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No association of the hypercoagulable state with sickle cell disease related pulmonary hypertension

¹ Department of Haematology, Academic Medical Center, Amsterdam, the Netherlands
² Department of Internal Medicine, Laboratory for Clinical Thrombosis and Haemostasis, Maastricht University, Maastricht, the Netherlands
³ Department of Immunology, Red Cross Blood Bank Foundation, Curaçao, Netherlands Antilles
⁴ Department of Internal Medicine, Slotervaart Hospital, Amsterdam, the Netherlands
⁵ Department of Haematology, Erasmus Medical Center, Rotterdam, the Netherlands

Correspondence: J.B. Schnog, M.D., PhD, Department of Haematology, Erasmus Medical Center, ’s-Gravendijkwal 230, 3015 CE, Rotterdam, The Netherlands. Phone: international +31.10.4633740. Fax: international +31.10.4635814. E-mail: jbschnog{at}mac.com

Key words: sickle cell, haemostasis, pulmonary hypertension.

Pulmonary hypertension (PHT) occurs in approximately 30% of adult patients with sickle cell disease (SCD) and is a risk factor for early death.¹ Hypercoagulability has been linked to PHT in general and pulmonary artery thrombosis contributes to PHT progression regardless of its cause.² Sickle cell patients are characterized by a hypercoagulable state³ and both autopsy⁴ and imaging studies⁵ in sickle cell patients with moderate to severe PHT suggest a role of pulmonary artery thrombosis (albeit in situ thrombosis or pulmonary embolism) in SCD-related PHT. However, in a series of 78 consecutive adult sickle cell patients, large to medium sized pulmonary artery thrombosis was ruled out with VQ scintigraphy in 25 of 26 sickle cell patients with mostly mild PHT, suggesting that pulmonary artery thrombosis is probably a late event.⁶ Nonetheless, organized thrombi in small pulmonary arteries, especially in association with obliterating vessel wall changes,⁴ may remain undetected with VQ scintigraphy. To further investigate the potential role of the hypercoagulable state in SCD related PHT sensitive markers of haemostasis were determined in sickle cell patients screened for PHT.

Study design is extensively reported elsewhere.⁶ Consecutive outpatients were screened for PHT with trans-thoracic echocardiography with mild and moderate-severe PHT defined as a tricuspid regurgitant jet flow velocity (TRV) of 2.5–2.9 m/s and 3m/s, respectively.¹ The study was carried out in accordance with the principles of the Declaration of Helsinki. Venous blood (3.2% citrate) was collected from the antecubital vein and platelet-poor plasma was prepared by two-step centrifugation (4000 rpm, 15 min followed by 10000 rpm, 5 min).

Endogenous thrombin potential (ETP) was determined with the Calibrated Automated Thrombogram (Thrombinoscope BV, Maastricht, The Netherlands) in a 96-well plate fluorometer (Ascent Reader, Thermolabsystems OY, Helsinki, Finland). Thrombin generation was triggered with 1 pM recombinant relipidated tissue factor (rTF) and 4 µM phosphatidylserine/phosphatidylcholine/phosphatidylethanolamine vesicles in HEPES-buffered saline in presence and absence of thrombomodulin (kind gift from Prof. C. Hemker, Synapse BV, Maastricht, the Netherlands) added at a concentration that upon addition to normal pool plasma would reduce the ETP with 50%).⁷

Prothrombin fragment 1+2 (F1+2), soluble tissue factor (ELISA; Behring, Marburg, Germany), D-dimers (TintElize D-Dimer assay, Trinity Biotech, Kordia Life Sciences), and plasminogen activator inhibitor-1 activity (PAI-1:act, Chromolize, Trinity Biotech) were measured according to manufacturer’s procedures.

For statistical analysis, HbSS and HbSβ⁰-thalassemia patients were grouped together, as were HbSβ⁺-thalassemia and HbSC patients. Between group differences were tested with the Mann-Whitney U test. For correlation studies the Spearman rank correlation coefficient (rs) was calculated. p values <0.05 were considered statistically significant (SPSS 12.0.2, SPSS Inc, Chicago, IL, USA).

Of 25 PHT patients, 23 had mild PHT. Only 3 HbSC/HbSβ⁺-thalassemia patients had PHT precluding between group statistical analysis (Table 1). No patients received blood transfusions in the weeks before study entry, use of hydroxyurea was not different between patients with or without PHT and no patients used anticoagulation, calcium antagonists, endothelin receptor blockers or sildenafil.

In line with the recent report by Ataga et al.,⁸ a modest but statistically significant correlation in especially HbSS/HbSβ⁰-thalassemia patients of the rate of hemolysis to haemostatic markers was detected (Table 2), identifying hemolysis as one of the potential driving forces of the hypercoagulable state in SCD, next to factors such as inflammation and endothelial tissue factor expression.³ Conceding the fact that no race matched controls were included in this study, a marked in vitro resistance to thrombomodulin was detected (as compared to historical controls)⁷ indicating functional protein C resistance, which is in accordance with reported reduced protein C and S levels in SCD.¹⁰ In interpreting these data several factors need to be considered. As right heart catheterization remains the gold standard diagnostic test for PHT, we cannot exclude the possibility PHT may have been missed or over-diagnosed in some patients. However, given the strong correlation between pulmonary artery pressure and the TRV in SCD,¹ we do not feel that lack of right heart catheterization significantly influences our results.

Taken together, even though hemolysis is one of the factors contributing to the hypercoagulable of SCD, and haemolysis is a risk factor for developing PHT, we could not demonstrate a direct link of the hypercoagulable state to mild SCD related PHT.

	Footnotes

 
* The CURAMA study group is a collaborative effort studying sickle cell disease in the Netherlands Antilles and the Netherlands. Participating centers: The Red Cross Blood Bank Foundation, Curaçao, Netherlands Antilles; The Antillean Institute for Health Research, Curaçao, Netherlands Antilles, The Department of Internal Medicine, Slotervaart Hospital, Amsterdam, the Netherlands; the Department of Vascular Medicine and the Department of Haematology, Academic Medical Center, Amsterdam, the Netherlands; the Department of Haematology, Erasmus Medical Center, Rotterdam, the Netherlands; the Department of Pathology, Groningen University Hospital, the Netherlands; the Department of Internal Medicine, Laboratory of Clinical Thrombosis and Haemostasis, and the Cardiovascular Research Institute, Academic Hospital Maastricht, the Netherlands.

	References

TOP References

 

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