Categories:

 

Appetite suppressants

Epoprostenol (Flolan), Nitric Oxide

          Prognosis

          Biochemistry & Genetics

          Anticoagulation

          Echocardiography

          Liver Disease

          New Therapies

          Transplantation

 

 

 

 

Appetite suppressants

 

 

Am J Cardiol 2000 Apr 1;85(7):913-5, A10

 

Chronic treatment with phentermine combined with fenfluramine lowers plasma

serotonin.

 

Rothman RB, Redmon JB, Raatz SK, Kwong CA, Swanson JE, Bantle JP

 

rbrothman@aol.com

 

 

As expected on the basis of published research in both humans and animals,

treatment with phentermine/fenfluramine lowers plasma 5-hydroxytryptophan,

whereas treatment with phentermine had no significant effect. In light of these

findings, future research should focus on mechanisms other than increased plasma

5-hydroxytryptophan to explain how fenfluramine increases the risk of primary

pulmonary hypertension and valvular heart disease.

 

 

 

 

Chest 2000 Mar;117(3):870-4

 

Anorexigens and pulmonary hypertension in the United States: results from the

surveillance of North American pulmonary hypertension.

 

Rich S, Rubin L, Walker AM, Schneeweiss S, Abenhaim L

 

Section of Cardiology, Rush Medical College, Chicago, IL 60612-3824,

srich@rush.edu

 

BACKGROUND: The use of appetite suppressants in Europe has been associated with

the development of primary pulmonary hypertension (PPH). Recently, fenfluramine

appetite suppressants became widely used in the United States but were withdrawn

in September 1997 because of concerns over adverse effects. MATERIALS AND

METHODS: We conducted a prospective surveillance study on patients diagnosed

with pulmonary hypertension at 12 large referral centers in North America. Data

collected on patients seen from September 1, 1996, to December 31, 1997,

included the cause of the pulmonary hypertension and its severity. Patients with

no identifiable cause of pulmonary hypertension were classed as PPH. A history

of drug exposure also was taken with special attention on the use of

antidepressants, anorexigens, and amphetamines. RESULTS: Five hundred

seventy-nine patients were studied, 205 with PPH and 374 with pulmonary

hypertension from other causes (secondary pulmonary hypertension [SPH]). The use

of anorexigens was common in both groups. However, of the medications surveyed,

only the fenfluramines had a significant preferential association with PPH as

compared with SPH (adjusted odds ratio for use > 6 months, 7.5; 95% confidence

interval, 1.7 to 32.4). The association was stronger with longer duration of use

when compared to shorter duration of use and was more pronounced in recent users

than in remote users. An unexpectedly high (11.4%) number of patients with SPH

had used anorexigens. CONCLUSION: The magnitude of the association with PPH, the

increase of association with increasing duration of use, and the specificity for

fenfluramines are consistent with previous studies indicating that fenfluramines

are causally related to PPH. The high prevalence of anorexigen use in patients

with SPH also raises the possibility that these drugs precipitate pulmonary

hypertension in patients with underlying conditions associated with SPH.

 

 

 

Epoprostenol (Flolan), Nitric Oxide

 

Heart 2000 Apr;83(4):406-9

 

Treatment with epoprostenol reverts nitric oxide non-responsiveness in patients

with primary pulmonary hypertension.

 

Ziesche R, Petkov V, Wittmann K, Kopatschka J, Stiebellehner L, Schenk P,

Germann P, Roder G, Ullrich R, Block LH

 

Department of Internal Medicine IV, University of Vienna Medical School,

Wahringer Gurtel 18-20, A-1090 Vienna, Austria.

 

 

OBJECTIVE: To assess whether long term treatment with epoprostenol might restore

primary non-responsiveness to nitric oxide (NO) in patients with primary

pulmonary hypertension. METHODS: Seven patients with primary pulmonary

hypertension receiving intravenous epoprostenol continuously because of failure

of NO to influence pulmonary haemodynamics during initial testing were followed

over a period of 13-29 months. Afterwards, acute vascular reactivity towards NO

was tested again during right heart catheterisation. RESULTS: Administration of

NO after continuous epoprostenol treatment for a mean period of 18 months

improved arterial oxygen saturation (p < 0.01) and cardiac index (p < 0.05), and

decreased mean pulmonary artery pressure (p < 0.01) and total pulmonary vascular

resistance (p < 0.01) in patients previously unresponsive to NO. CONCLUSIONS:

Long term treatment with epoprostenol reverts initial refractoriness to NO in

patients with primary pulmonary hypertension. Thus the addition of NO to

epoprostenol treatment might cause further improvement in the course of the

disease.

 

 

 

J Am Coll Cardiol 2000 Jan;35(1):176-82

 

A comparison of the acute hemodynamic effects of inhaled nitric oxide and

aerosolized iloprost in primary pulmonary hypertension. German PPH study group.

 

Hoeper MM, Olschewski H, Ghofrani HA, Wilkens H, Winkler J, Borst MM,

Niedermeyer J, Fabel H, Seeger W

 

Department of Pulmonary Medicine, Hannover Medical School, Germany.

KMHoeper@AOL.com

 

OBJECTIVE: We sought to compare the acute hemodynamic effects of inhaled nitric

oxide (NO) and aerosolized iloprost in primary pulmonary hypertension (PPH).

BACKGROUND: Inhalation of the stable prostacyclin analogue iloprost has recently

been described as a novel therapeutic strategy for PPH and may offer an

alternative to continuous intravenous infusion of prostacyclin or inhalation of

NO. METHODS: During right heart catheterization, 35 patients with PPH

sequentially inhaled 40 ppm of NO and 14 to 17 microg of iloprost, and the

effects on hemodynamics and blood gases were monitored. RESULTS: Both NO and

iloprost caused significant increases in cardiac output, mixed-venous oxygen

saturation and stroke volume as well as significant decreases in pulmonary

artery pressure and pulmonary vascular resistance, whereas only inhaled iloprost

significantly increased the arterial PO2 (p = 0.01). Compared with inhaled NO,

aerosolized iloprost was more effective in reducing pulmonary artery pressure

(-8.3 +/- 7.5 mm Hg vs. -4.3 +/- 8.8 mm Hg; p = 0.0001) and the pulmonary

vascular resistance (-447 +/- 340 dynes x s x cm(-5) vs. -183 +/- 305 dyne x s x

cm(-5); p < 0.0001). Furthermore, aerosolized iloprost caused a significantly

greater increase of the cardiac output compared with NO (+0.7 +/- 0.6 liter/min

vs. +0.3 +/- 0.4 liter/min; p = 0.0002) and had a more pronounced effect on the

mixed-venous oxygen saturation (p = 0.003). CONCLUSIONS: During acute drug

testing, aerosolized iloprost was more potent than inhaled NO as a pulmonary

vasodilator in PPH at the doses used in this study.

 

 

 

Chest 2000 Jan;117(1):14-8

 

Epoprostenol for treatment of pulmonary hypertension in patients with systemic

lupus erythematosus.

 

Robbins IM, Gaine SP, Schilz R, Tapson VF, Rubin LJ, Loyd JE

 

Center for Lung Research, Department of Medicine (Drs. Robbins and Loyd),

Vanderbilt University School of Medicine, Nashville, TN 37232, USA.

Ivan.Robbins@mcmail.vanderbilt.edu

 

OBJECTIVE: Pulmonary hypertension with pathological changes similar to those

observed in primary pulmonary hypertension occurs in patients with systemic

lupus erythematosus (SLE). The efficacy of chronic epoprostenol therapy in SLE

has not been well described. The objective of this paper is to describe our

experience with long-term epoprostenol therapy in patients with pulmonary

hypertension associated with SLE. DESIGN: Case series of six patients with SLE

and associated pulmonary hypertension receiving chronic treatment with

epoprostenol. RESULTS: All 6 patients had severe pulmonary hypertension. Mean

pulmonary artery pressure (mPAP) was 57 +/- 9 mm Hg (mean +/- SD), and pulmonary

vascular resistance was 14 +/- 7 units before beginning therapy with

epoprostenol. In 4 patients who underwent repeat hemodynamic evaluation (9 to 16

months after starting epoprostenol), mean pulmonary artery pressure decreased by

38 +/- 21% and pulmonary vascular resistance by 58 +/- 12%. Clinically, all

patients improved from New York Heart Association class III or IV to class I or

II. Doses of epoprostenol ranged from 4 to 46 ng/kg/min, and the longest

duration of therapy has been 2.5 years. Side effects from epoprostenol have not

differed from those seen in patients with primary pulmonary hypertension, and

except for one patient, there has been no exacerbation of SLE. CONCLUSION:

Epoprostenol was effective for the treatment of pulmonary hypertension in this

small group of patients with SLE. Further evaluation of epoprostenol therapy for

patients with SLE and other diseases associated with pulmonary hypertension is

warranted.

 

 

 

Chest 1999 Oct;116(4):914-20

 

Effects of long-term infusion of prostacyclin on exercise performance in

patients with primary pulmonary hypertension.

 

Wax D, Garofano R, Barst RJ

 

Division of Pediatric Cardiology, Columbia University College of Physicians and

Surgeons, New York, NY. d-wax@nwu.edu

 

STUDY OBJECTIVES: To determine whether long-term IV prostacyclin (PGI(2)) use

improves exercise capacity in patients with primary pulmonary hypertension

(PPH). DESIGN: Cycle ergometry and the 6-min walk was used to evaluate the

exercise performance of patients with PPH. The patients underwent serial

exercise testing after starting continuous IV PGI(2) and were followed up for

19.5 +/- 7.5 months. Peak work, peak oxygen consumption (f1.gif"

BORDER="0">O(2)), peak O(2) pulse, and distance walked in 6 min were used to

evaluate performance. BACKGROUND: PPH is characterized by medial hypertrophy and

intimal proliferation of the pulmonary arterioles, leading to elevation of

pulmonary artery pressure, right ventricular failure, and death. Palliative

treatment consists of vasodilators, anticoagulants, cardiac glycosides,

diuretics, and transplantation. PGI(2), a potent vasodilator and inhibitor of

platelet aggregation, has been used for long-term treatment when conventional

therapy has been unsuccessful. PATIENTS: Sixteen patients with PPH (10 women, 6

men; mean age, 24 years). RESULTS: At the initiation of PGI(2), peak work (+/-

SD) was 35.5 +/- 11% of predicted; peak f1.gif" BORDER="0">O(2), 39 +/- 10.4%;

peak O(2) pulse, 5.0 +/- 1.7 mL/min; and distance on the 6-min walk, 428 +/- 78

feet. At 18 to 27 months, peak work increased to 58.8 +/- 23% of predicted (p =

0.001), peak f1.gif" BORDER="0">O(2) increased to 52 +/- 15% of predicted (p =

0. 02), peak O(2) pulse increased to 7.1 +/- 3.0 mL/beat (p = 0.004), and

performance on the 6-min walk increased to 526 +/- 62 feet (p = 0.001). There

was a positive correlation between peak f1.gif" BORDER="0">O(2) and peak 6-min

walk of 0.6 (p < 0.005) and between peak work and peak 6-min walk of 0.6 (p <

0.005). CONCLUSIONS: Exercise capacity improved in our patients at up to 27

months of follow-up. Exercise testing is helpful in assessing the functional

capacity of patients with PPH and may be useful in guiding therapy. Patients who

deteriorate while receiving optimal conventional therapy should be considered

for IV PGI(2) therapy.

 

 

 

 

J Am Coll Cardiol 1999 Oct;34(4):1184-7

 

The effects of chronic prostacyclin therapy on cardiac output and symptoms in

primary pulmonary hypertension.

 

Rich S, McLaughlin VV

 

Department of Medicine, Rush University Medical College, Chicago, Illinois, USA.

srich@rush.edu

 

OBJECTIVES: This study evaluated the response to prostacyclin dose reduction in

patients with primary pulmonary hypertension (PPH) who developed high cardiac

outputs. BACKGROUND: Patients on prostacyclin require chronic upward dose

titration to overcome tolerance to the medication. No upper limit of effective

dose has been described. METHODS: We studied 12 patients with PPH treated with

chronic prostacyclin therapy who presented in high cardiac output states. Each

patient underwent prostacyclin dose reduction under hemodynamic guidance

targeted to reduce the cardiac index to < or =4 liter/min/M2, unless rebound

pulmonary hypertension occurred. Following dose reduction, patients were

observed for changes in the effectiveness of the prostacyclin. RESULTS: Patients

were treated for 39 +/- 20 months, resulting in a 71% reduction in pulmonary

vascular resistance compared to baseline. At the time of their most recent

evaluation their cardiac outputs were increased to 10.1 +/- 2.3 liter/min. The

patients underwent a 39% dose reduction (range 12% to 78%) resulting in a change

of mean PAP from 45 to 46 mm Hg (p = NS), cardiac index from 7.4 +/- 1.4 to 4

+/- 0.74 liter/min/M2 (p = 0.01), and pulmonary vascular resistance from 3.7 +/-

1.7 to 4.7 +/- 1.5 units (p < 0.001). In no instance did rebound pulmonary

hypertension occur. However, the patients all retained their clinical benefit

without a return of tolerance. CONCLUSIONS: Excessive prostacyclin in PPH can

lead to a high cardiac output state, suggesting it has important positive

inotropic effects. In this circumstance, reducing the dose can allow the cardiac

output to return to normal without worsening the clinical state.

 

 

Prognosis

 

Chest 2000 Mar;117(3):796-800

 

Mortality from primary pulmonary hypertension in the United States, 1979-1996.

 

Lilienfeld DE, Rubin LJ

 

Department of Medicine, School of Medicine (Dr. Rubin), University of California

at San Diego, USA. David.Lilienfeld@bms.com

 

STUDY OBJECTIVES: To determine whether primary pulmonary hypertension mortality

in the United States increased since 1979 coincident with the introduction of

anorexigens. DESIGN: Examination of annual age-adjusted and age-specific primary

pulmonary hypertension mortality in the United States from 1979 through 1996 and

in five selected states from 1992 through 1996. SETTING: The United States, from

1979 through 1996. PATIENTS OR PARTICIPANTS: Residents of the United States,

from 1979 through 1996. INTERVENTIONS: None. MEASUREMENTS AND RESULTS: Annual

age-adjusted mortality increased at different rates among white men and women

and black men and women. The greatest increase was among black women (who also

had the highest rates). Age-specific mortality showed a high rate among infants

< 1 year old, a low rate in childhood, and an ascending rate throughout the

remainder of life. Similar patterns were identified at the state level.

CONCLUSIONS: Primary pulmonary hypertension mortality in the United States has

increased notably since 1979. Some portion of this increase may be related to

the introduction of anorexigens. Improvements in diagnostic recognition may also

explain part of the increase in mortality. These results need to be confirmed in

a diagnosis validation study, particularly because the same mortality data

suggest that the disease may be more common in the elderly than has been

previously reported.

 

 

Am J Respir Crit Care Med 2000 Feb 1;161(2 Pt 1):487-492

 

Clinical Correlates and Prognostic Significance of Six-minute Walk Test in

Patients with Primary Pulmonary Hypertension. Comparison with cardiopulmonary

exercise testing.

 

Miyamoto S, Nagaya N, Satoh T, Kyotani S, Sakamaki F, Fujita M, Nakanishi N,

Miyatake K

 

Division of Cardiology, Department of Medicine, National Cardiovascular Center,

Osaka; and College of Medical Technology, Kyoto University, Kyoto, Japan.

 

 

The six-minute walk test is a submaximal exercise test that can be performed

even by a patient with heart failure not tolerating maximal exercise testing. To

elucidate the clinical significance and prognostic value of the six-minute walk

test in patients with primary pulmonary hypertension (PPH), we sought (1) to

assess the relation between distance walked during the six-minute walk test and

exercise capacity determined by maximal cardiopulmonary exercise testing, and

(2) to investigate the prognostic value of the six-minute walk test in

comparison with other noninvasive parameters. The six-minute walk test was

performed in 43 patients with PPH, together with echocardiography, right heart

catheterization, and measurement of plasma epinephrine and norepinephrine.

Symptom-limited cardiopulmonary exercise testing was performed in a subsample of

patients (n = 27). Distance walked in 6 min was significantly shorter in

patients with PPH than in age- and sex-matched healthy subjects (297 +/- 188

versus 655 +/- 91 m, p < 0.001). The distance significantly decreased in

proportion to the severity of New York Heart Association functional class. The

distance walked correlated modestly with baseline cardiac output (r = 0.48, p <

0.05) and total pulmonary resistance (r = -0.49, p < 0.05), but not

significantly with mean pulmonary arterial pressure. In contrast, the distance

walked correlated strongly with peak V O(2) (r = 0.70, p < 0.001), oxygen pulse

(r = 0.57, p < 0.01), and V E-VCO(2) slope (r = -0.66, p < 0.001) determined by

cardiopulmonary exercise testing. During a mean follow-up period of 21 +/- 16

mo, 12 patients died of cardiopulmonary causes. Among noninvasive parameters

including clinical, echocardiographic, and neurohumoral parameters, only the

distance walked in 6 min was independently related to mortality in PPH by

multivariate analysis. Patients walking < 332 m had a significantly lower

survival rate than those walking farther, assessed by Kaplan-Meier survival

curves (log-rank test, p < 0.01). These results suggest that the six-minute walk

test, a submaximal exercise test, reflects exercise capacity determined by

maximal cardiopulmonary exercise testing in patients with PPH, and it is the

distance walked in 6 min that has a strong, independent association with

mortality. Miyamoto S, Nagaya N, Satoh T, Kyotani S, Sakamaki F, Fujita M,

Nakanishi N, Miyatake K. Clinical correlates and prognostic significance of

six-minute walk test in patients with primary pulmonary hypertension: comparison

with cardiopulmonary exercise testing.

 

 

J Am Coll Cardiol 1997;30:343-9

 

Primary Pulmonary Hypertension: Improved Long-Term Effects and Survival With Continuous Intravenous Epoprostenol Infusion

 

Shelley M. Shapiro, MD, PhD, FACC, Ronald J. Oudiz, MD, Tiesheng Cao, MD, Matthew A. Romano, BA, X. Joy Beckmann, Demitrios Georgiou, MD, FACC, Sarathy Mandayam, MD, Leonard E. Ginzton, MD, FACC, Bruce H.

Brundage, MD, FACC

 

Torrance, Los Angeles, Long Beach and Loma Linda, California; Xi'an, People's Republic of China; and New York, New York.

 

 

Objectives. This study sought to determine the long-term effects of continuous infusion of epoprostenol (epo) therapy on survival and pulmonary artery pressure in patients with primary pulmonary hypertension (PPH).

Background. PPH is a progressive disease for which there are few effective therapies.  Methods. Patients with PPH and New York Heart Association functional class III or IV symptoms of congestive heart failure

underwent right heart catheterization and Doppler-echocardiography to measure the maximal systolic pressure gradient between the right ventricle and right atrium (P) and cardiac output (CO). Doppler-echocardiography and catheterization data were compared. Patients were followed up long term with Doppler-echocardiography.

Results. Of 69 patients who went on to receive epo, 18 were followed up for >330 days (range 330 to 700). During long-term follow-up, there was a significant reduction in P, which decreased from 84.1 ± 24.1 to 62.7 ± 18.2 (mean ± SD, p < 0.01). A Kaplan-Meier plot of survival of our study patients demonstrated improved survival compared with that of historical control subjects. The 1-, 2- and 3-year survival rates for our patients were 80% (n = 36), 76% (n = 22) and 49% (n = 6) compared with 10- (88%, n = 31), 20- (56%, n = 27) and 30-month (47%, n = 17) survival rates in historical control subjects. Conclusions. Patients receiving continuous infusion of epo for treatment of PPH experience a decrease in pulmonary artery

pressure. Long-term follow-up of this single-center patient group demonstrated improved long-term survival during epo therapy compared with that in historical control subjects and confirms predicted improved outcomes based on shorter follow-up periods.

 

 

Biochemistry & Genetics

 

Am J Respir Crit Care Med 2000 Mar;161(3 Pt 1):1055-9

 

Fine mapping of PPH1, a gene for familial primary pulmonary hypertension, to a

3-cM region on chromosome 2q33.

 

Deng Z, Haghighi F, Helleby L, Vanterpool K, Horn EM, Barst RJ, Hodge SE, Morse

JH, Knowles JA

 

Departments of Genetics and Development, Medicine, Pediatrics, and Psychiatry,

and Columbia Genome Center, College of Physicians and Surgeons, Columbia

University; Division of Biostatistics, School of Public Health, Columbia

University; and New Yo.

 

Familial primary pulmonary hypertension (PPH) is a rare autosomal dominant

disease characterized by distinctive changes in pulmonary arterioles that lead

to increased pulmonary artery pressures, right ventricular failure, and death.

Our previous studies had mapped the disease locus, PPH1, to a 27-cM region on

chromosome 2q31-q33, with a maximum multipoint logarithm of the odds favoring

genetic linkage score of 3.87 with markers D2S350 and D2S364. To narrow the

minimal genetic region for PPH, we physically mapped 33 highly polymorphic

microsatellite markers and used them to genotype 44 affected individuals and 133

unaffected individuals from 17 families with PPH. We observed recombination

events that substantially reduced the interval for PPH1 to the approximately

3-cM region that separates D2S311 and D2S1384. This entire region lies within

chromosome 2q33. A maximum two-point lod score of 7.23 at a recombination

fraction of zero was obtained for marker D2S307. A maximum multipoint lod score

of 7.41 was observed close to marker D2S1367. The current minimal genetic region

contains multiple candidate genes for PPH, including a locus thought to play a

role in lung cancer. Deng Z, Haghighi F, Helleby L, Vanterpool K, Horn EM, Barst

RJ, Hodge SE, Morse JH, Knowles JA. Fine mapping of PPH1, a gene for familial

primary pulmonary hypertension, to a 3-cM region on chromosome 2q33.

 

 

 

 

 

 

Cardiovasc Res 1999 Nov;44(2):274-82

 

Role of endothelial and smooth muscle cells in the physiopathology and treatment

management of pulmonary hypertension.

 

Veyssier-Belot C, Cacoub P

 

Service de Medecine Interne, CHI Poissy-Saint Germain, France.

 

Pulmonary hypertension can occur either as primary or secondary disease

following cardiac or pulmonary illnesses. In either cases, histological lung

biopsies reveal vascular remodelling i.e. smooth muscle cells proliferation with

medial hypertrophy, arteriolar muscularization and endothelial cell

proliferation. Subsequent intimal thickening, fibrosis and in situ thrombosis,

altogether lead to vaso-occlusive alterations referred to as plexiform lesions.

Theories concerning the detailed physiopathology of pulmonary hypertension have

focused on endothelial and smooth muscle cells' chemical factors production and

response to different mediators. The endothelium produces vasoconstrictor and

growth-promoting factor such as endothelin-1 (ET-1) as well as vasodilator and

growth-inhibitor factors like prostacyclin and nitric oxide (NO). ET-1 has been

noted in high concentrations in some clinical cases and experimental models of

pulmonary hypertension, coupled with ET-1 receptors' modulation and altered

endothelin converting enzyme activities, suggesting their active role in both

arteriolar vasoconstriction and occlusion. Vascular thrombosis which has been

noted by pathologists in pulmonary hypertension, could be related to an

imbalance between thrombotic inducing factors (such as anti-phospholipid

antibodies, ET-1 and thromboxane) and decreased fibrinolytic activity and

antiaggregant endothelial factors (like prostacyclin, NO, thrombomodulin). The

discovery of an endothelial cells' monoclonal proliferation in plexiform lesions

of patients with primary pulmonary hypertension may reinforce the cellular

proliferation hypothesis to understand the histopathology of this disease. In

view of these new findings, the treatments available for pulmonary hypertension

have been expanded from the previously employed oxygen therapy, calcium-channel

blockers and anticoagulants, to intravenous prostacyclin analogues

(epoprostenol) and inhaled nitric oxide.

 

 

 

 

 

Circulation 1999 Jun 29;99(25):3266-71

 

Continuous infusion of epoprostenol improves the net balance between pulmonary

endothelin-1 clearance and release in primary pulmonary hypertension.

 

Langleben D, Barst RJ, Badesch D, Groves BM, Tapson VF, Murali S, Bourge RC,

Ettinger N, Shalit E, Clayton LM, Jobsis MM, Blackburn SD, Crow JW, Stewart DJ,

Long W

 

Division of Cardiology, Sir Mortimer B. Davis Jewish General Hospital, Montreal,

Canada. mddl@musica.mcgill.ca

 

BACKGROUND: Primary pulmonary hypertension results from progressive narrowing of

the precapillary pulmonary vasculature. A variety of endothelial abnormalities

have been identified, including a net reduction in pulmonary clearance of the

vasoconstrictor and smooth muscle mitogen endothelin-1. In many patients, net

pulmonary release of endothelin-1 is observed. Chronic infusions of epoprostenol

(prostacyclin) improve functional capacity, survival, and hemodynamics in

patients with advanced primary pulmonary hypertension. We hypothesized that the

epoprostenol infusions, as compared with conventional therapy, might alter the

abnormal pulmonary endothelin-1 homeostasis. METHODS AND RESULTS: Using a subset

of patients from a larger randomized study comparing epoprostenol plus

conventional therapy (n=11 in the present study) with conventional therapy alone

(n=7 in the present study), we determined the ratio of plasma endothelin-1

levels in systemic arterial blood leaving the lung to levels in mixed venous

blood entering the lung both before randomization and after 88 days of

continuous therapy. There were no differences between the 2 groups before

therapy, but by day 88, the epoprostenol-treated group had a greater proportion

of patients (82%) with an arterial/venous ratio <1 than did the conventional

therapy group, in which only 29% of patients had a ratio <1 (P<0.05).

CONCLUSIONS: These results suggest that continuous epoprostenol therapy may have

a beneficial effect on the balance between endothelin-1 clearance and release in

many patients with primary pulmonary hypertension and may provide one

explanation for the salutary effect of epoprostenol in this disease.

 

 

 

 

Anticoagulation

 

J Lab Clin Med 1999 Dec;134(6):561-6

 

Prothrombotic mechanisms in primary pulmonary hypertension.

 

Farber HW, Loscalzo J

 

Whitaker Cardiovascular Institute, Pulmonary Center, Boston University School of

Medicine, MA 02118, USA.

 

Pulmonary hypertensive states are associated with an increased propensity for

thrombosis. This prothrombotic state appears to be a result of pulmonary

hypertension promoting endothelial dysfunction and altered hemodynamic status.

In some patients with primary pulmonary hypertension, however, a primary

prothrombotic state directly induces the pulmonary hypertensive state. This

review focuses on the evidence for the association between prothrombotic states,

especially increased platelet activation, and the development of pulmonary

hypertension.

 

 

 

 

Echocardiography

 

Chest 1999 Nov;116(5):1218-23

 

Echocardiographic predictors of an adverse response to a nifedipine trial in

primary pulmonary hypertension: diminished left ventricular size and leftward

ventricular septal bowing.

 

Ricciardi MJ, Bossone E, Bach DS, Armstrong WF, Rubenfire M

 

Division of Cardiology, Department of Internal Medicine, University of Michigan

Medical Center, Ann Arbor, MI, USA.

 

BACKGROUND: The clinical course in primary pulmonary hypertension (PPH) is

improved by calcium channel blocker therapy in those with a favorable

hemodynamic response during a trial of high-dose oral nifedipine. Although

trials of nifedipine are performed only in patients who demonstrate pulmonary

vasodilator reserve to short-acting agents, this response does not predict the

safety of nifedipine treatment, which can result in severe first-dose

hypotension and death. Study objectives: To identify echocardiographic

parameters that predict first-dose nifedipine-induced hypotension in patients

with PPH. METHODS: The pretrial echocardiograms of 23 consecutive PPH patients

(mean age, 42.3 +/- 13 years; 77% female) undergoing evaluation of pulmonary

vasodilator reserve with nifedipine were analyzed. Patients were classified as

those who suffered first-dose nifedipine hypotension (group 1) and those who did

not (group 2). Echocardiographic measures of chamber size and septal geometry in

the two groups were compared. RESULTS: Five measures reflecting diminished left

ventricular (LV) size and leftward ventricular septal bowing were found to be

associated with nifedipine hypotension: LV transverse diameter in systole (LVDs;

p = 0.007), LV transverse diameter in diastole (LVDd; p = 0.05), LV area in

systole (LVAs; p = 0.009), LV area in diastole (LVAd; p = 0.03), the ratio of RV

to LVAs (p = 0. 02), and leftward ventricular septal bowing (p = 0.01). The LV

dimensions found to best predict nifedipine-induced hypotension were LVDs < 2.7

cm, LVDd < 4.0 cm, LVAs < 15.5 cm(2), and LVAd < 20.0 cm(2). CONCLUSIONS:

Readily available echocardiographic parameters in patients with PPH are

predictive of nifedipine-induced hypotension, and can be used to select patients

in whom a trial of nifedipine should be avoided.

 

 

 

 

J Am Soc Echocardiogr 1999 Aug;12(8):655-62

 

Echocardiographic features of primary pulmonary hypertension.

 

Bossone E, Duong-Wagner TH, Paciocco G, Oral H, Ricciardi M, Bach DS, Rubenfire

M, Armstrong WF

 

Division of Cardiology, Department of Internal Medicine, University of Michigan,

Ann Arbor, USA.

 

Primary pulmonary hypertension (PPH) is essentially a diagnosis of exclusion and

usually is made late because of the nonspecific nature of the early signs and

symptoms. Echocardiography is a key screening test in the diagnostic algorithm

of patients with suspected PPH. The purpose of this study was to define the

echocardiographic Doppler features in patients with PPH at the time of

diagnosis. From 1992 to 1997, 51 patients were diagnosed with PPH at our

institution. All underwent a standardized transthoracic echocardiographic

examination, including a contrast study and transthoracic echocardiographic

examination if indicated. Pulmonary artery systolic pressure was calculated from

the tricuspid regurgitation jet. The majority of patients had pulmonary artery

systolic pressure greater than 60 mm Hg (96%) associated with systolic

flattening of the interventricular septum (90%), enlarged right atrium (92%) and

ventricle (98%), and reduced right ventricular systolic function (76%). There

was an increase in the interventricular septal thickness (>1.2 cm) in 21 (43%)

of 49 patients, accompanied by a septal/posterior wall ratio greater than 1.3 in

11 (22%) of 49. Although a reduction in both left ventricular systolic and

diastolic volumes was noted, global left ventricular systolic function was

preserved in all patients. Mitral E/A ratio was less than 0.7 in 7 (22%)

patients studied. Color Doppler revealed moderate to severe tricuspid

regurgitation and pulmonic insufficiency in 41 (80%) of 51 and 16 (31%) of 51 of

cases, respectively. Pericardial effusion (7 small and 1 moderate) and patent

foramen ovale (n = 12) were also frequently detected. At the time of initial

diagnosis, PPH is associated with secondary cardiac abnormalities in the

majority of patients.

 

 

 

Liver Disease

 

Indian J Gastroenterol 1999 Oct-Nov;18(4):158-60

 

Primary pulmonary hypertension in cirrhosis of liver.

 

Sen S, Biswas PK, Biswas J, Das TK, De BK

 

Department of Medicine, Institute of Post Graduate Medical Education and

Research, Calcutta.

 

BACKGROUND: Primary pulmonary hypertension (PPH) is a grave association of

portal hypertension, and is potentially fatal in liver transplant candidates.

AIM: To investigate the prevalence of PPH among cirrhotics with portal

hypertension. METHODS: 43 cirrhotics with portal hypertension (Child B 22, C

14), after screening for cardiopulmonary diseases, were evaluated by hemodynamic

study. RESULTS: PPH was detected in 2 cases (4.7%), both in Child B, hepatitis B

and C viruses being the etiologies. Neither had portal axis thrombosis. Two

other cases also had pulmonary hypertension, but with high pulmonary capillary

wedge pressure (PCWP). The 41 cases without and 2 cases with PPH had,

respectively, mean pulmonary artery pressure (MPAP) 16.3 (5.9) mmHg, 26 mmHg and

33 mmHg; PCWP 11.5 (6.7) mmHg, 12 mmHg and 11 mmHg; transpulmonary pressure

gradient 4.8 (2.6) mmHg (n = 27), 14 mmHg and 22 mmHg; and pulmonary vascular

resistance 80.2 (55.8) dyne.sec.cm-5 (n = 27), 155.6 dyne.sec.cm-5 and 366.7

dyne.sec.cm-5. No correlation of MPAP was found with either Child-Pugh scoring

(r2 = 0.0347) or with hepatic venous pressure gradient (r2 = 0.0021).

CONCLUSION: PPH has a prevalence of 4.7% among cirrhotics with portal

hypertension; it bears no relation with severity of liver disease.

 

 

 

New Therapies

 

 

Ann Intern Med 2000 Mar 21;132(6):435-43

 

Inhaled iloprost to treat severe pulmonary hypertension. An uncontrolled trial.

German PPH Study Group.

 

Olschewski H, Ghofrani HA, Schmehl T, Winkler J, Wilkens H, Hoper MM, Behr J,

Kleber FX, Seeger W

 

Department of Internal Medicine II, Justus-Liebig-University, Giessen, Germany.

 

BACKGROUND: Inhaled aerosolized iloprost, a stable prostacyclin analogue, has

been considered a selective pulmonary vasodilator in the management of pulmonary

hypertension. OBJECTIVE: To assess the efficacy of inhaled iloprost in the

treatment of life-threatening pulmonary hypertension. DESIGN: Open,

uncontrolled, multicenter study. SETTING: Intensive care units and pulmonary

hypertension clinics at six university hospitals in Germany. PATIENTS: 19

patients who had progressive right-heart failure despite receiving maximum

conventional therapy (12 with primary pulmonary hypertension, 3 with pulmonary

hypertension related to collagen vascular disease without lung fibrosis, and 4

with secondary pulmonary hypertension). INTERVENTION: Inhaled iloprost, 6 to 12

times daily (50 to 200 microg/d). MEASUREMENTS: Right-heart catheterization and

distance walked in 6 minutes at baseline and after 3 months of therapy. RESULTS:

During the first 3 months of therapy, New York Heart Association functional

class improved in 8 patients and was unchanged in 7 patients. Four patients

died, 3 of right-heart failure and 1 of sepsis. The acute hemodynamic response

to inhaled iloprost was predominant pulmonary vasodilatation with little

systemic effect at baseline and at 3 months (data available for 12 patients).

Hemodynamic variables were improved at 3 months, and the distance walked in 6

minutes improved by 148 m (95% CI, 4.5 to 282 m; P = 0.048). Of the 15 patients

who continued to use inhaled iloprost, 8 stopped: Four had lung transplantation,

1 switched to intravenous prostacyclin therapy, and 3 died. Seven patients are

still receiving inhaled iloprost (mean +/-SD) duration of therapy, 536 +/- 309

days; mean dosage, 164 +/- 38 microg/d). CONCLUSIONS: Inhaled iloprost may offer

a new therapeutic option for improvement of hemodynamics and physical function

in patients with life-threatening pulmonary hypertension and progressive

right-heart failure that is refractory to conventional therapy.

 

 

 

 

 

J Am Coll Cardiol 1999 Oct;34(4):1188-92

 

Effect of orally active prostacyclin analogue on survival of outpatients with

primary pulmonary hypertension.

 

Nagaya N, Uematsu M, Okano Y, Satoh T, Kyotani S, Sakamaki F, Nakanishi N,

Miyatake K, Kunieda T

 

Department of Medicine, National Cardiovascular Center, Suita, Osaka, Japan.

 

OBJECTIVES: This study sought to investigate the effect of beraprost sodium

(BPS), an orally active prostacyclin analogue, on the survival of outpatients

with primary pulmonary hypertension (PPH). BACKGROUND: Continuous intravenous

administration of epoprostenol (prostacyclin) has been shown to improve survival

in PPH. However, the effect of oral BPS on survival in PPH remains unknown.

METHODS: Fifty-eight consecutive patients with PPH who could be discharged after

the first diagnostic catheterization for PPH were retrospectively divided into

two groups: patients treated with BPS (BPS group, n = 24) and those without BPS

(conventional group, n = 34). The baseline demographic and hemodynamic data did

not significantly differ between the two. RESULTS: Twenty-seven patients died of

cardiopulmonary causes in the conventional group during a mean follow-up period

of 44 +/- 45 months. In contrast, only 4 patients died of cardiopulmonary causes

in the BPS group during a mean follow-up period of 30 +/- 20 months. In a

subsample (n = 15) of patients in the BPS group, mean pulmonary arterial

pressure and total pulmonary resistance significantly decreased, respectively,

by 13% and 25% during a mean follow-up period of 53 days. Among the variables

previously known to be associated with the mortality in PPH, the absence of BPS

therapy and the reduced cardiac output were independently related to the

mortality by a multivariate Cox proportional hazards regression analysis (both p

< 0.05). The Kaplan-Meier survival curves demonstrated that the one-, two- and

three-year survival rates for the BPS group were 96%, 86% and 76%, respectively,

as compared with 77%, 47% and 44%, respectively, in the conventional group

(log-rank test, p < 0.05). CONCLUSIONS: The oral administration of BPS may have

beneficial effects on the survival of outpatients with PPH as compared with

conventional therapy alone.

 

 

 

 

Transplantation

Ann Thorac Surg 1999 Apr;67(4):937-41; discussion 941-2

 

Heart-lung transplantation for primary pulmonary hypertension.

 

Whyte RI, Robbins RC, Altinger J, Barlow CW, Doyle R, Theodore J, Reitz BA

 

Department of Cardiothoracic Surgery, Stanford University, California 94305,

USA. riwhyte@leland.stanford.edu

 

BACKGROUND: The operation of choice for primary pulmonary hypertension remains

controversial, as heart-lung transplantation, single-lung transplantation, and

double-lung transplantation have all been advocated. METHODS: We reviewed our

institution's experience with heart-lung transplantation for primary pulmonary

hypertension. RESULTS: Thirty-nine patients had heart-lung transplantation for

primary pulmonary hypertension. Operative mortality rate was 18%, and actuarial

survival was 72% at 1 year, 67% at 2 years, and 42% at 5 years. Freedom from

obliterative bronchiolitis was 91% at 1 year, 83% at 2 years, and 70% at 5

years. Freedom from obliterative bronchiolitis-related death was 100% at 1 year,

90% at 2 years, and 87% at 5 years. Freedom from accelerated graft coronary

disease was 92% at 5 years. The most frequent causes of death were infection,

obliterative bronchiolitis, and accelerated graft coronary disease. CONCLUSIONS:

Heart-lung transplantation results in survival comparable to that reported for

single or double lung transplantation. Obliterative bronchiolitis is a

significant cause of late death but seems to occur less frequently with

heart-lung transplantation than with lung transplantation alone. Accelerated

coronary graft disease is rare in the first 5 years after transplantation.