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עמוד בית
Fri, 22.11.24

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December 2020
Moshe Shai Amor, Dror Rosengarten, Dorit Shitenberg, Barak Pertzov, Yael Shostak, and Mordechai Reuven Kramer

Background: Idiopathic pulmonary fibrosis (IPF) has poor prognosis. Anti-fibrotic treatment has been shown to slow disease progression. Lung transplantation (LTx) offers a survival benefit. The 5-year survival after LTx in IPF is between 40 and 50%

Objectives: To evaluate which IPF patients have better prognosis following LTx.

Methods: A retrospective study was conducted with all IPF patients who had undergone LTx in the Rabin Medical Center between 2010 and 2018. We collected data on pre-evaluation of pulmonary function tests, echocardiographic and right heart catherization, and anti-fibrotic treatments. The Kaplan-Meier method was used for survival analysis.

Results: Among148 patients who underwent LTx, 58 were double LTx (DLT) and 90 single LTx (SLT). Mean age was 58.07 ± 9.78 years; 104 males and 44 females. DLT patients had significantly lower survival rates than SLT in the short and medium term after LTx. Patients with saturation above 80% after the 6-minute walk test (6MWT) had higher survival rates. Patients over 65 years of age had a lower survival rates. Those with pulmonary hypertension (PHT) above 30 mmHg had a poorer prognosis with lower survival rates.

Conclusions: IPF patients with higher mean PHT, older age (> 65 years), and desaturation following 6MWT had lower survival rates following LTx. DLT may decrease survival rate compared to SLT just for the short and medium period of time after LTx. These results may lead to better selection of IPF patient candidates for LTx. Additional studies are warranted for choosing which patients will have better prognosis after LTx.

Michael J. Segel MD, Dafna Somech RN BA, Irene M. Lang MD, and Amit Segev MD

Background: Chronic thromboembolic pulmonary hypertension (CTEPH) is a rare, distinct pulmonary vascular disease caused by chronic obstruction of major pulmonary arteries, which can be cured by pulmonary endarterectomy. However, many CTEPH patients are not surgical candidates. Balloon pulmonary angioplasty (BPA) is an emerging technique used to treat inoperable CTEPH.

Objectives: To describe the first Israeli experience with BPA for inoperable CTEPH.

Methods: In 2017 we established a BPA program at our institution. We reviewed the outcomes to date of BPA in our center.

Results: Forty-seven BPA procedures were performed in five patients with inoperable CTEPH (4–17 procedures/patient). Mean pulmonary artery pressure improved in all patients (median decrease 17 mmHg, range 10–26 mmHg). Pulmonary vascular resistance also improved (median decrease 11 Woods Units/m2, range 8–16 Woods Units/m2). Cardiac output increased in 4 of 5 patients and decreased in one. Functional capacity improved from New York Heart Association (NYHA) III to II in four patients; one patient was NYHA II at baseline without change after BPA. Six-minute walking distance improved by a median of 97 meters. (range 21–197 meters). Hemodynamic and functional improvements were sustained at follow-up 5–11 months after the last BPA procedure. BPA enabled 2 of 3 patients treated with parenteral prostanoids to be switched to oral therapy. There were no major complications.

Conclusions: We successfully established BPA as a treatment for inoperable CTEPH in our center. BPA resulted in hemodynamic and clinical improvements that were sustained over time.

August 2019
Michael J. Segel MD, Alexander Kogan MD, Sergey Preissman MD, Nancy Agmon-Levin MD, Aaron Lubetsky MD MSc, Paul Fefer MD, Hans-Joachim Schaefers MD and Ehud Raanani MD

Background: Chronic thromboembolic pulmonary hypertension (CTEPH) is a rare, distinct pulmonary vascular disease, which is caused by chronic obstruction of major pulmonary arteries. CTEPH can be cured by pulmonary endarterectomy (PEA). PEA for CTEPH is a challenging procedure, and patient selection and the perioperative management are complex, requiring significant experience.

Objectives: To describe the establishment of a national CTEPH–PEA center in Israel and present results of surgery.

Methods: In this study, we reviewed the outcomes of PEA in a national referral, multi-disciplinary center for CTEPH–PEA. The center was established by collaborating with a high-volume center in Europe. A multidisciplinary team from our hospital (pulmonary hypertension specialist, cardiac surgeon, cardiac anesthesiologist and cardiac surgery intensivist was trained under the guidance of an experienced team from the European center.

Results: A total of 38 PEA procedures were performed between 2008 and 2018. We included 28 cases in this analysis for which long-term follow-up data were available. There were two hospital deaths (7%). At follow-up, median New York Heart Association (NYHA) class improved from III to I (P < 0.0001), median systolic pulmonary pressure decreased from 64 mmHg to 26 mmHg (P < 0.0001), and significant improvements were seen in right ventricular function and exercise capacity.

Conclusions: A national center for performance of a rare and complex surgical procedure can be successfully established by collaboration with a high-volume center and by training a dedicated multidisciplinary team.

April 2018
Anne Graham Cummiskey MBBS, Amit Segev MD, Michael Segel MD, Jonathan Buber MD, Victor Guetta MD, Israel M. Barbash MD, Dan Elian MD, Elad Asher MD, Ori Vaturi MD and Paul Fefer MD

Background: Previous studies have demonstrated the utility of exercise hemodynamics during right heart catheterization (RHC) in the diagnosis of diastolic dysfunction (DD). Little data exists regarding exercise hemodynamics during RHC in symptomatic systemic sclerosis (SSc) patients. 

Objectives: To assess the added diagnostic value of using exercise hemodynamics during RHC in assessment of patients with symptomatic SSc.

Methods: We performed 22 RHCs in 17 SSc patients with dyspnea and/or pulmonary arterial hypertension (PAH). Exercise was performed in 15 RHCs using isotonic arm exercises while holding a 1 kg weight in each hand. Measurements of pulmonary arterial pressure (PAP), pulmonary arterial wedge pressure (PAWP), and cardiac output (CO) were taken at rest and during peak exercise. 

Results: Normal resting RHC (PAP 22 ± 3 mmHg, PAWP 11 ± 3 mmHg) was found in seven cases. Of these, exercise induced elevation in PAP was found in three (38 ± 7 mmHg), and exercise induced elevation in PAWP was found in four (24 ± 6 mmHg). Elevated resting PAP was found in 15 (41 ± 11 mmHg) with minor changes in exercise. Of the 22 RHCs, elevation of the PAWP was found in 11 (50%), half of which were in response to exercise. 

Conclusions: In symptomatic SSc patients, exercise hemodynamics provides important information on diastolic dysfunction that is not available with non-invasive testing. Findings on exercise RHC can explain patient symptoms in up to 50% of cases. Earlier and more accurate diagnosis of patient symptoms can aid in tailoring the correct therapy for each.

May 2017
Francesca Cainelli MD, Dair Nurgaliev MD PhD, Kadischa Nurgaliyeva MD, Tatyana Ivanova-Razumova MD, Denis Bulanin PhD and Sandro Vento MD
February 2011
G. Berger, Z.S. Azzam, E. Hardak, Y. Tavor and M. Yigla

Idiopathic pulmonary arterial hypertension (IPAH) is an isolated small-vessel disease comprising vasoconstriction, remodeling and thrombosis of small pulmonary arteries. However, there is evidence that IPAH[1] does not respect anatomic boundaries and might extend into large vessels such as large central thrombi. On the other hand, chronic thromboembolic pulmonary hypertension (CTEPH) represents a distinct category of pulmonary hypertension as it is thought to be due to an occlusion of the major pulmonary arteries following a thromboembolic event. However, it is currently evident that in most patients, there is a concomitant small-vessel disease. The involvement of both small and large vessels in both IPAH and CTEPH[2] together with a high incidence of silent thromboembolic events might create difficulties in identifying the true cause of pulmonary hypertension. An accurate diagnosis of the cause determines the management and prognosis. Patients with CTEPH can potentially be offered curative surgery in the form of pulmonary endarterectomy; however, oxygen, vasodilators, anticoagulation, and lung transplantation are more feasible options for IPAH.






[1] IPAH = idiopathic pulmonary arterial hypertension



[2] CTEPH = chronic thromboembolic pulmonary hypertension


February 2008
A. Grubstein, O. Benjaminov, D. Ben Dayan, D. Shitrit, M. Cohen and M.R. Kramer

Background: Diseases causing increased pulmonary pressure will subsequently cause a dilation of the pulmonary arteries and right heart chambers.

Objectives: To assess the capability of computed tomography angiography and high resolution CT to diagnose and estimate the severity of pulmonary arterial hypertension as compared with standard means of right heart catheterization, echocardiography and pulmonary function tests.

Methods: The study included 38 patients with PHT[1] who underwent CT angiography and HRCT[2] as part of their routine evaluation. Diagnose included: primary PHT (n=20), Eisenmenger syndrome (n=6), scleroderma (n=3), thromboembolic disease (n=3), and others (n=6). Mean pulmonary artery pressure was 58 mmHg (range 39–92 mmHg) by catheterization and peak systolic pressure 79 mmHg (range 40–135) by echocardiography. Findings for the diameters of the main pulmonary artery and its main branches, the ascending aorta, the right atria and ventricle as well as the position of the interventricular septum were compared with 22 chest CT scans as compared to patients with no known clinical history of pulmonary hypertension, performed for other reasons (trauma, oncology follow-up) during the study period. Correlations were also calculated with recent right heart catheterization, echocardiography and pulmonary function tests of the study group.

Results: Mean main pulmonary artery diameter in the study group was 3.55 ± 0.66 cm, pulmonary artery/ascending aorta ratio 1.2 ± 0.29, right pulmonary artery 2.63 ± 0.49 cm, left pulmonary artery 2.57 ± 0.5 cm. All diameters were significantly different from the control group (P < 0.0001). Main and right pulmonary artery diameters correlated to the pressure measurement by echocardiography (P = 0.001). Bronchial collaterals were found in 11 patients (30%). The position of the interventricular septum correlated well with the echocardiography study.

Conclusions: The size of the main pulmonary artery on CT angiography has a good predictive value regarding the severity of PHT.






[1] PHT = pulmonary arterial hypertension

[2] HRCT = high resolution computed tomography


July 2006
D. Rimar, Y. Rimar and Y. Keynan
 Today, more than 10 years and 2000 articles since human herpesvirus 8 was first described by Chang et al., novel insights into the transmission and molecular biology of HHV-8[1] have unveiled a new spectrum of diseases attributed to the virus. The association of HHV-8 with proliferative disorders – including Kaposi's sarcoma, multicentric Castleman disease and primary effusion lymphoma – is well established. Other aspects of HHV-8 infection are currently the subject of accelerated research. Primary HHV-8 infection may manifest as a mononucleosis-like syndrome in the immunocompetent host, or in various forms in the immunocompromised host. The association of HHV-8 with primary pulmonary hypertension was observed by Cool et al. in 2003, but six clinical trials evaluating the role of HHV-8 in pulmonary hypertension have not been able to replicate this intriguing observation. It has been speculated that HHV-8 may secondarily infect proliferating endothelium in patients with pulmonary hypertension. HHV-8 epidemiology, modes of transmission, new spectrum of disease and treatment are presented and discussed.







[1] HHV-8 = human herpesvirus 8


March 2004
A. Cahn, V. Meiner, E. Leitersdorf and N. Berkman

Background: Primary pulmonary hypertension is a rare disorder, characterized by progressive pulmonary hypertension and right heart failure. It may be familial or sporadic. Mutations in bone morphogenetic protein receptor II (BMPR2), a member of the transforming growth factor-beta receptor superfamily of receptors, underlie many cases of the disorder.

Objectives: To perform molecular analysis of a patient with familial PPH[1] and provide her and her family with suitable genetic counseling.

Methods: DNA was extracted from 10 ml whole blood, and the BMPR2 gene was screened for mutations. Individual exons were amplified by polymerase chain reaction and sequenced. Mutation confirmation and molecular characterization of additional family members was performed using restriction enzyme analysis followed by appropriate genetic counseling.

Results: We identified a novel T to C missense mutation expected to result in substitution of arginine for a conserved cysteine in the ligand-binding domain of BMPR2. Screening of family members demonstrated the presence of the mutation in the father and a younger asymptomatic sister of the index patient.

Conclusions: Molecular diagnosis in PPH allows for identification of at-risk family members and raises the option of earlier diagnosis and possibly instituting earlier treatment in affected individuals. However, molecular screening of asymptomatic family members raises difficult ethical questions that can only be resolved by conducting large multicenter prospective studies in BMPR2 carriers.






[1] PPH = primary pulmonary hypertension


February 2004
M. Yigla, M.R. Kramer, D. Bendayan, S.A. Reisner and A. Solomonov

Background: Unexplained pulmonary hypertension is assumed to occur mainly in young adults.

Objectives: To describe the features of the disease in older patients and compare them to those in PHT[1] patients of all ages.

Methods: We conducted a retrospective evaluation of the files of patients over 65 years of age in whom UPHT[2] was diagnosed between 1987 and 1999 at two PHT centers serving a population of 4 million. Patients were followed for survival until March 2003. Clinical variables of the study patients were compared to those in PHT patients of all ages.

Results: The study group included 14 patients, 10 females and four males, with a mean age of 70.5 ± 6.7 years. The calculated mean annual incidence of UPHT for the study population was one new case per year per million persons. Seven patients (50%) had systemic hypertension. The mean interval from onset of symptoms to diagnosis was 8.3 months. At diagnosis, 64% of patients had functional capacity of III-IV according to the New York Heart Association classification, and 43% had right heart failure. Mean systolic pulmonary artery pressure was 80 ± 21 mmHg, peripheral vascular resistance 11.7 ± 7 mmHg/L/min, cardiac index 2.16 ± 0.81, and mean right atrial pressure 10.5 ± 5.9 mmHg. Median survival time was 43 months; survival rates for 1 year, 3 years and 5 years were 92.6%, 50%, 40%, respectively. Compared to data from the U.S. National Institute of Health Registry, UPHT in older patients is more common in females, but the incidence as well as clinical, hemodynamic and survival parameters are similar to those in PHT patients at any age.

Conclusions: UPHT occurs in the elderly more frequently than previously thought, with similar features in PHT patients of all ages. The coexistence of systemic and pulmonary hypertension warrants further investigation.






[1] PHT = pulmonary hypertension



[2] UPHT = unexplained pulmonary hypertension


April 2002
Daniele Bendayan, MD, Gershon Fink, MD, Dan Aravot, MD, Mordechai Ygla, MD, Issahar Bendov, MD, Leonard Bliden, MD, Nir Amiran, MD and Mordechai Kramer, MD

Background: Primary idiopathic pulmonary hypertension is a rapidly progressive disease with a median survival of less than 3 years. Recently its prognosis was shown to dramatically improve with the use of epoprostenol, an arachidonic acid metabolite produced by the vascular endothelium, which increases the cardiac output and decreases the pulmonary vascular resistance and pulmonary arterial pressure. This drug enhances the quality of life, increases survival and delays or eliminates the need for transplantation.

Objective: To review the experience of Israel hospitals with the use of epoprostenol.

Methods: The study group comprised 13 patients, 5 men and 8 women, with an age range of 3–53 years. All patients suffered from arterial pulmonary hypertension. Epoprostenol was administered through a central line in an increased dose during the first 3 months, after which the dose was adjusted according to the clinical syndrome and the hemodynamic parameters.

Results: After 3 months the mean dose was 10 ng/kg/min and the pulmonary artery pressure decreased from 7 to 38%. After one year, the PAP decreased at a slower rate. Two cases required transplantation, three patients died, and seven continued taking the drug (one of whom discontinued). Four episodes of septicemia were observed. Today 10 patients are alive and well and 7 continue to take epoprostenol.

Conclusion: We found that epoprostenol improves survival, quality of life and hemodynamic parameters, with minimum side effects.

September 2000
Mordechai Yigla, MD, Salim Dabbah, MD, Zaher S. Azzam, MD, Ami-Hai E. Rubin, MD and Simon, A. Reisner, MD

Background: Data regarding the epidemiology of secondary pulmonary hypertension are scanty.

Objectives: To describe the spectrum and relative incidence of background diseases in patients with significant secondary PHT.

Methods: We identified 671 patients with systolic pulmonary artery pressure of 45 mm Hg or more from the database of the echocardiographic laboratory. Their background diseases were recorded and classified into three subgroups: cardiac, pulmonary and pulmonary vascular disease without pulmonary parenchymal disease. Age at the first echocardiographic study, gender and systolic PAP values were recorded. Data between the three subgroups were compared.

Results: The mean age of the patients was 6515 years, mean systolic PAP 6114 mm Hg and female:male ratio 1.21:1. At the time of diagnosis 85% of the patients were older than 50. PHT was secondary to cardiac disease in 579 patients (86.3%), to PVD without PPD in 54 patients (8%) and to PPD in only 38 patients (5.7%). Mean age and mean systolic PAP did not differ significantly among the three subgroups. There was a significantly higher female: male ratio in patients with PVD without PPD compared with cardiac or pulmonary diseases (1.7:1 vs. 1.2:1 and 1.7 vs. 0.8:1 respectively, P0.05).

Conclusions: The majority of patients with significant PHT are elderly with heart disease. PVD without PPD and chronic PPD are a relatively uncommon cause of significant PHT. Since the diagnosis of PHT is of clinical significance and sometimes merits different therapeutic interventions, we recommend screening by Doppler echocardiography for patients with high risk background diseases.

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