Von Willebrand Disease: Causes, Symptoms, and Types
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Von Willebrand Disease is an inheritable bleeding disorder caused by defects in the von Willebrand factor gene. It results in prolonged bleeding and clotting time, and there are various types depending on the severity and type of defect. Symptoms include bruising, longer than normal bleeding, heavy menstrual periods, and spontaneous nosebleeds. The disease is diagnosed more in females due to female-homeostatic challenges. Read more about the causes, symptoms, and types of Von Willebrand Disease at Desklib.
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Von Willebrand Disease 1
VON WILLEBRAND DISEASE
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Von Willebrand Disease 2
Von Willebrand Disease
The Von Willebrand disease is a frequent disorder in bleeding, and it is an inheritable
disorder. Von will stamp the dysfunctions cause illness to the von Will brand factor gene. There
is mediation from the plasma protein and meshing of platelets at the injured site which stabilises
and binds blood clotting factor. Thus defects in von Willebrand factor result in bleeding due to
impairing platelets adhesion or because of reduced blooding clotting factor concentration
(Haberichter, 2015, 1755). Therefore there is a prolonged period for flowing to stop and blood to
clot. There various types of von will brand disease, and each depends on whether either one or
both parents passed dysfunctional genes on someone. However, the linkage is not identified
approximately in type 1 case. In von Willebrand type 1 disease, has a strong association and
therefore level of von Willebrand factor is lower. Von Willebrand factor is affected by known
and unidentified environmental and genetic factors in various standards such as age, thyroid
status, blood type, stress, inflammation and hormone stress( Peyvandi et al. 2009 p 351). The
mutation that affects the expression may cause von Willebrand type 1. The specific variation that
influences functional epitopes has been recognised to cause type 2 disease.
Meanwhile, most of these mutations are in the 134 amino acid segment encoded by exon
28. The mutation leading to type 3 von Willebrand diseases are usually little mutation due to
small deletions. The splice site mutations are caused by splice mutation. However, mutations
missense are not common.
Von Willebrand disease is a more frequent disorder patients suffer from. This disease
infects both the males and the females. Meanwhile, it is a less severe condition compared to
other bleeding complications(Dong, 2005, 1714). Many people having this condition might not
realise they have this disorder because their bleeding conditions are very mild. VWD cause little
Von Willebrand Disease
The Von Willebrand disease is a frequent disorder in bleeding, and it is an inheritable
disorder. Von will stamp the dysfunctions cause illness to the von Will brand factor gene. There
is mediation from the plasma protein and meshing of platelets at the injured site which stabilises
and binds blood clotting factor. Thus defects in von Willebrand factor result in bleeding due to
impairing platelets adhesion or because of reduced blooding clotting factor concentration
(Haberichter, 2015, 1755). Therefore there is a prolonged period for flowing to stop and blood to
clot. There various types of von will brand disease, and each depends on whether either one or
both parents passed dysfunctional genes on someone. However, the linkage is not identified
approximately in type 1 case. In von Willebrand type 1 disease, has a strong association and
therefore level of von Willebrand factor is lower. Von Willebrand factor is affected by known
and unidentified environmental and genetic factors in various standards such as age, thyroid
status, blood type, stress, inflammation and hormone stress( Peyvandi et al. 2009 p 351). The
mutation that affects the expression may cause von Willebrand type 1. The specific variation that
influences functional epitopes has been recognised to cause type 2 disease.
Meanwhile, most of these mutations are in the 134 amino acid segment encoded by exon
28. The mutation leading to type 3 von Willebrand diseases are usually little mutation due to
small deletions. The splice site mutations are caused by splice mutation. However, mutations
missense are not common.
Von Willebrand disease is a more frequent disorder patients suffer from. This disease
infects both the males and the females. Meanwhile, it is a less severe condition compared to
other bleeding complications(Dong, 2005, 1714). Many people having this condition might not
realise they have this disorder because their bleeding conditions are very mild. VWD cause little
Von Willebrand Disease 3
or no distraction in people's lives unless there is serious injury or in case there is a need for
surgery. There can be a bleeding problem in all forms of VWD( Ruggeri, 2001, 263)
VWD is associated with the various sign and symptoms. In case a person has this
condition they exhibit the following symptoms. In fact, there is injury, little or no injury the
person experiences bruising (Catasman & Fedric 2003, 101). This may often occur maybe one to
four times per month. The bruise is usually large or has a raised lump. There is also longer than
normal bleeding. This is after surgery procedures, injury, dental work, childbirth, and the
bleeding occur more than five minutes following a skin cut.
Meanwhile extended or heavy bleeding during or after surgery or surgical bleeding and
after dental work occurs. This may stop and eventually start again hours or days later. A person
may also experience spontaneously nosebleeds that are usually hard to stop (Catasman &
Goodeve, 2013, 669). This bleeding keeps on occurring frequently and often happens five times
or more in a year, or it might last longer than ten times a year. In women, a person suffering from
VWD, usually have heavy menstrual periods that last more than seven days( Sadler &
Bodde,2006, 2013). The symptoms of this condition include clots that are larger than a quarter.
Changing menstrual pad tampon more often or use of double sanitary protection to control the
menstrual flow. VWD might also result in the diagnosis of anemia whose symptoms includes
tiredness, fatigue, and breath shortage. During birth, a person may suffer from massive blood
loss.
In some instances, other bleeding events in people having von Willebrand disease might
include blood in the stool as a result of stomach or intestine bleeding. Also, the urine might
contain blood due to bleeding in the bladder or kidneys. Although it is rare, they might occur
bleeding into joints or internal organs.
or no distraction in people's lives unless there is serious injury or in case there is a need for
surgery. There can be a bleeding problem in all forms of VWD( Ruggeri, 2001, 263)
VWD is associated with the various sign and symptoms. In case a person has this
condition they exhibit the following symptoms. In fact, there is injury, little or no injury the
person experiences bruising (Catasman & Fedric 2003, 101). This may often occur maybe one to
four times per month. The bruise is usually large or has a raised lump. There is also longer than
normal bleeding. This is after surgery procedures, injury, dental work, childbirth, and the
bleeding occur more than five minutes following a skin cut.
Meanwhile extended or heavy bleeding during or after surgery or surgical bleeding and
after dental work occurs. This may stop and eventually start again hours or days later. A person
may also experience spontaneously nosebleeds that are usually hard to stop (Catasman &
Goodeve, 2013, 669). This bleeding keeps on occurring frequently and often happens five times
or more in a year, or it might last longer than ten times a year. In women, a person suffering from
VWD, usually have heavy menstrual periods that last more than seven days( Sadler &
Bodde,2006, 2013). The symptoms of this condition include clots that are larger than a quarter.
Changing menstrual pad tampon more often or use of double sanitary protection to control the
menstrual flow. VWD might also result in the diagnosis of anemia whose symptoms includes
tiredness, fatigue, and breath shortage. During birth, a person may suffer from massive blood
loss.
In some instances, other bleeding events in people having von Willebrand disease might
include blood in the stool as a result of stomach or intestine bleeding. Also, the urine might
contain blood due to bleeding in the bladder or kidneys. Although it is rare, they might occur
bleeding into joints or internal organs.
Von Willebrand Disease 4
Von Willebrand disease is brought about a result of abnormality, which is von
Willebrand disease quantitative or qualitative factor. It is a huge multimeric glycoprotein
necessary for platelets meshing (Sadler 2009, 38). Also, it acts as the protein carrier for element
VIII. With this von Willebrand factor have the responsibility in both primary that involves the
platelets adhesion and platelets formation plug. Secondly, it consists FVIII that is usually
hemostasis. The von Willebrand disease factor primary hemostasis holds to the platelets using its
receptor to a glycoprotein of the platelets surface and functions as a link between the injury part
in the site of damage and then platelets. The secondary hemostasis, von Willebrand factor shields
FVIII against degradation as well as transport in the location of the damaged part. There von
Willebrand disease is divided into two categories inherited and the acquired. The inherited forms
consist of types 1, 2 and 3. Class 2 is further categorized into 2M, 2N, 2A, and 2B. These types
differ regarding intensity and type of defect in von Willebrand factor.
Aetiology of the disease
Iron deficiency anemia is a situation in which blood lacks adequate red blood cells. Iron
deficiency is caused by lack of enough iron. Leukemia is an example of iron deficiency disease.
Leukemia is also known to as a cancer of blood or bone marrow. It is a disease one of the major
cancers in childhood although it is occurring frequently in adults. Leukemia is caused when the
immature DNA blood cells usually white blood cells are damaged is a certain way. This makes
the blood cells to continuously divide as they grow hence they are multiple.
Leukemia is a genetic disease although in most cases are not seen as hereditary.
Meanwhile, a wide range of factors can likely make you more prone get the disease. It is
believed that various types of leukemia are due to DNA mutations in the blood cells. This
mutation in the genetics affects the reproduction of the blood cells in the bone marrow. Also,
Von Willebrand disease is brought about a result of abnormality, which is von
Willebrand disease quantitative or qualitative factor. It is a huge multimeric glycoprotein
necessary for platelets meshing (Sadler 2009, 38). Also, it acts as the protein carrier for element
VIII. With this von Willebrand factor have the responsibility in both primary that involves the
platelets adhesion and platelets formation plug. Secondly, it consists FVIII that is usually
hemostasis. The von Willebrand disease factor primary hemostasis holds to the platelets using its
receptor to a glycoprotein of the platelets surface and functions as a link between the injury part
in the site of damage and then platelets. The secondary hemostasis, von Willebrand factor shields
FVIII against degradation as well as transport in the location of the damaged part. There von
Willebrand disease is divided into two categories inherited and the acquired. The inherited forms
consist of types 1, 2 and 3. Class 2 is further categorized into 2M, 2N, 2A, and 2B. These types
differ regarding intensity and type of defect in von Willebrand factor.
Aetiology of the disease
Iron deficiency anemia is a situation in which blood lacks adequate red blood cells. Iron
deficiency is caused by lack of enough iron. Leukemia is an example of iron deficiency disease.
Leukemia is also known to as a cancer of blood or bone marrow. It is a disease one of the major
cancers in childhood although it is occurring frequently in adults. Leukemia is caused when the
immature DNA blood cells usually white blood cells are damaged is a certain way. This makes
the blood cells to continuously divide as they grow hence they are multiple.
Leukemia is a genetic disease although in most cases are not seen as hereditary.
Meanwhile, a wide range of factors can likely make you more prone get the disease. It is
believed that various types of leukemia are due to DNA mutations in the blood cells. This
mutation in the genetics affects the reproduction of the blood cells in the bone marrow. Also,
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Von Willebrand Disease 5
proper functioning of the blood cells can be modified. The modifications are genetics however
they are not hereditary. Thus leukemia is caused by the gene mutations. The abnormalities in
genetics often are not inherited from the family. They are therefore referred to as acquired gene
mutation. The causes of these mutations are not well known. In some instance, one can be
genetically predisposed to leukemia, but risk factors arise from their lifestyle such as smoking
cigarette can make you prone to developing leukemia.
The Clinical signs and symptoms of the disease
It is essential to state various forms of the inherited forms of von Willebrand disease.
VWF is altered genetically such as the low factor level. The intracellular transports of the
subunits of the glycoprotein have interfered with the mutation in type 1 dominant severe. This
represents for 70-80% of the incidents. It is associated with the slow quantitative reduction in
qualitative normal von Willebrand disease. Usually, a person suffering von Willebrand type 1
disease experiences severe to moderate of diagnosis symptoms. The von Willebrand factor has a
reduced plasma level. This type is passed as the autosomal dominant gene having incomplete
penetration. However in a single family may vary widely. The person suffers a spectrum of
mucocutaneous bleeding symptoms. This is mostly related to a deficiency in von Willebrand
factor (Redoghien & Castman 2007, 117). Other evidence associated argues that the cause of
mild von Willebrand reduction is considered to involve the contribution from other genes apart
from the ABO blood groups genes and von Willebrand factor (Albanez & Ogiwara, 2016, 957).
proper functioning of the blood cells can be modified. The modifications are genetics however
they are not hereditary. Thus leukemia is caused by the gene mutations. The abnormalities in
genetics often are not inherited from the family. They are therefore referred to as acquired gene
mutation. The causes of these mutations are not well known. In some instance, one can be
genetically predisposed to leukemia, but risk factors arise from their lifestyle such as smoking
cigarette can make you prone to developing leukemia.
The Clinical signs and symptoms of the disease
It is essential to state various forms of the inherited forms of von Willebrand disease.
VWF is altered genetically such as the low factor level. The intracellular transports of the
subunits of the glycoprotein have interfered with the mutation in type 1 dominant severe. This
represents for 70-80% of the incidents. It is associated with the slow quantitative reduction in
qualitative normal von Willebrand disease. Usually, a person suffering von Willebrand type 1
disease experiences severe to moderate of diagnosis symptoms. The von Willebrand factor has a
reduced plasma level. This type is passed as the autosomal dominant gene having incomplete
penetration. However in a single family may vary widely. The person suffers a spectrum of
mucocutaneous bleeding symptoms. This is mostly related to a deficiency in von Willebrand
factor (Redoghien & Castman 2007, 117). Other evidence associated argues that the cause of
mild von Willebrand reduction is considered to involve the contribution from other genes apart
from the ABO blood groups genes and von Willebrand factor (Albanez & Ogiwara, 2016, 957).
Von Willebrand Disease 6
Pathogenesis of the disease
The type 2 disease is accountable for 16-21% of the Willebrand disease incidences.
Usually is a wide variety of illness consisting the von Willebrand factor qualitative deficiency.
The type 2 von Willebrand disease is mostly the autosomal recessive and the autosomal
dominant. The type is subdivided further into four which is 2N, 2B, 2M, 2A. This is where the
plasma Von Willebrand factor although it appears normal it is structurally and functionally
defensive (Dimino & Canaro, 2013, 2015). The 2A von Willebrand disease acts as an inheritable
due to the dominant trait of the autosomal and is related to normal and reduced plasma level
factorVillic and von Willebrand factor. The analysis reveals that there is a relatively compressed
multimeter in the intermediate and multimeter complexes high molecular weight. The
multimetric disorders are affected by degradation to proteolytic of von Willebrand factor. The
anomalies experienced in the multimetric defects are similar to the ones found in the plasma.
Von Willebrand type 2B diseases are caused by the autosomal trait. This disease is linked
with the lowered quantity in the von Willebrand factor multimeters high molecular weight.
Increased fragments of low-molecular-weight characterize this. Individuals having type 2B, von
Willebrand disease suffer homeostatic defects brought by intermittent thrombocytopenia and the
qualitatively abnormal von Willebrand factor. This result to gaining of mutation activity in von
Willebrand factor that causes meshing at the platelets spontaneously with von Willebrand factor
multimeters and platelets rapid clearance of both high molecular weight (Hampshire, 2001, 476)
This unusual Willebrand factor experiences increased affinity platelets glycoprotein Ib. Platelets
may lower further at the pregnancy period in conjunction with operational processes, or
desmopressin acetate has been administered.
Pathogenesis of the disease
The type 2 disease is accountable for 16-21% of the Willebrand disease incidences.
Usually is a wide variety of illness consisting the von Willebrand factor qualitative deficiency.
The type 2 von Willebrand disease is mostly the autosomal recessive and the autosomal
dominant. The type is subdivided further into four which is 2N, 2B, 2M, 2A. This is where the
plasma Von Willebrand factor although it appears normal it is structurally and functionally
defensive (Dimino & Canaro, 2013, 2015). The 2A von Willebrand disease acts as an inheritable
due to the dominant trait of the autosomal and is related to normal and reduced plasma level
factorVillic and von Willebrand factor. The analysis reveals that there is a relatively compressed
multimeter in the intermediate and multimeter complexes high molecular weight. The
multimetric disorders are affected by degradation to proteolytic of von Willebrand factor. The
anomalies experienced in the multimetric defects are similar to the ones found in the plasma.
Von Willebrand type 2B diseases are caused by the autosomal trait. This disease is linked
with the lowered quantity in the von Willebrand factor multimeters high molecular weight.
Increased fragments of low-molecular-weight characterize this. Individuals having type 2B, von
Willebrand disease suffer homeostatic defects brought by intermittent thrombocytopenia and the
qualitatively abnormal von Willebrand factor. This result to gaining of mutation activity in von
Willebrand factor that causes meshing at the platelets spontaneously with von Willebrand factor
multimeters and platelets rapid clearance of both high molecular weight (Hampshire, 2001, 476)
This unusual Willebrand factor experiences increased affinity platelets glycoprotein Ib. Platelets
may lower further at the pregnancy period in conjunction with operational processes, or
desmopressin acetate has been administered.
Von Willebrand Disease 7
Type 2M is very rare, and the results from the laboratory are same to those people having
von Willebrand disease type 2A disease. Type 2M of von Willebrand disease is related with
decreasing of platelets the in directed function which is never affected by a high molecular
weight multimeter decrease. The von Willebrand factor activity is lowered. However, analysis
of the von Willebrand factor FVIII, antigen, multimeters located around the range reference. This
is because of impairment occurring to the von Willebrand factor gene which causes absent or
decreased platelets glycoprotein ib bindings, and its inheritance is a form of autosomal
dominant(Castman & Lethagen 2008, 3533).
Type 2N von Willebrand disease is not universal. However, it is associated with the von
Willebrand factor decreasing significant affinity or FVIII because of the mutations of the genes
of the factor VIII meshing part of the Willebrand factor. Hence, because of this, FVIII levels are
usually lowered to around 5-25% of the range reference. The FVIII-binding defects in the
patients are inheritable in the manner of autosomal recessive manner. The type 2N male patient
is regularly confused about suffering mild hemophilia A. Due to this condition, the type 2N von
Willebrand disease is not supposed to be regarded to individual suffering bleeding disorder and
FVIII deficiency and is not transmitted directly as the X-linked disease (Castman & Federic,
2012, 635). Also, this applies to the patients who do not respond completely to hemophilia A
therapy.
The type 3 von Willebrand disease is rarest among all categories. It is also the mildest
type of the condition. It is autosomal inheritable recessive trait, and patients are combined
heterozygous or homozygous. The von Willebrand disease is linked with significant
abnormalities of von Willebrand factor and FVIII in the plasma, lack of von Willebrand factor in
endothelial cells with the platelets and the DDAVP lacks to respond (Dong 2005, 1714). The
Type 2M is very rare, and the results from the laboratory are same to those people having
von Willebrand disease type 2A disease. Type 2M of von Willebrand disease is related with
decreasing of platelets the in directed function which is never affected by a high molecular
weight multimeter decrease. The von Willebrand factor activity is lowered. However, analysis
of the von Willebrand factor FVIII, antigen, multimeters located around the range reference. This
is because of impairment occurring to the von Willebrand factor gene which causes absent or
decreased platelets glycoprotein ib bindings, and its inheritance is a form of autosomal
dominant(Castman & Lethagen 2008, 3533).
Type 2N von Willebrand disease is not universal. However, it is associated with the von
Willebrand factor decreasing significant affinity or FVIII because of the mutations of the genes
of the factor VIII meshing part of the Willebrand factor. Hence, because of this, FVIII levels are
usually lowered to around 5-25% of the range reference. The FVIII-binding defects in the
patients are inheritable in the manner of autosomal recessive manner. The type 2N male patient
is regularly confused about suffering mild hemophilia A. Due to this condition, the type 2N von
Willebrand disease is not supposed to be regarded to individual suffering bleeding disorder and
FVIII deficiency and is not transmitted directly as the X-linked disease (Castman & Federic,
2012, 635). Also, this applies to the patients who do not respond completely to hemophilia A
therapy.
The type 3 von Willebrand disease is rarest among all categories. It is also the mildest
type of the condition. It is autosomal inheritable recessive trait, and patients are combined
heterozygous or homozygous. The von Willebrand disease is linked with significant
abnormalities of von Willebrand factor and FVIII in the plasma, lack of von Willebrand factor in
endothelial cells with the platelets and the DDAVP lacks to respond (Dong 2005, 1714). The
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Von Willebrand Disease 8
type 3 von Willebrand disease is associated to worse bleeding clinical symptoms. This
characteristic is found both in the mucous membrane and external bleeding and the muscle and
joint bleeds. These conditions are inheritable as the autosomal recessive trait. Kindreds are the
most current continuity with this variant.
Von Willebrand acquired disease occurs, because of von Willebrand factor clearance to
the plasma forming a complex with its antibody. They may be caused as a result of adhesion to
the tumor cells or generated due to the availability of von Willebrand factor that distracts the
multimer or even slowing the digestion of the protein and is also observed with patients suffering
the aortic stenosis (Albahez & Ogiwara, 2016, 958).
Epidemiological aspects of the disease
Von Willebrand disease prevalence is 0.6-1.3 %. The autosomal inheritance patterns
suggest an equal distribution of female’s patients and male’s patients. However, the disease is
diagnosed more in females due to female-homeostatic challenges. These data were collected
through laboratory criteria and conservative clinical. However, most people will have only minor
bleedings in their lifetime; most of them may likely never be referred to medical assistance. The
availability of those related cases to specialized centers for bleeding diagnosis is estimated to be
one example for 10000 people with a cumulative incidence of hemophilia B and A are similar
(Sadler, 2009, 39). The worse von Willebrand disease is very rare disorder and its occurrence
case is one for 1million people and this dependent on ethnic background.
The von Willebrand disease symptoms vary across patients, depending on the residual
level of von Willebrand factor functions. The postpartum disease bleeding secondary and
primary occurs frequently. Due to this von Willebrand factor physiologic levels rise throughout
the life. Those suffering the type 1 von Willebrand factor may have standards that are within the
type 3 von Willebrand disease is associated to worse bleeding clinical symptoms. This
characteristic is found both in the mucous membrane and external bleeding and the muscle and
joint bleeds. These conditions are inheritable as the autosomal recessive trait. Kindreds are the
most current continuity with this variant.
Von Willebrand acquired disease occurs, because of von Willebrand factor clearance to
the plasma forming a complex with its antibody. They may be caused as a result of adhesion to
the tumor cells or generated due to the availability of von Willebrand factor that distracts the
multimer or even slowing the digestion of the protein and is also observed with patients suffering
the aortic stenosis (Albahez & Ogiwara, 2016, 958).
Epidemiological aspects of the disease
Von Willebrand disease prevalence is 0.6-1.3 %. The autosomal inheritance patterns
suggest an equal distribution of female’s patients and male’s patients. However, the disease is
diagnosed more in females due to female-homeostatic challenges. These data were collected
through laboratory criteria and conservative clinical. However, most people will have only minor
bleedings in their lifetime; most of them may likely never be referred to medical assistance. The
availability of those related cases to specialized centers for bleeding diagnosis is estimated to be
one example for 10000 people with a cumulative incidence of hemophilia B and A are similar
(Sadler, 2009, 39). The worse von Willebrand disease is very rare disorder and its occurrence
case is one for 1million people and this dependent on ethnic background.
The von Willebrand disease symptoms vary across patients, depending on the residual
level of von Willebrand factor functions. The postpartum disease bleeding secondary and
primary occurs frequently. Due to this von Willebrand factor physiologic levels rise throughout
the life. Those suffering the type 1 von Willebrand factor may have standards that are within the
Von Willebrand Disease 9
normal range when they become older. Still, it is not recognized whether the rise is because of
the reduced bleeding episodes (Topez & Franchini, 2009, 95). The most common von
Willebrand disease symptoms in children are epistaxis and bleeding. In adult menorrhagia,
hematomas, and bleeding from small injuries are the most common symptoms. Majority of
patients experiences bleeding after surgery or dental work. A possible life-threatening and severe
well known bleeding complication is the gastrointestinal bleeding from angiodysplasia. Type 2
and 3 von Willebrand disease is frequent in elderly patients. The intraarticular bleeding is the
frequent complication in patients with hemophilia.
Meanwhile, there has not been reporting as a severe problem to patients with von
Willebrand disease. These conditions might be associated symptoms to type 2N or type 3
infections. Joint bleeding is identified to appear in a wide range of severely affected patients and
has a potential of leading to arthropathy and reduced joint function. The level of the residual
factor VIII strongly determines the collective bleeding risk, as well as the worsening of the von
Willebrand disease (Manucci & Franchini, 2001, 205). Patients in type 3 with the greatest threat
are those with deficient factor VIII levels. Lowered health quality of the patient's life for the
people with von Willebrand disease. Most women in the von Willebrand disease suffer from
menorrhagia, which damages the life quality.
Diagnostic strategy
The von Willebrand disease diagnosis is determined by the personal bleeding history or
the family bleeding history, or both, together with the laboratory tests signifying abnormalities in
von Willebrand factor, factor VIII or both( Favaloro, 2011, 345 ). Assessment of the bleeding
phenotype starts with full history information of the bleeding symptoms of the family members
and the patients. The severity rating of the von Willebrand disease has received significant
normal range when they become older. Still, it is not recognized whether the rise is because of
the reduced bleeding episodes (Topez & Franchini, 2009, 95). The most common von
Willebrand disease symptoms in children are epistaxis and bleeding. In adult menorrhagia,
hematomas, and bleeding from small injuries are the most common symptoms. Majority of
patients experiences bleeding after surgery or dental work. A possible life-threatening and severe
well known bleeding complication is the gastrointestinal bleeding from angiodysplasia. Type 2
and 3 von Willebrand disease is frequent in elderly patients. The intraarticular bleeding is the
frequent complication in patients with hemophilia.
Meanwhile, there has not been reporting as a severe problem to patients with von
Willebrand disease. These conditions might be associated symptoms to type 2N or type 3
infections. Joint bleeding is identified to appear in a wide range of severely affected patients and
has a potential of leading to arthropathy and reduced joint function. The level of the residual
factor VIII strongly determines the collective bleeding risk, as well as the worsening of the von
Willebrand disease (Manucci & Franchini, 2001, 205). Patients in type 3 with the greatest threat
are those with deficient factor VIII levels. Lowered health quality of the patient's life for the
people with von Willebrand disease. Most women in the von Willebrand disease suffer from
menorrhagia, which damages the life quality.
Diagnostic strategy
The von Willebrand disease diagnosis is determined by the personal bleeding history or
the family bleeding history, or both, together with the laboratory tests signifying abnormalities in
von Willebrand factor, factor VIII or both( Favaloro, 2011, 345 ). Assessment of the bleeding
phenotype starts with full history information of the bleeding symptoms of the family members
and the patients. The severity rating of the von Willebrand disease has received significant
Von Willebrand Disease 10
attention in recent years. Numerical scoring symptoms based on a structured questionnaire
usually referred to as bleeding assessment. They have developed and endorsed by the ISTH.
These tools have less diagnostic use because they depend firmly on the number of previous
hemostatic challenges and the age. The method of tools in diagnostic is challenging to use in
young children who have not undergone dental intervention or surgery yet. Another problem to
bleeding-assessment tools is the application of the cumulative scoring. This means that the
patient experienced severe episodes of bleeding earlier and the bleeding score will remain high
even though bleeding does not occur again.
The diagnostic approach begins with assessing the person clinically to an individual who
has symptoms of bleeding mucocutaneous bleeding. Evaluation initially takes into account
family and personal history manifestation of bleeding. These evaluations are aimed at identifying
the sign of bleeding such as severity, spontaneity, and localization. Various tools have been
invented to assist in the diagnosis of disorders in bleeding. These tools are general while others
are symptoms specific.
The von Willebrand factor antigen measurement forms a basis to the diagnosing von
Willebrand disease. Platelets adhesion is factor dependent by the level of von Willebrand factor.
When von Willebrand factor antigens are unable to detect the type 3 of von Willebrand disease is
diagnosed. Meanwhile, usage of a cutoff level of 5 IU shows that the patients with detection 5
strong but shallow, von Willebrand factor antigen levels are supposed to be classified as
possessing type 3 disease (Domino & Canaro, 2013, 1496). Measurement of von Willebrand
propeptide factor, that includes cleaning product formed during the synthesis by von Willebrand
factor. Usually, type 3 disease both propeptide and von Willebrand factor antigen are generally
absent or at deficient levels if present (Battle & Topez, 2009, 95). However, in the severe type 1
attention in recent years. Numerical scoring symptoms based on a structured questionnaire
usually referred to as bleeding assessment. They have developed and endorsed by the ISTH.
These tools have less diagnostic use because they depend firmly on the number of previous
hemostatic challenges and the age. The method of tools in diagnostic is challenging to use in
young children who have not undergone dental intervention or surgery yet. Another problem to
bleeding-assessment tools is the application of the cumulative scoring. This means that the
patient experienced severe episodes of bleeding earlier and the bleeding score will remain high
even though bleeding does not occur again.
The diagnostic approach begins with assessing the person clinically to an individual who
has symptoms of bleeding mucocutaneous bleeding. Evaluation initially takes into account
family and personal history manifestation of bleeding. These evaluations are aimed at identifying
the sign of bleeding such as severity, spontaneity, and localization. Various tools have been
invented to assist in the diagnosis of disorders in bleeding. These tools are general while others
are symptoms specific.
The von Willebrand factor antigen measurement forms a basis to the diagnosing von
Willebrand disease. Platelets adhesion is factor dependent by the level of von Willebrand factor.
When von Willebrand factor antigens are unable to detect the type 3 of von Willebrand disease is
diagnosed. Meanwhile, usage of a cutoff level of 5 IU shows that the patients with detection 5
strong but shallow, von Willebrand factor antigen levels are supposed to be classified as
possessing type 3 disease (Domino & Canaro, 2013, 1496). Measurement of von Willebrand
propeptide factor, that includes cleaning product formed during the synthesis by von Willebrand
factor. Usually, type 3 disease both propeptide and von Willebrand factor antigen are generally
absent or at deficient levels if present (Battle & Topez, 2009, 95). However, in the severe type 1
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Von Willebrand Disease 11
disease, there is a shallow level of the antigen, but the level of the propeptide is normal or
reduced. In instances the von Willebrand factor antigen is measurable. This standard is regarded
in relation to the ristocetin von Willebrand factor with the cofactor activity essay.
The proportional reduction in the von Willebrand factor ristocetin cofactor activity and
von Willebrand factor antigen fits type 1 von Willebrand disease diagnosis. Disproportional
reduction in von Willebrand factor ristocetin cofactor are compared with von Willebrand factor
antigen, this indicates the presence of type 2 disease (Federici & Mannucci, 2005, 538).
Additional striping tests, such as essays of von Willebrand factor multimeters and ristocetin-
induced platelets aggression are supposed to determine the phenotypic characteristics that define
type 2M, 2B, and 2A von Willebrand disease. Factor VIII activity is also measured as the first-
line test6 because the level is reduced frequently in von Willebrand disease types. A reduction in
factor VIII is more significant than the decrease in the von Willebrand factor antigen. Bellow
than 0.2 % Willebrand factor antigen indicates that type 2N von Willebrand disease. This
situation is confirmed by measuring the meshing of factor VIII and von Willebrand factor of
ruling out milder hemophilia A.
Methods used to describe the nature of the disease fully
The Von Willebrand disease disorder is diverse and is categorized into 3 major
categories. Quantitative this includes Type 3 and 1 or qualitative which are type 2B, 2M, 2A,
2N, and the anormalities. Type 1 is differentiated simply from type 3 because of its severe
inadequacy that ranges from 21-40 % of the autosomal dominant in the inheritance transmission
and most of the mutation and mild bleeding manifestation bleeding (Castman & Lethagen, 2008,
3533). The level below 30% suggests the diagnostic of von Willebrand disease, while from 30-
50% are regarded as low von Willebrand factor with major risk of mild bleeding. The type is
disease, there is a shallow level of the antigen, but the level of the propeptide is normal or
reduced. In instances the von Willebrand factor antigen is measurable. This standard is regarded
in relation to the ristocetin von Willebrand factor with the cofactor activity essay.
The proportional reduction in the von Willebrand factor ristocetin cofactor activity and
von Willebrand factor antigen fits type 1 von Willebrand disease diagnosis. Disproportional
reduction in von Willebrand factor ristocetin cofactor are compared with von Willebrand factor
antigen, this indicates the presence of type 2 disease (Federici & Mannucci, 2005, 538).
Additional striping tests, such as essays of von Willebrand factor multimeters and ristocetin-
induced platelets aggression are supposed to determine the phenotypic characteristics that define
type 2M, 2B, and 2A von Willebrand disease. Factor VIII activity is also measured as the first-
line test6 because the level is reduced frequently in von Willebrand disease types. A reduction in
factor VIII is more significant than the decrease in the von Willebrand factor antigen. Bellow
than 0.2 % Willebrand factor antigen indicates that type 2N von Willebrand disease. This
situation is confirmed by measuring the meshing of factor VIII and von Willebrand factor of
ruling out milder hemophilia A.
Methods used to describe the nature of the disease fully
The Von Willebrand disease disorder is diverse and is categorized into 3 major
categories. Quantitative this includes Type 3 and 1 or qualitative which are type 2B, 2M, 2A,
2N, and the anormalities. Type 1 is differentiated simply from type 3 because of its severe
inadequacy that ranges from 21-40 % of the autosomal dominant in the inheritance transmission
and most of the mutation and mild bleeding manifestation bleeding (Castman & Lethagen, 2008,
3533). The level below 30% suggests the diagnostic of von Willebrand disease, while from 30-
50% are regarded as low von Willebrand factor with major risk of mild bleeding. The type is
Von Willebrand Disease 12
related with total lack in von Willebrand factor at platelets and plasma. Type 3 victims 80% of
them are null allege in the von Willebrand factor. The most people are compound heterozygous
or homozygous. The type 2 von Willebrand diseases are autosomal dominant disorders having
large intrusive and are as a result of missense mutations. Type 2N and 3 are the inheritable
manners in an autosomal recessive.
Von Willebrand is mostly milder in type 1 and severity increases in type 3 and 2. The
gravity of the likelihood in bleeding is equal to a deficiency at the primary level of the von
Willebrand factor and secondary lack of FVIII. Mucocutaneous bleeding is an eminent and
typical manifestation of disease and might influence the life quality. FVIII is mildly lowered and
there is the rare manifestation of severe coagulation except in type 3 von Willebrand diseases.
Bleeding after dental work is frequently found in bleeding postoperative manifestation. The
bleeding after surgical work may occur to patients who are affected severely by type 1 & 2
diseases. Post-delivery bleeding is rare to see in type 1 because FVIII/VWF levels try to adjust at
the last stage of pregnancy in the docile type 1 von Willebrand disease.
Disease progression and monitoring of progression
The type 1 von Willebrand disease is caused by an incomplete quantitative defect
generated advanced clearance of von Willebrand factor or reduced secretion. Type 3 is a rare von
Willebrand disease disorder with a complete absence of the von Willebrand factor. Type 2 von
Willebrand disease is caused by obstruction of von Willebrand factor functioning and it is
divided into various variants. Type 2A is due to lofty von Willebrand factor multimeters
molecular weight in the plasma and von Willebrand factor reduced meshing to complex
glycoprotein. Type 2B von Willebrand disease is indicated with an enhanced accord of von
Willebrand factor, though the multimeter plasma distribution is normal. Type 2N von Willebrand
related with total lack in von Willebrand factor at platelets and plasma. Type 3 victims 80% of
them are null allege in the von Willebrand factor. The most people are compound heterozygous
or homozygous. The type 2 von Willebrand diseases are autosomal dominant disorders having
large intrusive and are as a result of missense mutations. Type 2N and 3 are the inheritable
manners in an autosomal recessive.
Von Willebrand is mostly milder in type 1 and severity increases in type 3 and 2. The
gravity of the likelihood in bleeding is equal to a deficiency at the primary level of the von
Willebrand factor and secondary lack of FVIII. Mucocutaneous bleeding is an eminent and
typical manifestation of disease and might influence the life quality. FVIII is mildly lowered and
there is the rare manifestation of severe coagulation except in type 3 von Willebrand diseases.
Bleeding after dental work is frequently found in bleeding postoperative manifestation. The
bleeding after surgical work may occur to patients who are affected severely by type 1 & 2
diseases. Post-delivery bleeding is rare to see in type 1 because FVIII/VWF levels try to adjust at
the last stage of pregnancy in the docile type 1 von Willebrand disease.
Disease progression and monitoring of progression
The type 1 von Willebrand disease is caused by an incomplete quantitative defect
generated advanced clearance of von Willebrand factor or reduced secretion. Type 3 is a rare von
Willebrand disease disorder with a complete absence of the von Willebrand factor. Type 2 von
Willebrand disease is caused by obstruction of von Willebrand factor functioning and it is
divided into various variants. Type 2A is due to lofty von Willebrand factor multimeters
molecular weight in the plasma and von Willebrand factor reduced meshing to complex
glycoprotein. Type 2B von Willebrand disease is indicated with an enhanced accord of von
Willebrand factor, though the multimeter plasma distribution is normal. Type 2N von Willebrand
Von Willebrand Disease 13
disease is affliated with von Willebrand factor multimeter plasma normal distribution but has a
reduced FVIII binding capacity.
The monitoring and progression of von Willebrand disease is hard because of its
heterogeneity and thus requires laboratory tests panels. Screening essay balances the partial
thromboplastin time, platelets function analyser and the bleeding time .essays diagnostic is the
FVIII:C, the VWF:RCo, the VWF.Ag and the VWF: CB. The (RIPA) Ristocetin-induced
platelets aggression and analysis metric are confirmatory tests. Von Willebrand factor functional
essays are under the evaluation of the ability of protein interacting with platelets complex in
ristocetin present and the ability of antibiotic to generate agglutination of platelets by VWF,
VWF: Rco, and measures agglutination of induced ristocetin of the platelets formalin-fixed in the
existence of patients plasma.RIPA assess ristocetin-induced agglutination in the platelets of the
patients in the platelet-rich plasma. Also, RIPA is important in type 2B diagnosis.
Treatment of the disease
The von Willebrand disease treatment is usually categorized into two sections which are
adjunctive therapies that goals at providing an indirect hemostatic benefit. The treatments aim at
increasing the VWF and FVIII of the plasma levels. Adjunctive therapies are used with
important advantage in von Willebrand disease especially in situations such as the moments of
dental procedures and minor surgeries, and the treatment of menorrhagia (Castman & Lethagen,
2008, 3533). The interventions such as the application of antifibrinolytic agents, for example, the
tranexamic acid together with epsilon-aminocaproic acid and the introduction of topical
hemostatic preparations that consists of the fibrin glue presence to the exposed site bleeding.
However, women suffering menorrhagia hormonal therapy administration occurs inform of
combined contraceptives or the progesterone that contains intrauterine systems for example
disease is affliated with von Willebrand factor multimeter plasma normal distribution but has a
reduced FVIII binding capacity.
The monitoring and progression of von Willebrand disease is hard because of its
heterogeneity and thus requires laboratory tests panels. Screening essay balances the partial
thromboplastin time, platelets function analyser and the bleeding time .essays diagnostic is the
FVIII:C, the VWF:RCo, the VWF.Ag and the VWF: CB. The (RIPA) Ristocetin-induced
platelets aggression and analysis metric are confirmatory tests. Von Willebrand factor functional
essays are under the evaluation of the ability of protein interacting with platelets complex in
ristocetin present and the ability of antibiotic to generate agglutination of platelets by VWF,
VWF: Rco, and measures agglutination of induced ristocetin of the platelets formalin-fixed in the
existence of patients plasma.RIPA assess ristocetin-induced agglutination in the platelets of the
patients in the platelet-rich plasma. Also, RIPA is important in type 2B diagnosis.
Treatment of the disease
The von Willebrand disease treatment is usually categorized into two sections which are
adjunctive therapies that goals at providing an indirect hemostatic benefit. The treatments aim at
increasing the VWF and FVIII of the plasma levels. Adjunctive therapies are used with
important advantage in von Willebrand disease especially in situations such as the moments of
dental procedures and minor surgeries, and the treatment of menorrhagia (Castman & Lethagen,
2008, 3533). The interventions such as the application of antifibrinolytic agents, for example, the
tranexamic acid together with epsilon-aminocaproic acid and the introduction of topical
hemostatic preparations that consists of the fibrin glue presence to the exposed site bleeding.
However, women suffering menorrhagia hormonal therapy administration occurs inform of
combined contraceptives or the progesterone that contains intrauterine systems for example
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Von Willebrand Disease 14
Merina. Often these results have a lot of benefits. Moreover, the iron store replacement in an
individual suffering iron deficiency can lead to improved quality of life.
To raise von Willebrand factor and factor VIII instantly to people having von Willebrand
disease two approaches are extensively utilized. These approaches are the parental administration
of desmopressin and infusing of the plasma-derived factor VIII/ von Willebrand factor
concentration. Desmopressin usually is analog synthetic of an antidiuretic hormone vasopressin.
More than 25 years treating von Willebrand disease, subcutaneous, intravenous and intranasal
routes have been utilized extensively in the clinical experience with desmopressin. Meanwhile,
there have been the excellent grouping of the side effects of desmopressin. In many cases, they
are seen as transient and are minor. A headache, facial flushing, and mild tachycardia do not
occur frequently (Goodeve & Erkenboom, 2007, 117)). This is because some patients have been
observed to feel lightheaded immediately after the administration.
Desmopressin plays a significant role in treating or preventing episodes of bleeding in
patients having type 2A, 1, 2N, and 2M von Willebrand disease. However, it is not active 3
patients as the thrombocytopenia maybe exacerbate and this rarely occurs in people with type 2B
von Willebrand disease. Meanwhile, regarding the unpredictable nature of desmopressin
response, persons with von Willebrand disease must go through a therapeutic trial of
administration to diagnose the response status in an individual. The approach of treatment can be
applied to prevent bleeding related to dental procedures and minor injuries and also in the
treatment of severe menstrual bleeding (Tossetto & Rodeghera, 2006, 768). However, if there is
required repeated administration in desmopressin, it should not happen daily. The subsequent
procedure is likely to lead to a reduced response.
Merina. Often these results have a lot of benefits. Moreover, the iron store replacement in an
individual suffering iron deficiency can lead to improved quality of life.
To raise von Willebrand factor and factor VIII instantly to people having von Willebrand
disease two approaches are extensively utilized. These approaches are the parental administration
of desmopressin and infusing of the plasma-derived factor VIII/ von Willebrand factor
concentration. Desmopressin usually is analog synthetic of an antidiuretic hormone vasopressin.
More than 25 years treating von Willebrand disease, subcutaneous, intravenous and intranasal
routes have been utilized extensively in the clinical experience with desmopressin. Meanwhile,
there have been the excellent grouping of the side effects of desmopressin. In many cases, they
are seen as transient and are minor. A headache, facial flushing, and mild tachycardia do not
occur frequently (Goodeve & Erkenboom, 2007, 117)). This is because some patients have been
observed to feel lightheaded immediately after the administration.
Desmopressin plays a significant role in treating or preventing episodes of bleeding in
patients having type 2A, 1, 2N, and 2M von Willebrand disease. However, it is not active 3
patients as the thrombocytopenia maybe exacerbate and this rarely occurs in people with type 2B
von Willebrand disease. Meanwhile, regarding the unpredictable nature of desmopressin
response, persons with von Willebrand disease must go through a therapeutic trial of
administration to diagnose the response status in an individual. The approach of treatment can be
applied to prevent bleeding related to dental procedures and minor injuries and also in the
treatment of severe menstrual bleeding (Tossetto & Rodeghera, 2006, 768). However, if there is
required repeated administration in desmopressin, it should not happen daily. The subsequent
procedure is likely to lead to a reduced response.
Von Willebrand Disease 15
Patients whose desmopressin is contraindicated or ineffective or there are situations
where it linked with a major risk of significant bleeding, and the hemostatic duration support
required lasts more than 2-3 days. Through the coagulation of the plasma-derived concentrates
the Factor VIII and levels of von Willebrand factor regains. Due to lack of ability to inactivate
cryoprecipitate and absence of any licensed recombinant von Willebrand factor concentrate has
led an extensive application of several plasmas derived factor VIII products von Willebrand
factor (Rodeghiero& Castman, 2005, 2669).
Substitution therapy is another method of treating this disease and consists of infusing of
ready of concentrated blood-clotting factors containing factor VIII and von Willebrand factor.
These therapies can be applied to all types of diseases. This can is recommended when the
DDAVP is not an option or it was not effective. Another replacement therapy for treating adults
who are 18 years and beyond is genetically engineered von Willebrand factor product. This is
because the recombinant factor made in the absence of plasma might reduce the risk of allergies
reaction or infection.
Contraceptives in women can be important in regulating heavy bleeding at the menstrual
bleeding. The estrogen can boost the von Willebrand factor and factor VIII activity. However, it
is usually done control birth and further study is required. Also, there are closing-stabilizing
medications. They include anti-fibrinolytic medicines like aminocaproic acid and the tranexamic
acid. These medications can assist to deter bleeding by reducing the breaking down of blood
clots. The drugs are prescribed before and after tooth extraction and surgical work.
Empirical study investigation data
Patients whose desmopressin is contraindicated or ineffective or there are situations
where it linked with a major risk of significant bleeding, and the hemostatic duration support
required lasts more than 2-3 days. Through the coagulation of the plasma-derived concentrates
the Factor VIII and levels of von Willebrand factor regains. Due to lack of ability to inactivate
cryoprecipitate and absence of any licensed recombinant von Willebrand factor concentrate has
led an extensive application of several plasmas derived factor VIII products von Willebrand
factor (Rodeghiero& Castman, 2005, 2669).
Substitution therapy is another method of treating this disease and consists of infusing of
ready of concentrated blood-clotting factors containing factor VIII and von Willebrand factor.
These therapies can be applied to all types of diseases. This can is recommended when the
DDAVP is not an option or it was not effective. Another replacement therapy for treating adults
who are 18 years and beyond is genetically engineered von Willebrand factor product. This is
because the recombinant factor made in the absence of plasma might reduce the risk of allergies
reaction or infection.
Contraceptives in women can be important in regulating heavy bleeding at the menstrual
bleeding. The estrogen can boost the von Willebrand factor and factor VIII activity. However, it
is usually done control birth and further study is required. Also, there are closing-stabilizing
medications. They include anti-fibrinolytic medicines like aminocaproic acid and the tranexamic
acid. These medications can assist to deter bleeding by reducing the breaking down of blood
clots. The drugs are prescribed before and after tooth extraction and surgical work.
Empirical study investigation data
Von Willebrand Disease 16
Von will brand disease is the more well-known bleeding disorder. In an investigation
case study was conducted in the von Willebrand diagnosis in the developing countries had
several findings. The aim of the case investigation was to establish whether von Willebrand is
still a major threat to developing as it is in the western countries. These data was as a result of
the laboratory. The following data concerning the information gathered in the laboratory test on
individuals are as follows.
Laboratory finding related with various types of von Willebrand disease.
Type 1 Type 2A Type 3 Type 2M Type 2B Type 2N
VWF: Ag ↓ or ↓ ↓ absent
(<0.06
U/mL)
↓ ↓ ↓ normal or ↓
Multimers ↓ or ↓ ↓ absent
(<0.04
U/mL)
↓ ↓ or ↓↓↓ ↓ ↓ ↓ ↓ normal or ↓
VWF:RCo
/ VWF:Ag
ratio
normal or ↓ 0.01-
0.08U/mL
normal or ↓ normal or ↓ normal or ↓ ↓ ↓ or ↓↓↓
VWF:RCo
/ VWF:Ag
ratio
FVIII:C
>0.5 not used <0.5 <0.5 <0.5 <0.4
VWF: RCo normal Not present loss of high
molecular
weight
multimers
high
molecular
weight
multimers
loss
Normal normal
Von will brand disease is the more well-known bleeding disorder. In an investigation
case study was conducted in the von Willebrand diagnosis in the developing countries had
several findings. The aim of the case investigation was to establish whether von Willebrand is
still a major threat to developing as it is in the western countries. These data was as a result of
the laboratory. The following data concerning the information gathered in the laboratory test on
individuals are as follows.
Laboratory finding related with various types of von Willebrand disease.
Type 1 Type 2A Type 3 Type 2M Type 2B Type 2N
VWF: Ag ↓ or ↓ ↓ absent
(<0.06
U/mL)
↓ ↓ ↓ normal or ↓
Multimers ↓ or ↓ ↓ absent
(<0.04
U/mL)
↓ ↓ or ↓↓↓ ↓ ↓ ↓ ↓ normal or ↓
VWF:RCo
/ VWF:Ag
ratio
normal or ↓ 0.01-
0.08U/mL
normal or ↓ normal or ↓ normal or ↓ ↓ ↓ or ↓↓↓
VWF:RCo
/ VWF:Ag
ratio
FVIII:C
>0.5 not used <0.5 <0.5 <0.5 <0.4
VWF: RCo normal Not present loss of high
molecular
weight
multimers
high
molecular
weight
multimers
loss
Normal normal
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Von Willebrand Disease 17
Also, assessment of von Willebrand related disorders were conducted. The prevalence of the
disease was as follows.
Clinical spectrum Count Percentage
Gum bleeding 22 30.7
Circumcision 16 25.1
Hematoma 16 25.2
Menorrhagia 14 22.1
Bleeding after trauma 13 18.1
Hemarthrosis 11 19.1
Bruises 04 14.7
Hematuria 03 4.4
Epistaxis 02 2.9
Umbilical cord bleeding 03 4.4
The bleeding disorders incidences vary according to ethnic origin and country. The
research illustrated that von Willebrand is the frequent inherited disorder in western countries.
Meanwhile, the studies conducted in India and Iran reported the low prevalence on von
Willebrand factors. There is a broad spectrum of clinical characteristics of bleeding on the
people in which the research was conducted. The data also outlined that women had a high
prevalence of menorrhagia all population at general.
It is essential to point out that new pathological insights in the past decades have emerged
into von Willebrand disease treatment and diagnostic approaches. Meanwhile, this can be further
improved by introducing more reproducible and rapid assays of von Willebrand factor function.
The mutation identification in von Willebrand factor will be facilitated by sequencing. More use
of prophylactic treatment for patients who are affected severely patients is warranted,
considering the beneficial effects reported. A further study is needed because there is low
information in the finite in the countries that are developing. This will, in turn, assist accurate
diagnosis of bleeding disorders thus proper treatment and management.
Also, assessment of von Willebrand related disorders were conducted. The prevalence of the
disease was as follows.
Clinical spectrum Count Percentage
Gum bleeding 22 30.7
Circumcision 16 25.1
Hematoma 16 25.2
Menorrhagia 14 22.1
Bleeding after trauma 13 18.1
Hemarthrosis 11 19.1
Bruises 04 14.7
Hematuria 03 4.4
Epistaxis 02 2.9
Umbilical cord bleeding 03 4.4
The bleeding disorders incidences vary according to ethnic origin and country. The
research illustrated that von Willebrand is the frequent inherited disorder in western countries.
Meanwhile, the studies conducted in India and Iran reported the low prevalence on von
Willebrand factors. There is a broad spectrum of clinical characteristics of bleeding on the
people in which the research was conducted. The data also outlined that women had a high
prevalence of menorrhagia all population at general.
It is essential to point out that new pathological insights in the past decades have emerged
into von Willebrand disease treatment and diagnostic approaches. Meanwhile, this can be further
improved by introducing more reproducible and rapid assays of von Willebrand factor function.
The mutation identification in von Willebrand factor will be facilitated by sequencing. More use
of prophylactic treatment for patients who are affected severely patients is warranted,
considering the beneficial effects reported. A further study is needed because there is low
information in the finite in the countries that are developing. This will, in turn, assist accurate
diagnosis of bleeding disorders thus proper treatment and management.
Von Willebrand Disease 18
References
Albanez, S and Ogiwara, K., 2016. Aging and ABO blood type influence von Willebrand factor
and factor VIII levels through interrelated mechanisms. J. Thromb. Haemost. 14, pp.953–963
Batlle, J and Lopez-Fernandez, M.F., 2009. Von Willebrand factor/factor VIII concentrates in
the treatment of von Willebrand disease. Blood Coagul. Fibrinolysis,20, pp.89–100.
Blombäck, M., Jorpes, J.E. and Nilsson, I.M., 1963. von Willebrand's disease. The American
journal of medicine, 34(2), pp.236-241.
Castaman, G and Goodeve, A., 2013. The European Group on von Willebrand Disease
(EUVWD). Principles of care for diagnosis and treatment of von Willebrand disease.
Haematologica 98, pp.667–674
Castaman, G and Federici, A.B., 2003. Von Willebrand’s disease in the year 2003: Towards the
complete identification of gene defects for correct diagnosis and treatment. Haematologica. 88,
pp.94–108.
Castaman, G and Federici, A.B., 2012. Different bleeding risk in type 2A and 2M von
Willebrand disease: A two-year prospective study in 107 patients. J. Thromb. Haemost. 10,
pp.632–638.
Castaman, G and Lethagen, S.,2008. Response to desmopressin is influenced by the genotype
and the phenotype in type 1 von Willebrand disease (VWD): Results from the European study
MCMDM-1 VWD. 111, pp.3531–3539.
Castaman, G., Tosetto, A. and Rodeghiero, F., 2009. von Willebrand disease. Practical
Hemostasis and Thrombosis, 6, pp.51-61.
References
Albanez, S and Ogiwara, K., 2016. Aging and ABO blood type influence von Willebrand factor
and factor VIII levels through interrelated mechanisms. J. Thromb. Haemost. 14, pp.953–963
Batlle, J and Lopez-Fernandez, M.F., 2009. Von Willebrand factor/factor VIII concentrates in
the treatment of von Willebrand disease. Blood Coagul. Fibrinolysis,20, pp.89–100.
Blombäck, M., Jorpes, J.E. and Nilsson, I.M., 1963. von Willebrand's disease. The American
journal of medicine, 34(2), pp.236-241.
Castaman, G and Goodeve, A., 2013. The European Group on von Willebrand Disease
(EUVWD). Principles of care for diagnosis and treatment of von Willebrand disease.
Haematologica 98, pp.667–674
Castaman, G and Federici, A.B., 2003. Von Willebrand’s disease in the year 2003: Towards the
complete identification of gene defects for correct diagnosis and treatment. Haematologica. 88,
pp.94–108.
Castaman, G and Federici, A.B., 2012. Different bleeding risk in type 2A and 2M von
Willebrand disease: A two-year prospective study in 107 patients. J. Thromb. Haemost. 10,
pp.632–638.
Castaman, G and Lethagen, S.,2008. Response to desmopressin is influenced by the genotype
and the phenotype in type 1 von Willebrand disease (VWD): Results from the European study
MCMDM-1 VWD. 111, pp.3531–3539.
Castaman, G., Tosetto, A. and Rodeghiero, F., 2009. von Willebrand disease. Practical
Hemostasis and Thrombosis, 6, pp.51-61.
Von Willebrand Disease 19
Di Minno, G and Canaro, M., 2013. Pathogen safety of long-term treatments for bleeding
disorders: Still relevant to current practice. Haematologica98, pp1495–1498
Dong, J.F. 2005., Cleavage of ultra-large von Willebrand factor by ADAMTS-13 under flow
conditions. J. Thromb. Haemost. 3, pp.1710–1716.
Favaloro, E.J., 2011.Von Willebrand disease Local diagnosis and management of a globally
distributed bleeding disorder. Semin. Thromb. Hemost. 37, pp.425–426.
Federici, A.B and Mannucci, P.M., 2009. Clinical and molecular predictors of thrombocytopenia
and risk of bleeding in patients with von Willebrand disease type 2B: A cohort study of 67
patients Blood, 113, pp.526–534.
Federici, A.B., 2003. The factor VIII/von Willebrand factor complex: Basic and clinical issues.
Haematologic, 88, EREP02.
Ginsburg, D. and Sadler, E.J., 1993. Von Willebrand disease: a database of point mutations,
insertions, and deletions. Thrombosis and haemostasis, 70(02), pp.177-184.
Goodeve, A and Eikenboom, J., 2007. Phenotype and genotype of a cohort of families
historically diagnosed with type 1 von Willebrand disease in the European study, Molecular and
Clinical Markers for the Diagnosis and Management of Type 1 von Willebrand Disease
(MCMDM-1 VWD). Blood, 109, pp.112–121
Haberichter, S.L., 2015. Von Willebrand factor propeptide: Biology and clinical utility. Blood,
126, pp.1753–1761
Hampshire, D.J. and Goodeve, A.C., 2011. The International Society on Thrombosis and
Haemostasis von Willebrand Disease Database: An update. Semin. Thromb. Hemost. 37,
pp.470–479.
Di Minno, G and Canaro, M., 2013. Pathogen safety of long-term treatments for bleeding
disorders: Still relevant to current practice. Haematologica98, pp1495–1498
Dong, J.F. 2005., Cleavage of ultra-large von Willebrand factor by ADAMTS-13 under flow
conditions. J. Thromb. Haemost. 3, pp.1710–1716.
Favaloro, E.J., 2011.Von Willebrand disease Local diagnosis and management of a globally
distributed bleeding disorder. Semin. Thromb. Hemost. 37, pp.425–426.
Federici, A.B and Mannucci, P.M., 2009. Clinical and molecular predictors of thrombocytopenia
and risk of bleeding in patients with von Willebrand disease type 2B: A cohort study of 67
patients Blood, 113, pp.526–534.
Federici, A.B., 2003. The factor VIII/von Willebrand factor complex: Basic and clinical issues.
Haematologic, 88, EREP02.
Ginsburg, D. and Sadler, E.J., 1993. Von Willebrand disease: a database of point mutations,
insertions, and deletions. Thrombosis and haemostasis, 70(02), pp.177-184.
Goodeve, A and Eikenboom, J., 2007. Phenotype and genotype of a cohort of families
historically diagnosed with type 1 von Willebrand disease in the European study, Molecular and
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Von Willebrand Disease 20
Leebeek, F.W. and Eikenboom, J.C., 2016. Von Willebrand’s disease. New England Journal of
Medicine, 375(21), pp.2067-2080.
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Nichols, W.L., Hultin, M.B., James, A.H., Manco‐Johnson, M.J., Montgomery, R.R., Ortel, T.L.,
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O’Donnel, J and Laffan, M.A., 2001. The relationship between ABO histo-blood group, factor
VIII and von Willebrand factor. Transfus. Med. 11, pp.343–351.
Leebeek, F.W. and Eikenboom, J.C., 2016. Von Willebrand’s disease. New England Journal of
Medicine, 375(21), pp.2067-2080.
Mancuso, D.J and Tuley, E.A., 1997. Human von Willebrand factor gene and pseudogene:
Structural analysis and differentiation by polymerase chain reaction. Biochemistry, 30, pp.253–
269.
Mannucci, P.M and Franchini, M., 2011. The use of plasma-derived concentrates. In Von
Willebrand Disease; Federici, A.B., Lee, C.A., Eds.; Wiley-Blackwell: Oxford, UK, pp. 200–
206.
Mannucci, P.M and Tamaro, G.,1987. Life-threatening reaction to factor VIII concentrate in a
patient with severe von Willebrand disease and alloantibodies to von Willebrand factor. Eur. J.
Hematol, 39, pp.467–470.
Mannucci, P.M.; Lusher., J.M.,1989. Desmopressin and thrombosis. Lancet, 2, pp.675–676.
Nichols, W.C. and Ginsburg, D., 1997. von Willebrand disease. Medicine, 76(1), pp.1-20.
Nichols, W.L., Hultin, M.B., James, A.H., Manco‐Johnson, M.J., Montgomery, R.R., Ortel, T.L.,
Rick, M.E., Sadler, J.E., Weinstein, M. and Yawn, B.P., 2008. von Willebrand disease (VWD):
evidence‐based diagnosis and management guidelines, the National Heart, Lung, and Blood
Institute (NHLBI) Expert Panel report (USA) 1. Haemophilia, 14(2), pp.171-232.
Nichols, W.L., Hultin, M.B., James, A.H., Manco‐Johnson, M.J., Montgomery, R.R., Ortel, T.L.,
Rick, M.E., Sadler, J.E., Weinstein, M. and Yawn, B.P., 2008. von Willebrand disease (VWD):
evidence‐based diagnosis and management guidelines, the National Heart, Lung, and Blood
Institute (NHLBI) Expert Panel report (USA) 1. Haemophilia, 14(2), pp.171-232.
O’Donnel, J and Laffan, M.A., 2001. The relationship between ABO histo-blood group, factor
VIII and von Willebrand factor. Transfus. Med. 11, pp.343–351.
Von Willebrand Disease 21
Peyvandi, F., Palla, R., Menegatti, M and Mannucci, P.M., 2009. Introduction: Rare bleeding
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Haemost.3, pp. 2619–3626
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Sadler, J.E and Budde, U., 2006. Update on the pathophysiology and classification of von
Willebrand disease: A report of the Subcommittee on von Willebrand Factor. J. Thromb.
Haemost. 4, pp.2013–2014
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pp.2089–2093.
Sadler, J.E., 2009. Low von Willebrand factor: Sometimes a risk factor and sometimes a disease.
Hematology 10, pp.34-42.
Tosetto, A and Rodeghiero, F., 2006. A quantitative analysis of bleeding symptoms in type 1 von
Willebrand disease: Results from a multicenter European study (MCMDM-1 VWD). J. Thromb.
Haemost. 4, pp.766–773.
Peyvandi, F., Palla, R., Menegatti, M and Mannucci, P.M., 2009. Introduction: Rare bleeding
disorders: General aspects of clinical features, diagnosis and management. Semin. Thromb.
Hemost.35, pp.349–355
Rodeghiero, F and Castaman, G., 2005. The discriminant power of bleeding history for the
diagnosis of type 1 von Willebrand disease: An international, multicenter study. J. Thromb.
Haemost.3, pp. 2619–3626
Rodeghiero, F and Castaman, G., 2009. How I treat von Willebrand disease. Blood, 114,
pp.1158–1165.
Ruggeri, Z.M. 2001., Structure of von Willebrand factor and its function in platelet adhesion and
thrombus formation. Clin. Haematol, 14, pp.257–279
Ruggeri, Z.M. and Zimmerman, T.S., 1987. von Willebrand factor and von Willebrand disease
[published erratum appears in Blood 1988 Mar; 71 (3): 830]. Blood, 70(4), pp.895-904.
Sadler, J.E and Budde, U., 2006. Update on the pathophysiology and classification of von
Willebrand disease: A report of the Subcommittee on von Willebrand Factor. J. Thromb.
Haemost. 4, pp.2013–2014
Sadler, J.E. 2009., Von Willebrand disease type 1: A diagnosis in search of a disease. Blood 101,
pp.2089–2093.
Sadler, J.E., 2009. Low von Willebrand factor: Sometimes a risk factor and sometimes a disease.
Hematology 10, pp.34-42.
Tosetto, A and Rodeghiero, F., 2006. A quantitative analysis of bleeding symptoms in type 1 von
Willebrand disease: Results from a multicenter European study (MCMDM-1 VWD). J. Thromb.
Haemost. 4, pp.766–773.
Von Willebrand Disease 22
Wagner, D.D. and Marder, V.J., 1983. Biosynthesis of von Willebrand protein by human
endothelial cells. Identification of a large precursor polypeptide chain. J. Biol. Chem, 258,
pp.2065–2067.
Yee, A. and Kretz, C.A., 2014. Von Willebrand factor: form for function. Semin. Thromb.
Hemost, 40, pp.17–27
Zimmerman, T.S. and Ruggeri, Z.M., 1987. von Willebrand disease. Human pathology, 18(2),
pp.140-152.
Wagner, D.D. and Marder, V.J., 1983. Biosynthesis of von Willebrand protein by human
endothelial cells. Identification of a large precursor polypeptide chain. J. Biol. Chem, 258,
pp.2065–2067.
Yee, A. and Kretz, C.A., 2014. Von Willebrand factor: form for function. Semin. Thromb.
Hemost, 40, pp.17–27
Zimmerman, T.S. and Ruggeri, Z.M., 1987. von Willebrand disease. Human pathology, 18(2),
pp.140-152.
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