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BRIEF REPORT
From the Section of Hematology and Oncology, Department
of Medicine, Boston Medical Center; and the Amyloid Research and
Treatment Program, Boston University School of Medicine, Boston, MA.
Acquired deficiency of factor X occurs in patients with systemic
amyloid light-chain (AL) amyloidosis, presumably due to adsorption of
factor X to amyloid fibrils. Of 368 consecutive patients with systemic
AL amyloidosis evaluated at Boston Medical Center, 32 patients (8.7%)
had factor X levels below 50% of normal. Eighteen of these patients
(56%) had bleeding complications, which were more frequent and severe
in the 12 patients below 25% of normal; 2 episodes were fatal. Ten
factor X-deficient patients received high-dose melphalan chemotherapy
followed by autologous stem cell transplantation. Of 7 patients
alive 1 year after treatment, 4 had a complete hematologic response,
and all 4 experienced improvement in their factor X levels. One of 2 additional patients with partial hematologic responses had
improvement in factor X. Thus, aggressive treatment of the underlying
plasma cell dyscrasia in AL amyloidosis can lead to the
amelioration of amyloid-related factor X deficiency.
(Blood. 2001;97:1885-1887) Acquired deficiency of factor X (Stuart factor) is
the most common coagulation factor deficiency that has been identified in patients with amyloid light-chain (AL) amyloidosis. This was first described in single case reports almost 30 years ago and confirmed in a series of 95 patients.1 Factor X deficiency is postulated to occur via the adsorption of factor X to amyloid fibrils.2,3 A total of 368 consecutive patients with
systemic AL amyloidosis were screened for factor X deficiency at our
institution. In this report, we describe the incidence of factor X
deficiency, the frequency and severity of hemorrhagic complications in
factor X-deficient patients, and the improvement of factor X levels
after treatment with high-dose melphalan and autologous stem cell
transplantation (HDM/ASCT).
Patients
Coagulation studies
Thirty-two of the 368 patients (8.7%) had factor X levels below
50% of normal. This incidence is slightly higher than the 6.3%
reported in a series of 95 patients,1 but lower than the 14% reported in another large series.6 Twenty-nine of the
32 patients had primary AL amyloidosis only, 2 patients had multiple myeloma with AL amyloidosis, and 1 had Waldenstrom's macroglobulinemia with AL amyloidosis. The median age of these 32 patients was 58 years
(range 38-77); the male:female ratio was 1.5:1. The light-chain isotype
was Significant bleeding events occurred in 18 (56%) of the 32 patients
(Table 1). Of the 20 patients with
moderate factor X deficiency (25%-50% of normal), 9 had hemorrhagic
complications (45%), of which 4 (20%) were classified as severe,
although only 1 of the 20 (5%) required a transfusion. Subcutaneous
hemorrhage was seen in 5 patients; 1 of these patients had developed an
abdominal wall hematoma subsequent to a laparoscopic ovarian cystectomy and required a transfusion. The other 4 patients had additional evidence of gastrointestinal or genitourinary hemorrhage.
Of the 12 patients with severe factor X deficiency (< 25% of normal), 9 had hemorrhagic complications (75%). Six events were characterized as severe (50%), and 2 were fatal (17%). Five of the 12 patients (42%) required transfusion of packed red cells. Hemorrhagic complications were associated with invasive procedures in 5 patients and involved significant subcutaneous hemorrhage in 4 patients. Two patients had gastrointestinal or genitourinary bleeding, and 2 patients had subcapsular splenic hemorrhages. For 1 of these patients, this was the presenting symptom, and the diagnosis of AL amyloidosis was made after splenectomy. The second patient developed intrasplenic hemorrhage necessitating splenectomy in the posttransplantation period. Clearly, the frequency and severity of hemorrhage was worse in the patients with the lowest factor X levels. Conversely, in the nonfactor X-deficient patients, serious hemorrhagic complications were rare in this patient population, although factor X deficiency is not the only cause of hemorrhage in patients with AL amyloidosis, who also suffer from capillary fragility because of amyloid deposition in the vessel walls, dysfibrinogenemia, abnormal platelet aggregation,1,6,7 and other factor deficiencies, including deficiencies of factors II, VII, IX,8 and V.9 Elevation of the thrombin time and Russell viper venom clotting time can be seen.10,11 Nephrotic syndrome was present in 11 of the 32 patients with factor X below 50% (24-hour urinary protein excretion ranging from 3.8 to 16.8 g). However, there was no statistical correlation between urinary protein losses and factor X levels (r2 = 0.18). Thus, factor X deficiency in AL amyloidosis is not a consequence of nephrotic protein losses. Liver function abnormalities were also present in 14 of the 32 patients with factor X below 50%. However, these were primarily modest elevations in alkaline phosphatase or bilirubin, consistent with the typical intrahepatic obstructive process caused by amyloid deposition; there was no laboratory or clinical evidence of significant hepatocellular damage or liver failure in these patients. Thus, the deficiency in factor X appears to be independent of hepatic disease and is unlikely to be due to a synthetic defect. Rather, as has been reported in the literature previously,2,3 it is likely that factor X is adsorbed to amyloid fibrils and sequestered from the plasma. Of the 32 patients with factor X deficiency, 10 were treated with
HDM/ASCT (Table 2). Two of these 10 patients succumbed with bleeding complications in the peritransplant
period despite attempts to maintain platelet counts above
50 × 109/L (50 000/mm3),
infusion of fresh frozen plasma, vitamin K therapy, and treatment with
prothrombin concentrates. One patient (no. 5 in Tables 1 and 2) with
combined deficiency of factors VII and X (52% and 16% of normal,
respectively) died of sepsis and massive gastrointestinal bleeding on
day 29 after transplantation. Another patient (no. 6), who had combined
deficiencies of factors V and X (5% and 16% of normal, respectively),
apparently died of hypoxemia due to pulmonary hemorrhage on day 15 after transplantation. A third patient (no. 16) died of a cardiac event
at 6 months after transplantation.
Of the 7 patients who survived more than 1 year, 4 achieved a hematologic complete response (CR; defined as absence of evidence of plasma cell dyscrasia or monoclonal gammopathy), 2 achieved a hematologic partial response (PR), and 1 patient had no improvement with treatment (no response, or NR). All of the 4 patients achieving a CR were found to have increased levels of factor X after treatment and experienced no further clinical bleeding; 1 patient achieving a hematologic PR experienced a normalization of the factor X level, while the other 2 patients (1 PR, 1 NR) had no improvement in factor X (Table 2). There are reports of isolated cases of AL amyloidosis in which resolution of acquired factor X deficiency occurs spontaneously,12 after treatment with oral melphalan,13,14 or after splenectomy.15,16 This series is the first in which the salutary impact of high-dose chemotherapy and stem cell transplantation upon factor X levels has been reported. In conclusion, our data suggest that all systemic AL amyloidosis patients should be screened for reduced factor X levels, because this occurs in a significant proportion of these patients and is associated with an increased hemorrhagic morbidity. High-dose melphalan chemotherapy can result in amelioration of the factor X deficiency; however, the risk of life-threatening peritransplant bleeding is high, particularly in patients with severe factor X deficiency or concomitant deficiency of other factors.
We gratefully acknowledge the numerous current and past colleagues in the Stem Cell Transplant Program, Amyloid Research and Treatment Program, Clinical Trials Office, and Clinical Laboratories at Boston Medical Center who assisted with the multidisciplinary evaluation and treatment of the patients with AL amyloidosis. D.C.S. is a Scholar of the Leukemia and Lymphoma Society.
Submitted August 29, 2000; accepted November 14, 2000.
Supported by grants from the Food and Drug Administration (FD-R-001346) and from the Gerry Foundation.
The publication costs of this article were defrayed in part by page charge payment. Therefore, and solely to indicate this fact, this article is hereby marked "advertisement" in accordance with 18 U.S.C. section 1734.
Reprints: David C. Seldin, 650 Albany St, Boston MA 02118; e-mail: dseldin{at}medicine.bu.edu.
1. Greipp PR, Kyle RA, Bowie EJ. Factor-X deficiency in amyloidosis: a critical review. Am J Hematol. 1981;11:443-450[Medline] [Order article via Infotrieve]. 2. Girmann G, Wilker D, Stadie H, Scheurlen PG. Acquired isolated factor X deficiency associated with systemic amyloidosis. Case report and review of literature. Klin Wochenschr. 1980;58:859-862[CrossRef][Medline] [Order article via Infotrieve]. 3. Furie B, Voo L, McAdam KP, Furie BC. Mechanism of factor X deficiency in systemic amyloidosis. N Engl J Med. 1981;304:827-830[Medline] [Order article via Infotrieve].
4.
Comenzo RL, Vosburgh E, Falk RH, et al.
Dose-intensive melphalan with blood stem-cell support for the treatment of AL (amyloid light-chain) amyloidosis: survival and responses in 25 patients.
Blood.
1998;91:3662-3670
5.
Comenzo RL, Vosburgh E, Simms RW, et al.
Dose-intensive melphalan with blood stem cell support for the treatment of AL amyloidosis: one-year follow-up in five patients.
Blood.
1996;88:2801-2806 6. Mumford AD, O'Donnell J, Gillmore JD, et al. Bleeding symptoms and coagulation abnormalities in 337 patients with AL-amyloidosis. Brit J Haem. 2000;110:454-460[CrossRef][Medline] [Order article via Infotrieve]. 7. Hoshino Y, Hatake K, Muroi K, et al. Bleeding tendency caused by the deposit of amyloid substance in the perivascular region. Intern Med. 1993;32:879-881[Medline] [Order article via Infotrieve]. 8. McPherson RA, Onstad JW, Ugoretz RJ, Wolf PL. Coagulopathy in amyloidosis: combined deficiency of factors IX and X. Am J Hematol. 1977;3:225-235[Medline] [Order article via Infotrieve].
9.
Gatel A, Cacoub P, Piette JC.
AL amyloidosis combined with acquired factor V deficiency [letter].
Ann Intern Med.
1998;128:604-605
10.
Gamba G, Montani N, Anesi E, et al.
Clotting alterations in primary systemic amyloidosis.
Haematologica.
2000;85:289-292
11.
Gastineau DA, Gertz MA, Daniels TM, Kyle RA, Bowie EJ.
Inhibitor of the thrombin time in systemic amyloidosis: a common coagulation abnormality.
Blood.
1991;77:2637-2640 12. le Quellec A, Sotto A, Ciurana AJ. Spontaneous resolution of acquired factor X deficiency in amyloidosis. J Intern Med. 1993;234:329-330[Medline] [Order article via Infotrieve]. 13. Camoriano JK, Greipp PR, Bayer GK, Bowie EJ. Resolution of acquired factor X deficiency and amyloidosis with melphalan and prednisone therapy. N Engl J Med. 1987;316:1133-1135[Medline] [Order article via Infotrieve]. 14. Schwarzinger I, Stain-Kos M, Bettelheim P, et al. Recurrent, isolated factor X deficiency in myeloma: repeated normalization of factor X levels after cytostatic chemotherapy followed by late treatment failure associated with the development of systemic amyloidosis. Thromb Haemost. 1992;68:648-651[Medline] [Order article via Infotrieve]. 15. Greipp PR, Kyle RA, Bowie EJ. Factor X deficiency in primary amyloidosis: resolution after splenectomy. N Engl J Med. 1979;301:1050-1051[Medline] [Order article via Infotrieve]. 16. Rosenstein ED, Itzkowitz SH, Penziner AS, Cohen JI, Mornaghi RA. Resolution of factor X deficiency in primary amyloidosis following splenectomy. Arch Intern Med. 1983;143:597-599[Abstract].
© 2001 by The American Society of Hematology.
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| Copyright © 2001 by American Society of Hematology Online ISSN: 1528-0020 | |||||||||
Top
Abstract
Introduction
in 23 patients and 
in 9. The INR was elevated in 28 (87%)
of the 32 patients with factor X deficiency, and a prolonged aPTT was
found in 9 (28%). However, neither the INR nor aPTT correlated well
with the factor X level.