS) is associated with significant morbidity and mortality. The diagnosis of CS is challenging and typically one that is only entertained after many other conditions have been ruled out. A high index of suspicion is necessary in order to correctly determine appropriate testing for the disease. Transthoracic echocardiography is the most readily available imaging modality available to help establish a diagnosis in a potential patient. However, no one echocardiographic feature is pathognomonic.

RECENT FINDINGS

On echocardiography, unusual wall motion abnormalities, which do not fit a classic coronary distribution, along with diastolic dysfunction may alert one to the presence of cardiac sarcoid, particularly in the right clinical context. Myocardial strain imaging on echocardiography may increase the sensitivity of identifying cardiac sarcoidosis. Alternative imaging with cardiac magnetic resonance imaging or positron emission tomography have become more frequently utilized to establish a diagnosis of CS. Cardiac sarcoidosis remains a difficult condition to diagnose. However early diagnosis is critical to decrease the associated high mortality. Endomyocardial biopsy is highly specific but lacks sensitivity due to the patchy nature of the granulomatous deposition. Thus, imaging plays a role in diagnosis as well as for follow-up. Echocardiography remains an hallmark during the workup for CS. Decreased sensitivity of echocardiography has facilitated the use of other techniques to establish the presence of CS.

Myocarditis: A Clinical Overview

PURPOSE OF REVIEW

In this paper we will review the modern diagnostic approach to patients with clinically suspected myocarditis as well as the treatment modalities and strategy in light of up-to-date clinical experience and scientific evidence.

RECENT FINDINGS

Rapidly expanding evidence suggests that myocardial inflammation is frequently underdiagnosed or overlooked in clinical practice, although new therapeutic options have been validated. Moreover, the available evidence suggests that subclinical cardiac involvement has negative prognostic impact on morbidity and mortality and should be actively investigated and adequately treated. Myocarditis represents a growing challenge for physicians, due to increased referral of patients for endomyocardial biopsy (EMB) or cardiac magnetic resonance (CMR), and requires a highly integrated management by a team of caring physicians.

[Sarcoidosis]

Sarcoidosis is a rare granulomatous disease mainly affecting lymph nodes and the lungs but joints, bones, muscles and other organs can also be affected. Sarcoidosis therefore represents an important differential diagnosis to various rheumatic diseases. For the diagnosis and differential diagnostic clarification, bronchoscopy including endobronchial ultrasound-guided fine needle aspiration of mediastinal and hilar lymph nodes represent the main procedures. Because of the high spontaneous remission rate initiating a therapy requires a therapeutic goal defined by sarcoidosis-associated functional organ impairment, especially for acute sarcoidosis. Cortisone represents the most commonly administered medication whereas methotrexate and azathioprine are well-established second-line medications. Antibodies which neutralize tumor necrosis factors (TNF) are a potential third-line therapy.

Ventilatory disturbances in patients with intrathoracic sarcoidosis - a study from a functional and histological perspective

Background: Although sarcoidosis is commonly considered a restrictive disorder, more recent studies demonstrated opposite results. Objectives: To determine the prevalent functional pattern in patients with intrathoracic sarcoidosis and to assess the role of granulomatous inflammation in determining ventilatory disturbances. Methods: We included 144 consecutive newly diagnosed patients with sarcoidosis, who were evaluated by chest radiography, chest high resolution computer tomography, pulmonary function tests and dyspnea score. Additionally, endobronchial and transbronchial biopsies were performed to a subset of 78 patients. Results: We obtained a wide range of ventilatory abnormalities that characterize airways impairment: FEV1/FVC<70% - in 14 (9.7%) cases, low MMEF25-75 - in 69 (47.9%) patients, increased RV/TLC - in 65 (45.1%) subjects, while the subjects with restrictive defects was observed in a minority of cases - 7 (4.9%). Decreased DLCO was found in 100 (69.4%) individuals, in the majority of cases with mild changes. Patients in whom endobronchial biopsy showed granuloma had worse ventilatory results versus those in whom they have not been detected, with significant differences in FEV1 and MMEF25-75. We found significant correlations between radiological stage and pulmonary function tests. Dyspnea score (mMRC scale) in our cohort reflected lung volumes and DLCO modifications. Conclusion: The dominant functional abnormality in patients with intrathoracic sarcoidosis is obstruction, which affects the entire length of the bronchial tree causing a wide range of airways impairment and altered gas diffusion. These functional disturbances are prevalent from early stages of the disease and have a tendency to coexist with restriction as the disease advances. Granulomatous inflammation seems to have an important role in determining obstructive defect, even from "infra-radiological" stages. (Sarcoidosis Vasc Diffuse Lung Dis 2017; 34: 58-67).

Hypertrophic Cardiomyopathy from A to Z: Genetics, Pathophysiology, Imaging, and Management

Hypertrophic cardiomyopathy (HCM) is a heterogeneous group of diseases related to sarcomere gene mutations exhibiting heterogeneous phenotypes with an autosomal dominant mendelian pattern of inheritance. The disorder is characterized by diverse phenotypic expressions and variable natural progression, which may range from dyspnea and/or syncope to sudden cardiac death. It is found across all racial groups and is associated with left ventricular hypertrophy in the absence of another systemic or cardiac disease. The management of HCM is based on a thorough understanding of the underlying morphology, pathophysiology, and clinical course. Imaging findings of HCM mirror the variable expressivity and penetrance heterogeneity, with the added advantage of diagnosis even in cases where a specific mutation may not yet be found. The diagnostic information obtained from imaging varies depending on the specific stage of HCM-phenotype manifestation, including the prehypertrophic, hypertrophic, and later stages of adverse remodeling into the burned-out phase of overt heart failure. However, subtle or obvious, these imaging findings become critical components in diagnosis, management, and follow-up of HCM patients. Although diagnosis of HCM traditionally relies on clinical assessment and transthoracic echocardiography, recent studies have demonstrated increased utility of multidetector computed tomography (CT) and particularly cardiac magnetic resonance (MR) imaging in diagnosis, phenotype differentiation, therapeutic planning, and prognostication. In this article, we provide an overview of the genetics, pathophysiology, and clinical manifestations of HCM, with the spectrum of imaging findings at MR imaging and CT and their contribution in diagnosis, risk stratification, and therapy.

The role of nuclear cardiac imaging in risk stratification of sudden cardiac death

Sudden cardiac death (SCD) represents a significant portion of all cardiac deaths. Current guidelines focus mainly on left ventricular ejection fraction (LVEF) as the main criterion for SCD risk stratification and management. However, LVEF alone lacks both sensitivity and specificity in stratifying patients. Recent research has provided interesting data which supports a greater role for advanced cardiac imaging in risk stratification and patient management. In this article, we will focus on nuclear cardiac imaging, including left ventricular function assessment, myocardial perfusion imaging, myocardial blood flow quantification, metabolic imaging, and neurohormonal imaging. We will discuss how these can be used to better understand SCD and better stratify patient with both ischemic and non-ischemic cardiomyopathy.

Expression profiling elucidates a molecular gene signature for pulmonary hypertension in sarcoidosis

Pulmonary hypertension (PH), when it complicates sarcoidosis, carries a poor prognosis, in part because it is difficult to detect early in patients with worsening respiratory symptoms. Pathogenesis of sarcoidosis occurs via incompletely characterized mechanisms that are distinct from the mechanisms of pulmonary vascular remodeling well known to occur in conjunction with other chronic lung diseases. To address the need for a biomarker to aid in early detection as well as the gap in knowledge regarding the mechanisms of PH in sarcoidosis, we used genome-wide peripheral blood gene expression analysis and identified an 18-gene signature capable of distinguishing sarcoidosis patients with PH (n = 8), sarcoidosis patients without PH (n = 17), and healthy controls (n = 45). The discriminative accuracy of this 18-gene signature was 100% in separating sarcoidosis patients with PH from those without it. If validated in a large replicate cohort, this signature could potentially be used as a diagnostic molecular biomarker for sarcoidosis-associated PH.

Prevalence of cardiac sarcoidosis in white population: a case-control study: Proposal for a novel risk index based on commonly available tests

Cardiac sarcoidosis (CS) is a life-threatening and underdiagnosed manifestation of the disease, which requires a complicated and expensive diagnostic pathway. There is a need for simple tool for practitioners to determine the risk of CS without access to specialized equipment.The aim of study was to determine the prevalence of CS in a group of patients diagnosed with or followed up because of sarcoidosis. A secondary objective was the search for factors associated with heart involvement.We performed a prospective case-control study (screening analysis) in consecutive sarcoidosis patients collected from October 2012 to September 2015. Cardiac magnetic resonance (CMR) imaging was performed to confirm or exclude cardiac involvement in all patients. The study was conducted in a hospital-based referral center for patients with sarcoidosis and other interstitial lung diseases.Analysis was performed in a group of 201 patients (all white) with biopsy-proven sarcoidosis, mean age 41.4 ± 10.2, 121 of them (60.2%) males. Four patients with previously recognized cardiac diseases, which make CMR imaging for CS inconclusive, were not included.Cardiac involvement was detected by CMR in 49 patients (24.4%). Factors associated with an increased risk of CS (univariate analyses) included male sex (odds ratio [OR]: 2.5; 1.21-5.16, P = 0.01), cardiac-related symptoms (OR: 3.53; 1.81-6.89, P = 0.0002), extrathoracic sarcoidosis (OR: 3.48; 1.77-6.84, P = 0.0003), elevated serum NT-proBNP (OR: 3.82; 1.55-9.42, P = 0.004), any electrocardiography abnormality (OR: 5.38; 2.48-11.67, P = 0.0001), and contemporary radiological progression sarcoidosis in the lungs (OR: 2.98; 1.52-5.84, P = 0.001). Abnormalities in echocardiography and Holter ECG were also risk factors, but not significant in multivariate analyses. A CS Risk Index was developed using a multivariate model to predict CS, achieving an accuracy of 82%, sensitivity of 50%, specificity of 94%, and likelihood ratio 8.1.CS was detected in one fourth of patients. A CS Risk Index based on the results of easily accessible tests is cost-effective and may help to identify patients who should be urgently referred for further diagnostic procedures.

Interventional therapy in sarcoidosis-associated pulmonary arterial stenosis and pulmonary hypertension

BACKGROUNDS

Pulmonary sarcoidosis is often complicated by pulmonary hypertension, a complication that is associated with increased disability and mortality. To this point, however, little progress has been made in the treatment of sarcoidosis associated with pulmonary hypertension (SAPH).

METHODS

A prospective study was performed on 72 consecutive Chinese sarcoidosis patients followed at an outpatient clinic. The patients were evaluated by Doppler echocardiography and computed tomography pulmonary angiography. SAPH was confirmed by right heart catheterisation. The clinical parameters were compared before and 2 months after treatment with oral glucocorticoids. Eight stage III and IV patients with moderate to severe proximal pulmonary arterial stenosis (PAS) and SAPH underwent interventional therapy (IT) after prednisone treatment and were followed up at 3-month intervals.

RESULTS

After 2 months of prednisone treatment, 32 stage III and IV patients continued to display varying degrees of PAS and SAPH. Eight patients underwent IT without severe complications and made improvements in pulmonary arterial pressure, pulmonary vascular resistance, arterial oxygen saturation and WHO functional classification, with the improvements lasting more than 3 months.

CONCLUSIONS

PAS caused by external compression in sarcoidosis is a significant reason for SAPH. IT is effective and safe in the treatment of PAS and SAPH.

[Diagnosis and treatment of sarcoidosis. Current standards]

Sarcoidosis is a granulomatous disease that mainly affects the lungs and intrathoracic lymph nodes; however, virtually any organ can be affected. As an orphan disease, recommendations are mainly based on observational or small randomized studies as well as experts' opinion. Diagnosing sarcoidosis requires proof of non-necrotizing granulomas in patients with a compatible symptomatic pattern and the exclusion of other granulomatous diseases. Granulomas can be detected best in the lungs or intrathoracic lymph nodes. Therefore, bronchoscopy and endobronchial ultrasound with biopsies of lymph nodes are the major tools to diagnose sarcoidosis. Frequently, close follow-up and symptomatic therapy are sufficient to allow for spontaneous resolution. In case of functional organ impairment, cardial or CNS involvement, or other complications, steroid therapy is necessary with a starting dose of 0.5 mg/kg body weight that should be tapered-off over 6-12 months. Steroid-refractory disease can be treated by adding methotrexate or azathioprine, two drugs long known in sarcoidosis treatment. Monoclonal antibodies against TNF and lung transplantation are further therapeutic options.