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Type 3 von Willebrand disease (VWD) is rare, but this form of the disease is associated with severe bleeding, particularly in muscles and joints, a bleeding disorders expert said.
“There’s a virtually complete deficiency in von Willebrand factor [in type 3 disease], so usually it’s defined as below 5 or in some studies below 3 IU/dL, but also due to the very low levels of von Willebrand factor, there’s also a very low level of factor VIII,” said Jeroen Eikenboom, MD, PhD, from Leiden (the Netherlands) University Medical Center.
“The inheritance pattern is autosomal recessive, and the prevalence is about 1 in a million,” he said during the annual congress of the European Association for Haemophilia and Allied Disorders.
Erik Adolf von Willenbrand, MD, PhD, first described this form of VWD in a family from the Åland Islands, an autonomous region of Finland. The disease, later discovered to be caused in this family by a cytosine deletion in exon 18 of the von Willebrand factor (VWF) gene, was associated with fatal bleeding events in several family members.
“As VWF is the carrier protein of factor VIII, the very low VWF level leads to a strongly reduced factor VIII level, comparable to the levels seen in mild to moderate hemophilia A. As a consequence, VWD type 3 has the combined characteristics of a primary as well as a secondary hemostasis defect,” Dr. Eikenboom explained in an abstract accompanying his talk.
Compared with VWD type 1 or 2, type 3 VWD is associated with bleeding episodes more commonly seen in patients with hemophilia A, notably mucocutaneous bleeding, bleeding after trauma or during surgery, and bleeding into joints and/or muscles.
Treatment
The goals of treatment for patients with type 3 VWD are to correct the dual hemostasis defects of impaired platelet adhesion because of low VWF levels, and the intrinsic coagulation defect because of levels of factor VIII.
Desmopressin is not effective in type 3 VWD, Dr. Eikenboom said, so treatment requires the use of either plasma-derived VWF, with or without factor VIII, or recombinant VWF.
In the United States, the only standalone VWF concentrate approved by the Food and Drug Administration is a recombinant product (Vonvendi), Three other human plasma–derived concentrates containing both VWF and factor VIII are also licensed (Alpanate, Humate-P, Wilate).
Clinicians prescribing the combined factor concentrates need to be aware of differences in pharmacokinetics between the products.
For example, following infusion of Wilate, which has equal amounts of von Willebrand factor and factor VIII, there is an increase in circulation of both von Willebrand factor and factor VIII and a similar decline in each factor over time.
In contrast, following an infusion of Humate-P, which contains lower levels of factor VIII, “interestingly, you see a secondary rise of factor VIII in Humate-P–infused patients, whereas the secondary rise is not visible in the Wilate patients,” he said.
Approximately 22% of patients with type 3 VWD also receive prophylaxis with VWF concentrate, which has been shown to decrease the median annualized bleeding rate from 25% to 6.1%.
Dr. Eikenboom cautioned that 5%-10% of patients with type 3 VWD may develop allo-antibodies against VWF concentrates, which can complicate treatment and carries risk of anaphylactic shock.
“It’s also been mentioned in literature that there may be an association with partial or complete von Willebrand factor gene deletions or nonsense mutations and the development of allo-antibodies,” he said.
Prophylaxis burdensome but helpful
Veronica H. Flood, MD, from the Medical College of Wisconsin, Milwaukee, who specializes in the treatment of patients with von Willebrand disease, follows a number of both girls and boys with type 3 VWD.
“Those are the people who will have bleeding into their joints, and for the girls, worse periods than some of those with other types of von Willebrand disease, and it is true that if you want to stop their bleeding, you cannot use desmopressin like we use in most other von Willebrand patients. They will need factor, although for the heavy menstrual bleeding you can use hormones or tranexamic acid – there are some other options for that,” she said in an interview.
She also noted that type 3 von Willebrand disease can be highly variable. For patients with especially frequent joint bleeding, her center recommends prophylaxis.
“Prophylaxis can be very burdensome for patients. You’re talking about IV therapy several times a week, but it’s very helpful for the joint bleeds. Episodic prophylaxis can be very helpful for heavy menstrual bleeding, and we actually have type 2, type 3, and some type 1 patients with bad enough nose bleeds that they end up on prophylaxis,” she said.
Patients with gastrointestinal bleeding are the most challenging to care for, she noted.
“You can put them on factor prophylaxis, but even that isn’t always enough to help some adults with bad GI bleeding, and we’re investigating other options for that,” she said.
Dr. Eikenboom disclosed research support from CSL Behring and honoraria (directed to his institution) for educational activities sponsored by Roche and Celgene. Dr. Flood reported having no conflicts of interest to disclose.
Type 3 von Willebrand disease (VWD) is rare, but this form of the disease is associated with severe bleeding, particularly in muscles and joints, a bleeding disorders expert said.
“There’s a virtually complete deficiency in von Willebrand factor [in type 3 disease], so usually it’s defined as below 5 or in some studies below 3 IU/dL, but also due to the very low levels of von Willebrand factor, there’s also a very low level of factor VIII,” said Jeroen Eikenboom, MD, PhD, from Leiden (the Netherlands) University Medical Center.
“The inheritance pattern is autosomal recessive, and the prevalence is about 1 in a million,” he said during the annual congress of the European Association for Haemophilia and Allied Disorders.
Erik Adolf von Willenbrand, MD, PhD, first described this form of VWD in a family from the Åland Islands, an autonomous region of Finland. The disease, later discovered to be caused in this family by a cytosine deletion in exon 18 of the von Willebrand factor (VWF) gene, was associated with fatal bleeding events in several family members.
“As VWF is the carrier protein of factor VIII, the very low VWF level leads to a strongly reduced factor VIII level, comparable to the levels seen in mild to moderate hemophilia A. As a consequence, VWD type 3 has the combined characteristics of a primary as well as a secondary hemostasis defect,” Dr. Eikenboom explained in an abstract accompanying his talk.
Compared with VWD type 1 or 2, type 3 VWD is associated with bleeding episodes more commonly seen in patients with hemophilia A, notably mucocutaneous bleeding, bleeding after trauma or during surgery, and bleeding into joints and/or muscles.
Treatment
The goals of treatment for patients with type 3 VWD are to correct the dual hemostasis defects of impaired platelet adhesion because of low VWF levels, and the intrinsic coagulation defect because of levels of factor VIII.
Desmopressin is not effective in type 3 VWD, Dr. Eikenboom said, so treatment requires the use of either plasma-derived VWF, with or without factor VIII, or recombinant VWF.
In the United States, the only standalone VWF concentrate approved by the Food and Drug Administration is a recombinant product (Vonvendi), Three other human plasma–derived concentrates containing both VWF and factor VIII are also licensed (Alpanate, Humate-P, Wilate).
Clinicians prescribing the combined factor concentrates need to be aware of differences in pharmacokinetics between the products.
For example, following infusion of Wilate, which has equal amounts of von Willebrand factor and factor VIII, there is an increase in circulation of both von Willebrand factor and factor VIII and a similar decline in each factor over time.
In contrast, following an infusion of Humate-P, which contains lower levels of factor VIII, “interestingly, you see a secondary rise of factor VIII in Humate-P–infused patients, whereas the secondary rise is not visible in the Wilate patients,” he said.
Approximately 22% of patients with type 3 VWD also receive prophylaxis with VWF concentrate, which has been shown to decrease the median annualized bleeding rate from 25% to 6.1%.
Dr. Eikenboom cautioned that 5%-10% of patients with type 3 VWD may develop allo-antibodies against VWF concentrates, which can complicate treatment and carries risk of anaphylactic shock.
“It’s also been mentioned in literature that there may be an association with partial or complete von Willebrand factor gene deletions or nonsense mutations and the development of allo-antibodies,” he said.
Prophylaxis burdensome but helpful
Veronica H. Flood, MD, from the Medical College of Wisconsin, Milwaukee, who specializes in the treatment of patients with von Willebrand disease, follows a number of both girls and boys with type 3 VWD.
“Those are the people who will have bleeding into their joints, and for the girls, worse periods than some of those with other types of von Willebrand disease, and it is true that if you want to stop their bleeding, you cannot use desmopressin like we use in most other von Willebrand patients. They will need factor, although for the heavy menstrual bleeding you can use hormones or tranexamic acid – there are some other options for that,” she said in an interview.
She also noted that type 3 von Willebrand disease can be highly variable. For patients with especially frequent joint bleeding, her center recommends prophylaxis.
“Prophylaxis can be very burdensome for patients. You’re talking about IV therapy several times a week, but it’s very helpful for the joint bleeds. Episodic prophylaxis can be very helpful for heavy menstrual bleeding, and we actually have type 2, type 3, and some type 1 patients with bad enough nose bleeds that they end up on prophylaxis,” she said.
Patients with gastrointestinal bleeding are the most challenging to care for, she noted.
“You can put them on factor prophylaxis, but even that isn’t always enough to help some adults with bad GI bleeding, and we’re investigating other options for that,” she said.
Dr. Eikenboom disclosed research support from CSL Behring and honoraria (directed to his institution) for educational activities sponsored by Roche and Celgene. Dr. Flood reported having no conflicts of interest to disclose.
Type 3 von Willebrand disease (VWD) is rare, but this form of the disease is associated with severe bleeding, particularly in muscles and joints, a bleeding disorders expert said.
“There’s a virtually complete deficiency in von Willebrand factor [in type 3 disease], so usually it’s defined as below 5 or in some studies below 3 IU/dL, but also due to the very low levels of von Willebrand factor, there’s also a very low level of factor VIII,” said Jeroen Eikenboom, MD, PhD, from Leiden (the Netherlands) University Medical Center.
“The inheritance pattern is autosomal recessive, and the prevalence is about 1 in a million,” he said during the annual congress of the European Association for Haemophilia and Allied Disorders.
Erik Adolf von Willenbrand, MD, PhD, first described this form of VWD in a family from the Åland Islands, an autonomous region of Finland. The disease, later discovered to be caused in this family by a cytosine deletion in exon 18 of the von Willebrand factor (VWF) gene, was associated with fatal bleeding events in several family members.
“As VWF is the carrier protein of factor VIII, the very low VWF level leads to a strongly reduced factor VIII level, comparable to the levels seen in mild to moderate hemophilia A. As a consequence, VWD type 3 has the combined characteristics of a primary as well as a secondary hemostasis defect,” Dr. Eikenboom explained in an abstract accompanying his talk.
Compared with VWD type 1 or 2, type 3 VWD is associated with bleeding episodes more commonly seen in patients with hemophilia A, notably mucocutaneous bleeding, bleeding after trauma or during surgery, and bleeding into joints and/or muscles.
Treatment
The goals of treatment for patients with type 3 VWD are to correct the dual hemostasis defects of impaired platelet adhesion because of low VWF levels, and the intrinsic coagulation defect because of levels of factor VIII.
Desmopressin is not effective in type 3 VWD, Dr. Eikenboom said, so treatment requires the use of either plasma-derived VWF, with or without factor VIII, or recombinant VWF.
In the United States, the only standalone VWF concentrate approved by the Food and Drug Administration is a recombinant product (Vonvendi), Three other human plasma–derived concentrates containing both VWF and factor VIII are also licensed (Alpanate, Humate-P, Wilate).
Clinicians prescribing the combined factor concentrates need to be aware of differences in pharmacokinetics between the products.
For example, following infusion of Wilate, which has equal amounts of von Willebrand factor and factor VIII, there is an increase in circulation of both von Willebrand factor and factor VIII and a similar decline in each factor over time.
In contrast, following an infusion of Humate-P, which contains lower levels of factor VIII, “interestingly, you see a secondary rise of factor VIII in Humate-P–infused patients, whereas the secondary rise is not visible in the Wilate patients,” he said.
Approximately 22% of patients with type 3 VWD also receive prophylaxis with VWF concentrate, which has been shown to decrease the median annualized bleeding rate from 25% to 6.1%.
Dr. Eikenboom cautioned that 5%-10% of patients with type 3 VWD may develop allo-antibodies against VWF concentrates, which can complicate treatment and carries risk of anaphylactic shock.
“It’s also been mentioned in literature that there may be an association with partial or complete von Willebrand factor gene deletions or nonsense mutations and the development of allo-antibodies,” he said.
Prophylaxis burdensome but helpful
Veronica H. Flood, MD, from the Medical College of Wisconsin, Milwaukee, who specializes in the treatment of patients with von Willebrand disease, follows a number of both girls and boys with type 3 VWD.
“Those are the people who will have bleeding into their joints, and for the girls, worse periods than some of those with other types of von Willebrand disease, and it is true that if you want to stop their bleeding, you cannot use desmopressin like we use in most other von Willebrand patients. They will need factor, although for the heavy menstrual bleeding you can use hormones or tranexamic acid – there are some other options for that,” she said in an interview.
She also noted that type 3 von Willebrand disease can be highly variable. For patients with especially frequent joint bleeding, her center recommends prophylaxis.
“Prophylaxis can be very burdensome for patients. You’re talking about IV therapy several times a week, but it’s very helpful for the joint bleeds. Episodic prophylaxis can be very helpful for heavy menstrual bleeding, and we actually have type 2, type 3, and some type 1 patients with bad enough nose bleeds that they end up on prophylaxis,” she said.
Patients with gastrointestinal bleeding are the most challenging to care for, she noted.
“You can put them on factor prophylaxis, but even that isn’t always enough to help some adults with bad GI bleeding, and we’re investigating other options for that,” she said.
Dr. Eikenboom disclosed research support from CSL Behring and honoraria (directed to his institution) for educational activities sponsored by Roche and Celgene. Dr. Flood reported having no conflicts of interest to disclose.
FROM EAHAD 2021