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BLEEDING DISORDERS
HEMOSTASIS
Hemostasis:
cessation of blood loss from a
damaged vessel
• Primary
1. VASCULAR PHASE
2.PLATELET
PHASE
•Secondary
3. COAGULATION PHASE
4. FIBRINOLYTIC PHASE
Lab Tests
Hemostasis
BV Injury
Tissue
Factor
Neural
Blood Vessel
Constriction
Platelet
Aggregation
•CBC-Plt
•BT,(CT)
•PT
•PTT
Coagulation
Cascade
Primary hemostatic plug
Reduced
Blood flow
Platelet
Activation
Fibrin
formation
Plt Study
Stable Hemostatic Plug
Morphology
Function
Antibody

Damage to small blood vessels and capillaries frequently occurs. When
these vessels are damaged, there are three basic mechanisms that promote
hemostasis or the stoppage of bleeding.
Following damage, there is an immediate reflex that promotes
vasoconstriction, thus diminishing blood loss. Exposed collagen from the
damaged site will promote the platelets to adhere.
When platelets adhere to the damaged vessel, they undergo degranulation
and release cytoplasmic granules, which contain serotonin, a
vasoconstrictor, and ADP and Thromboxane A2.
The ADP attracts more platelets to the area, and the thromboxane
A2 promotes platelet aggregation, degranulation, and vasoconstriction.
Thus ADP and thromboxane A2 promote more platelet adhesion and
therefore more ADP and thromboxane. The positive feedback promotes
the formation of a platelet plug.
The final hemostatic mechanism is coagulation.
NORMAL CLOTTING
Response to vessle injury
1. Vasoconstriction to reduce blood flow
2. Platelet plug formation (von willebrand factor binds
damaged vessle and platelets)
3. Activation of clotting cascade with generation of fibrin
clot formation
4. Fibrinlysis (clot breakdown)
VASCULAR PHASE
WHEN A BLOOD VESSEL IS
DAMAGED, VASOCONSTRICTION
RESULTS.
PLATELET PHASE
PLATELETS ADHERE TO THE
DAMAGED SURFACE AND FORM A
TEMPORARY PLUG.
COAGULATION PHASE
THROUGH TWO SEPARATE
PATHWAYS THE CONVERSION OF
FIBRINOGEN TO FIBRIN IS
COMPLETE.
THE CLOTTING MECHANISM
INTRINSIC
EXTRINSIC
Collagen
Tissue Thromboplastin
XII
XI
IX
VIII
VII
X
FIBRINOGEN
(I)
V
PROTHROMBIN
(II)
THROMBIN
(III)
FIBRIN
FIBRINOLYTIC PHASE
ANTICLOTTING MECHANISMS ARE
ACTIVATED TO ALLOW CLOT
DISINTEGRATION AND REPAIR OF
THE DAMAGED VESSEL.
Three Layers of the Blood Vessel




Tunica intima:
endothelial cells (EC) &
subendothelium
Tunica media:
smooth muscles &
extracellular matrix
Tunica adventitia:
fibroblasts & cellular
matrix(loose connective
tissue)
The Endothelial Cell (EC)


1. Intact, healthy EC produces and is “teflon” coated
with prostacyclin (PGI2)
– RESTING STATE



A vasodilator
Inhibits platelet adhesion
Acts in opposition to the platelet thromboxane A2

2. EC coated w/ heparin sulfate which activates antithrombin III in plasma & stops thrombosis

3. Synthesis of Factor VIII – vonWillebrand factor

vWF synthesized in platelets & EC
The Amazing Platelet



1. Secrete procoagulants which promote clotting
2. Secrete vasoconstrictors causing vascular spasm
in injured blood vessels
3. as they aggregate they undergo degranulation
releasing:






serotonin (vasoconstrictor),
ADP (attractant)-calls for more platelets to help,
thromboxane A2 –(clot promoter)
4. form temporary platelet plugs to stop bleeding
5. dissolves blood clots that have outlasted their usefulness
6. inflammation and remodeling
Life of a Platelet

MEGAKARYOCYTE (“mama” cell) fragmentation
in marrow

•
•

thrombopoietin (TPO) stimulates production
produced in liver, bone marrow & kidney
1/3 sequestered to the spleen
2/3 into circulation (150-450,000 per microliter of blood).
LIFE SPAN 7 TO 10 DAYS

(RBCs 90-120 days, WBCs 1 day)
HEMOSTASIS
DEPENDENT UPON:
 Vessel Wall Integrity
 Adequate Numbers of Platelets
 Proper Functioning Platelets
 Adequate Levels of Clotting Factors
 Proper Function of Fibrinolytic Pathway
LABORATORY EVALUATION





PLATELET COUNT
BLEEDING TIME (BT)
PROTHROMBIN TIME (PT)
PARTIAL THROMBOPLASTIN TIME (PTT)
THROMBIN TIME (TT)
PLATELET COUNT
 NORMAL
100,000 - 400,000 CELLS/MM
3
< 100,000
Thrombocytopenia
50,000 - 100,000
Mild Thrombocytopenia
< 50,000
Sev Thrombocytopenia
BLEEDING TIME
 PROVIDES ASSESSMENT OF PLATELET
COUNT AND FUNCTION
NORMAL VALUE
2-8 MINUTES
PROTHROMBIN TIME


Measures Effectiveness of the Extrinsic
Pathway
Mnemonic - PET
NORMAL VALUE
10-15 SECS
PARTIAL THROMBOPLASTIN TIME
 Measures Effectiveness of the Intrinsic
Pathway
 Mnemonic - PITT
NORMAL VALUE
25-40 SECS
THROMBIN TIME


Time for Thrombin To Convert
Fibrinogen
Fibrin
A Measure of Fibrinolytic Pathway
NORMAL VALUE
9-13 SECS
So What Causes Bleeding
Disorders?
 VESSEL DEFECTS
 PLATELET DISORDERS
 FACTOR DEFICIENCIES
 OTHER DISORDERS
?
?
VESSEL DEFECTS
 VITAMIN C DEFICIENCY
 BACTERIAL & VIRAL INFECTIONS
 ACQUIRED &
 HEREDITARY CONDITIONS
Vascular defect - cont.

Infectious and hypersensitivity vasculitides
- Rickettsial and meningococcal infections
- Henoch-Schonlein purpura (immune)
PLATELET DISORDERS
 THROMBOCYTOPENIA
 THROMBOCYTOPATHY
THROMBOCYTOPENIA
INADEQUATE NUMBER
OF PLATELETS
THROMBOCYTOPATHY
ADEQUATE NUMBER BUT
ABNORMAL FUNCTION
THROMBOCYTOPENIA
 DRUG INDUCED Furosemide.**Gold, used to treat
arthritis.**Nonsteroidal anti-inflammatory drugs
(NSAIDs)**Penicillin.**Quinidine.**Quinine.**Ranitidine.*
*Sulfonamides.
 BONE MARROW FAILURE
 HYPERSPLENISM
 OTHER CAUSES ITP, TTP, HUS, Pregnancy, Liver
disease,

OTHER CAUSES
 Lymphoma
 HIV
Virus
 Idiopathic Thrombocytopenia Purpura (ITP)
THROMBOCYTOPATHY




UREMIA
INHERITED DISORDERS
MYELOPROLIFERATIVE DISORDERS
DRUG INDUCED
FACTOR DEFICIENCIES
(CONGENITAL)

HEMOPHILIA A

HEMOPHILIA B

von WILLEBRAND’S DISEASE
FACTOR DEFICIENCIES
 HEMOPHILIA A (Classic Hemophilia)
80-85% of all Hemophiliacs
Deficiency of Factor VIII
Lab Results - Prolonged PTT
 HEMOPHILIA B (Christmas Disease)
10-15% of all Hemophiliacs
Deficiency of Factor IX
Lab Test - Prolonged PTT
FACTOR DEFICIENCIES

VON WILLEBRAND’S DISEASE
 Deficiency
of VWF & amount of Factor VIII
 Lab Results - Prolonged BT, PTT
OTHER DISORDERS
(ACQUIRED)

ORAL ANTICOAGULANTS





COUMARIN
HEPARIN
LIVER DISEASE
MALABSORPTION
BROAD-SPECTRUM ANTIBIOTICS
INHIBITORS
30% of people with haemophilia develop an antibody to the
clotting factor they are receiving for treatment. These
antibodies are known as inhibitors.
These patients are treated with high does of FVIIa for bleeds or
surgery. This overrides defect in FVIII or FIX deficiency.
Longterm management involves attempting to eradicate
inhibitors by administering high dose FVIII (or FIX) in a
process called immune tolerance
Bleeding Disorders
Clinical Features of Bleeding Disorders
Platelet
disorders
Coagulation
factor disorders
Site of bleeding
Skin
Mucous membranes
(epistaxis, gum,
vaginal, GI tract)
Deep in soft tissues
(joints, muscles)
Petechiae
Yes
No
Ecchymoses (“bruises”)
Small, superficial
Large, deep
Hemarthrosis / muscle bleeding
Extremely rare
Common
Bleeding after cuts & scratches
Yes
No
Bleeding after surgery or trauma
Immediate,
usually mild
Delayed (1-2 days),
often severe
Platelet
Petechiae, Purpura
Coagulation
Hematoma, Joint bl.
Petechiae
(typical of platelet disorders)
Do not blanch with pressure
(cf. angiomas)
Not palpable
(cf. vasculitis)
Hemarthrosis
Hematoma
Petechiae
Purpura
Ecchymosis
Henoch-Schonlein purpura

Ecchymoses
(typical of coagulation
factor disorders)
Coagulation factor disorders

Inherited bleeding
disorders



Hemophilia A and B
vonWillebrands disease
Other factor deficiencies

Acquired bleeding
disorders



Liver disease
Vitamin K
deficiency/warfarin
overdose
DIC
Hemophilia A and B
Coagulation factor deficiency
Inheritance
Incidence
Severity
Complications
Hemophilia A
Hemophilia B
Factor VIII
Factor IX
X-linked
recessive
X-linked
recessive
1/10,000 males
1/50,000 males
Related to factor level
<1% - Severe - spontaneous bleeding
1-5% - Moderate - bleeding with mild injury
5-25% - Mild - bleeding with surgery or trauma
Soft tissue bleeding
Hemophilia
Clinical manifestations (hemophilia A & B are
indistinguishable)
Hemarthrosis (most common)
Fixed joints
Soft tissue hematomas (e.g., muscle)
Muscle atrophy
Shortened tendons
Other sites of bleeding
Urinary tract
CNS, neck (may be life-threatening)
Prolonged bleeding after surgery or dental extractions
Hemarthrosis (acute)
Treatment of hemophilia A

Intermediate purity plasma products



High purity (monoclonal) plasma products



Virucidally treated
May contain von Willebrand factor
Virucidally treated
No functional von Willebrand factor
Recombinant factor VIII


Virus free/No apparent risk
No functional von Willebrand factor
Dosing guidelines for hemophilia A


Mild bleeding

Target: 30% dosing q8-12h; 1-2 days (15U/kg)

Hemarthrosis, oropharyngeal or dental, epistaxis, hematuria
Major bleeding

Target: 80-100% q8-12h; 7-14 days (50U/kg)

CNS trauma, hemorrhage, lumbar puncture
Surgery
Retroperitoneal hemorrhage
GI bleeding




Adjunctive therapy
 -aminocaproic acid (Amicar) or DDAVP (for mild disease only)
Complications of therapy

Formation of inhibitors (antibodies)



10-15% of severe hemophilia A patients
1-2% of severe hemophilia B patients
Viral infections



Hepatitis B
Hepatitis C
HIV
Human parvovirus
Hepatitis A
Other
Viral infections in hemophiliacs
Hepatitis serology
Negative
Hepatitis B virus only
Hepatitis C virus only
Hepatitis B and C
Blood 1993:81;412-418
HIV -positive
(n=382)
53%
% positive
HIV-negative
(n=345)
47%
% negative
1
1
24
74
20
1
45
34
Treatment of hemophilia B

Agent



High purity factor IX
Recombinant human factor IX
Dose


Initial dose: 100U/kg
Subsequent: 50U/kg every 24 hours
von Willebrand Disease: Clinical Features

von Willebrand factor






Synthesis in endothelium and megakaryocytes
Forms large multimer
Carrier of factor VIII
Anchors platelets to subendothelium
Bridge between platelets

Inheritance - autosomal dominant
Incidence - 1/10,000

Clinical features - mucocutaneous bleeding
von Willebrand Disease

The most common signs of von Willebrand
disease (vWD) include nosebleeds and
hematomas. Prolonged bleeding from trivial
wounds, oral cavity bleeding, and excessive
menstrual bleeding are common. Gastrointestinal
bleeding rarely occurs. ... Exacerbation of
bleeding symptoms - After ingestion of aspirin.








Easy bruising - Common but nonspecific
Prolonged bleeding - After minor trauma to skin or mucous
membranes
Severe hemorrhage - After major surgery; less common
Delayed bleeding - May occur up to several weeks after surgery
Heavy bleeding - Common after tooth extraction or other oral
surgery, such as tonsillectomy and adenoidectomy
Menorrhagia - Common presenting complaint in women
Exacerbation of bleeding symptoms - After ingestion of aspirin
Amelioration of bleeding symptoms with use of oral
contraceptives


Laboratory evaluation of
von Willebrand disease
Classification
 Type 1
 Type 2
 Type 3
Partial quantitative deficiency
Qualitative deficiency
Total quantitative deficiency
Diagnostic tests:
Assay
vWF antigen
vWF activity
Multimer analysis
1


Normal
vonWillebrand type
2
Normal

Normal
3


Absent
Treatment of von Willebrand Disease

Cryoprecipitate



DDAVP (deamino-8-arginine vasopressin)





Source of fibrinogen, factor VIII and VWF
Only plasma fraction that consistently contains VWF multimers
 plasma VWF levels by stimulating secretion from endothelium
Duration of response is variable
Not generally used in type 2 disease
Dosage 0.3 µg/kg q 12 hr IV
Factor VIII concentrate (Intermediate purity)
Vitamin K deficiency

Source of vitamin K
Green vegetables
Synthesized by intestinal flora

Required for synthesis
Factors II, VII, IX ,X
Protein C and S

Causes of deficiency
Malnutrition
Biliary obstruction
Malabsorption
Antibiotic therapy

Treatment
Vitamin K
Fresh frozen plasma
Common clinical conditions associated with
Disseminated Intravascular Coagulation
Activation of both coagulation and fibrinolysis
Triggered by

Sepsis

Obstetrical complications


Trauma



Head injury
Fat embolism

Amniotic fluid embolism
Abruptio placentae

Vascular disorders

Reaction to toxin (e.g.
snake venom, drugs)

Immunologic disorders
Malignancy


Severe allergic reaction
Transplant rejection
Disseminated Intravascular Coagulation (DIC)
Mechanism
Systemic activation
of coagulation
Intravascular
deposition of fibrin
Thrombosis of small
and midsize vessels
with organ failure
Depletion of platelets
and coagulation factors
Bleeding
Pathogenesis of DIC
Release of
thromboplastic
material into
circulation
Coagulation
Fibrinolysis
Fibrinogen
Plasmin
Thrombin
Fibrin
Monomers
Fibrin
Clot
(intravascular)
Consumption of
coagulation factors;
presence of FDPs
 aPTT
 PT
 TT
 Fibrinogen
Presence of plasmin
 FDP
Fibrin(ogen)
Degradation
Products
Plasmin
Intravascular clot
 Platelets
Schistocytes
Disseminated Intravascular Coagulation
Treatment approaches

Treatment of underlying disorder

Anticoagulation with heparin

Platelet transfusion

Fresh frozen plasma

Coagulation inhibitor concentrate (ATIII)
Classification of platelet disorders

Quantitative disorders




Abnormal distribution
Dilution effect
Decreased production
Increased destruction

Qualitative disorders


Inherited disorders (rare)
Acquired disorders



Medications
Chronic renal failure
Cardiopulmonary bypass
Thrombocytopenia
Immune-mediated
Idioapthic
Drug-induced
Collagen vascular disease
Lymphoproliferative disease
Sarcoidosis
Non-immune mediated
DIC
Microangiopathic hemolytic anemia
Liver Disease and Hemostasis
1.
Decreased synthesis of II, VII, IX, X, XI, and
fibrinogen
2.
Dietary Vitamin K deficiency (Inadequate
intake or malabsortion)
3.
Dysfibrinogenemia
4.
Enhanced fibrinolysis (Decreased alpha-2antiplasmin)
5.
DIC
6.
Thrombocytoepnia due to hypersplenism
Management of Hemostatic
Defects in Liver Disease
Treatment
for prolonged PT/PTT

Vitamin K 10 mg SQ x 3 days - usually
ineffective



Fresh-frozen plasma infusion
25-30% of plasma volume (1200-1500 ml)
immediate but temporary effect
Treatment

for low fibrinogen
Cryoprecipitate (1 unit/10kg body weight)
Treatment
for DIC (Elevated D-dimer, low factor
VIII, thrombocytopenia

Replacement therapy
Vitamin K deficiency due to warfarin overdose
Managing high INR values
Clinical situation
Guidelines
INR therapeutic-5
Lower or omit next dose;
Resume therapy when INR is therapeutic
INR 5-9; no bleeding
Lower or omit next dose;
Resume therapy when INR is therapeutic
Omit dose and give vitamin K (1-2.5 mg po)
Rapid reversal: vitamin K 2-4 mg po (repeat)
INR >9; no bleeding
Omit dose; vitamin K 3-5 mg po; repeat as necessary
Resume therapy at lower dose when INR therapeutic
Chest 2001:119;22-38s (supplement)
Vitamin K deficiency due to warfarin overdose
Managing high INR values in bleeding patients
Clinical situation
Guidelines
INR > 20; serious bleeding
Omit warfarin
Vitamin K 10 mg slow IV infusion
FFP or PCC (depending on urgency)
Repeat vitamin K injections every 12 hrs as needed
Any life-threatening bleeding
Omit warfarin
Vitamin K 10 mg slow IV infusion
PCC ( or recombinant human factor VIIa)
Repeat vitamin K injections every 12 hrs as needed
Chest 2001:119;22-38s (supplement)
Laboratory Evaluation of Bleeding
Overview
CBC and smear
Platelet count
RBC and platelet morphology
Thrombocytopenia
TTP, DIC, etc.
Coagulation
Prothrombin time
Partial thromboplastin time
Coagulation factor assays
50:50 mix
Fibrinogen assay
Thrombin time
Extrinsic/common pathways
Intrinsic/common pathways
Specific factor deficiencies
Inhibitors (e.g., antibodies)
Decreased fibrinogen
Qualitative/quantitative
fibrinogen defects
Fibrinolysis (DIC)
FDPs or D-dimer
Platelet function
von Willebrand factor
vWD
Bleeding time
In vivo test (non-specific)
Platelet function analyzer (PFA) Qualitative platelet disorders
and vWD
Platelet function tests
Qualitative platelet disorders
Laboratory Evaluation of the
Coagulation Pathways
Partial thromboplastin time
(PTT)
Prothrombin time
(PT)
Surface activating agent
(Ellagic acid, kaolin)
Phospholipid
Calcium
Thromboplastin
Tissue factor
Phospholipid
Calcium
Intrinsic pathway
Extrinsic pathway
Thrombin time
Common pathway
Thrombin
Fibrin clot
Coagulation factor deficiencies
Summary
Sex-linked recessive
 Factors VIII and IX deficiencies cause bleeding
Prolonged PTT; PT normal
Autosomal recessive (rare)
 Factors II, V, VII, X, XI, fibrinogen deficiencies cause bleeding
Prolonged PT and/or PTT
 Factor XIII deficiency is associated with bleeding and
impaired wound healing
PT/ PTT normal; clot solubility abnormal
 Factor XII, prekallikrein, HMWK deficiencies
do not cause bleeding
Thrombin Time

Bypasses factors II-XII

Measures rate of fibrinogen conversion to fibrin

Procedure:



Add thrombin with patient plasma
Measure time to clot
Variables:

Source and quantity of thrombin
Causes of prolonged Thrombin Time






Heparin
Hypofibrinogenemia
Dysfibrinogenemia
Elevated FDPs or paraprotein
Thrombin inhibitors (Hirudin)
Thrombin antibodies
Bleeding time and bleeding

5-10% of patients have a prolonged bleeding time

Most of the prolonged bleeding times are due to
aspirin or drug ingestion

Prolonged bleeding time does not predict excess
surgical blood loss

Not recommended for routine testing in
preoperative patients