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Blood, Vol. 94 No. 11 (December 1), 1999:
pp. 3951-3953
Recombinant Factor VIIa Is Effective for Bleeding and Surgery in
Patients With Glanzmann Thrombasthenia
By
Man-Chiu Poon,
Christine Demers,
François Jobin, and
John
W.Y. Wu
From the Departments of Medicine, Pediatrics, and Oncology,
University of Calgary and Foothills Hospital, Calgary, Alberta, Canada;
Southern Alberta Hemophilia Clinic, Alberta Children's Hospital,
Calgary, Alberta, Canada; Canadian Blood Services, Calgary
Centre, Calgary, Alberta, Canada; and Department d'hematologie,
Hôpital du Saint-Sacrement, Québec City, Québec,
Canada.
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ABSTRACT |
Recombinant activated factor VII (rFVIIa) was found to be effective
and safe in treating 24 bleeding episodes and to prevent bleeding
during one bilateral herniorrhaphy in four children with Glanzmann
thrombasthenia. One of the patients had alloantibodies to platelet
membrane glycoprotein (GP) IIb/IIIa and was refractory to platelet
transfusion. rFVIIa was administered at 89 to 116 µg/kg per injection
every 2 hours, in association with antifibrinolytic drugs. Bleeding
stopped in all cases, but platelet transfusion was required in one. Two
bleeding episodes recurred 36 and 63 hours after discontinuation of
rFVIIa, but were successfully treated with additional doses. No adverse
effects of rFVIIa were observed. Although the number of patients is
small, our study suggests that rFVIIa may be an alternative to platelet
transfusions in patients with a severe congenital thrombocytopathy.
© 1999 by The American Society of Hematology.
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INTRODUCTION |
GLANZMANN THROMBASTHENIA is a congenital,
hereditary hemorrhagic disorder caused by qualitative or quantitative
abnormalities of platelet glycoprotein (GP) IIb/IIIa leading to
excessive bleeding. Platelet transfusion is the standard treatment for
severe bleeding and for surgical support. However, repeated platelet
transfusions in such patients may result in alloimmunization to human
leukocyte antigens (HLA) and/or platelet membrane GPIIb/IIIa, rendering future transfusions ineffective. Furthermore, platelet transfusions have risk for adverse reactions including virus transmission, and may
not be readily available to patients living in remote areas.
In 1996, Tengborn and Petruson1 first reported
the successful use of recombinant factor VIIa (rFVIIa, NovoSeven [Novo
Nordisk, Bagsvaerd, Denmark]) for a severe epistaxis in a boy with
Glanzmann thrombasthenia. Additional case reports suggest the
usefulness of this agent for bleeding and for surgical prophylaxis in
other patients with congenital functional platelet disorders including Glanzmann thrombasthenia,2-4 Bernard-Soulier
syndrome,5 and platelet type (pseudo) von Willebrand
disease6 and acquired thrombocytopathies related to
uremia7 or myelodysplastic syndrome.8 We report
here the experience with the use of rFVIIa in 4 patients with Glanzmann thrombasthenia.
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PATIENTS, MATERIALS, AND METHODS |
Four children with type 1 Glanzmann thrombasthenia
(Table 1) received treatment, after informed consent,
with rFVIIa for bleeding episodes or for surgical prophylaxis in this
open-label study. Patient 2 had alloantibodies to platelet GPIIb/IIIa,
and was refractory to platelet transfusions. Patients 3 and 4 lived in
remote areas with limited access to platelet transfusions. The study
protocol was approved by the institutional ethics board and rFVIIa was
supplied at no cost by Novo Nordisk Canada Inc (Mississauga, Ontario,
Canada). Patients undergoing surgical procedures, or having bleeding
episodes not controlled by conservative measures such as the use of
local pressure, nasal packing, or topical thrombin, were administered
rFVIIa at a standard dose of approximately 90 µg/kg to the nearest
vial (vial size: 1.2 mg or 2.4 mg; actual dose range: 89 to 116 µg/kg) every 2 hours until bleeding stopped. Gastrointestinal (GI)
bleeding was considered to have stopped when the patient continued to
be hemodynamically stable and the hemoglobin values remained stable.
Bleeding episodes were considered severe when there was a decrease in
the hemoglobin concentration by 20 g/L or more within 4 days preceding
the start of rFVIIa or when there was compression of a vital organ.
Follow-up maintenance doses of rFVIIa were at the discretion of the
investigators. Antifibrinolytic agents such as  -amino-caproic acid
(Amicar; Wyeth-Ayerst, Caroline, Puerto Rico) (300 to 400 mg/kg/d) or
tranexamic acid (Cyklokapron; Pharmacia & Upjohn, Stockholm, Sweden)
(75 mg/kg/d) were used during and for 7 to 9 days after rFVIIa therapy
for all but 2 bleeding episodes (1 mild oropharyngeal bleed and 1 facial hematoma) and for surgery. Platelet transfusions were allowed
when in the judgment of the treating physician rFVIIa was not
effective.
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RESULTS |
Twenty-four bleeding episodes were treated with rFVIIa after failure of
local measures, including 13 nosebleeds, 7 oropharyngeal bleeds, 3 GI
bleeds, and a posttraumatic facial hematoma (Table 1). Red blood cell
transfusions were needed in 7 episodes (3 GI bleeds and 4 nosebleeds).
Bleeding stopped within 6 hours of starting rFVIIa in 16 (67%)
episodes, and between 6 and 24 hours in 7 (29%) episodes. The
remaining GI bleed (patient 3) did not stop despite 24 rFVIIa
injections over 2 days, but stopped promptly after one platelet
transfusion. Two of the bleeds (GI, lip/frenulum cuts), which each
initially stopped after 3 rFVIIa doses at 4 and 5 hours, respectively,
recurred 36 and 63 hours later; in both cases, bleeding stopped after
additional rFVIIa injections without rebleeding (Tables 1 and
2). The number of rFVIIa injections required to stop bleeding is shown in Table 2. Additional rFVIIa doses
for maintenance were given after severe bleeds because of concern for
recurrence (Table 2). The bilateral herniorrhaphy was performed without
platelet transfusion, and no abnormal peri- or postoperative bleeding
was observed. The child was discharged home 36 hours after the surgery
with -amino caproic acid. No patient developed adverse effects with
the use of rFVIIa.
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DISCUSSION |
rFVIIa has been used extensively for patients with inhibitors to factor
VIII or IX (congenital or acquired hemophilia)9 and in a
limited number of patients with a variety of congenital and acquired
platelet functional disorders.1-8 Our study, though limited
in the number of patients, represents the largest experience in the use
of rFVIIa in patients with Glanzmann thrombasthenia. rFVIIa was
effective in treating 23 of the 24 bleeding episodes and in 1 surgical
procedure in these patients with or without anti-IIb/IIIa antibodies.
Bleeding stopped promptly in many cases.
Maintenance doses of rFVIIa after the cessation of bleeding were used
early in our study according to previous reports.1,5,9 As
we gained experience, we observed that many of the bleeding episodes
did not rebleed in the absence of maintenance doses. It is possible
that in patients with normal plasma coagulation systems, once a primary
platelet plug has formed to stop bleeding, a permanent clot is readily
formed by the fibrin deposition and stabilization. In this respect,
antifibrinolytic agents to prevent clot lysis seem to be an important
adjunct to rFVIIa therapy. However maintenance doses may be needed for
some severe bleeds, posttraumatic bleeds, GI bleeds, and after surgery.
The experience so far suggests the use of rFVIIa in patients with
Glanzmann thrombasthenia and other platelet defects is safe. Only one
serious side effect has been reported so far: a bilateral deep vein
thrombosis and pulmonary embolism observed 6 days after discontinuation
of high-dose rFVIIa administered by continuous infusion for 15 days to
cover a bowel resection in a 72-year-old woman with Glanzmann
thrombasthenia.3 Thromboembolic complication did not occur
in the treatment of other patients, including surgery in our patient
covered by intermittent rFVIIa injections and in 3 other patients
covered by continuous rFVIIa infusion for 3 to 7 days.2,4
This raised the question of whether the sustained thrombin generation
by continuous rFVIIa infusion over a prolonged period of time in the
presence of normal plasma coagulation systems might have contributed to
thromboembolism in this high-risk situation.
In summary, rFVIIa is an attractive alternative to platelet
transfusions for the treatment of dysfunctional platelet-related bleeding. However, this needs to be confirmed on a larger population. We need additional studies to define the minimal effective dose, the
ideal way to administer rFVIIa, the relative role of rFVIIa and
antifibrinolytic agents in these patients, as well as the cost and
benefit of using rFVIIa over platelet transfusion, especially in
patients without platelet or HLA antibodies. To gather more data on
clinical experience with the use of rFVIIa in patients with Glanzmann
disease and other congenital platelet disorders, an "International
Registry on Recombinant Factor VIIa and Congenital Platelet
Disorders" has recently been established (forms available from the
first author). We hope that the data collected will allow assessment of
the role of rFVIIa in these platelet disorders, and assist in the
design of formal studies to address specific issues associated with the
treatment of these patients. Finally, studies to define the mechanism
by which rFVIIa affects hemostasis in these patients are also needed.
| |
ACKNOWLEDGMENT |
We thank Yves Laurian, MD (Paris, France) and David Chui, MD (Hamilton,
Canada) for their critical review of this manuscript; and Pat Klein,
Andrea Pritchard, and Morna Brown for their help with data collection.
Recombinant factor VIIa (NovoSeven) was supplied at no cost to our
patients by Novo Nordisk Canada Inc (Mississauga, Ontario, Canada). The
authors received no financial support and have no financial
relationship with Novo Nordisk.
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FOOTNOTES |
Submitted April 16, 1999; accepted July 29, 1999.
The publication costs of this
article were defrayed in part by
page charge payment. This article
must therefore be hereby marked
"advertisement"
in accordance with 18 U.S.C. section
1734 solely to indicate this fact.
Address reprint requests to Man-Chiu Poon, MD, Foothills Provincial
General Hospital, 1403 - 29th St NW, Calgary, Alberta, Canada T2N 2T9;
e-mail: mcpoon{at}ucalgary.ca.
| |
REFERENCES |
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