VENOUS DISORDERS
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Deep Vein Thrombosis
Etiology
According to Virchow:-
1-Stasis
2-The Hypercoagulable State
3-Endothelial damage
Risk Factors for Venous Thromboembolism
Acquired
-
Advanced age
-
Hospitalization/immobilization
-
Hormone replacement therapy and oral contraceptive use
-
Pregnancy and puerperium
-
Prior venous thromboembolism
-
Malignancy
-
Major surgery
-
Obesity
-
Nephrotic syndrome
-
Trauma or spinal cord injury
-
Long-haul travel (>6 h)
-
Varicose veins
-
Antiphospholipid antibody syndrome
-
Myeloproliferative disease
-
Polycythemia
Inherited
-
Factor V Leiden
-
Prothrombin 20210A
-
Antithrombin deficiency
-
Protein C deficiency
-
Protein S deficiency
-
Factor XI elevation
-
Dysfibrinogenemia
Mixed Etiology
-
Homocysteinemia
-
Factor VII, VIII, IX, XI elevation
-
Hyperfibrinogenemia
-
Activated protein C resistance without factor V Leiden
Other factors associated with venous thrombosis include traditional cardiovascular risk factors (obesity,
hypertension, diabetes), and there is a racial predilection for whites and African Americans, compared with Asians and
Native Americans.
Pathology
The thrombotic process initiating in a venous segment can, in the absence of
anticoagulation or in the presence of inadequate anticoagulation, propagate to involve
more proximal segments of the deep venous system, thus resulting in edema, pain, and
VENOUS DISORDERS
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immobility. The most serious sequel to acute DVT is that of pulmonary embolism, a
condition of potentially lethal consequence. The late consequence of DVT may be post-
thrombotic syndrome, as a result of valvular dysfunction in the presence of luminal
obstruction & venous hypertension.
Clinical features
Swelling, pain, tenderness, hotness & dilated superficial veins of affected extremety.
Massive DVT of the major deep veins of the extremity with relative sparing of collateral
veins causes a condition called
phlegmasia alba dolens
. This condition is characterized by
blanching due to arterial spasm. There is no associated cyanosis. When the thrombosis
extends to the collateral veins, the condition is known as
phlegmasia cerulea dolens
.
Investigations
Duplex Ultrasound
It's now the most commonly performed test for the detection of infrainguinal DVT, both
above and below the knee, and has a sensitivity and specificity of >95% in symptomatic
patients.
The primary method of detecting DVT with ultrasound is demonstration of the lack of
compressibility of the vein with probe pressure.
If any segment of the venous system
being examined fails to demonstrate augmentation on compression, venous thrombosis
is suspected. In addition, the chronicity of the thrombus can be evaluated.
Prophylaxis
The patient who has undergone either major abdominal surgery or major orthopedic
surgery, has sustained major trauma, or has prolonged immobility (>3 days) represents
an elevated risk for the development of venous thromboembolism.
Effective methods of VTE prophylaxis involve:-
-
Mechanical methods
include
leg elevation
,
early ambulation, intermittent pneumatic
compression
and
graduated compression stockings
.
-
Pharmacologic agents
include
low-dose UFH
&
LMWH
.
Low-dose unfractionated heparin.
The dose is 5000 units of subcutaneous
unfractionated heparin every 12 hours.
Low-molecular-weight heparin (LMWH)
. LMWH has a longer plasma half-life and
has significantly higher bioavailability. No laboratory monitoring is necessary
because the partial thromboplastin time (PTT) is unaffected. LMWH results in
equivalent, if not better, efficacy with significantly less bleeding complications. The
dose is 100 I.U./Kg/day.
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Treatment
The goals of treatment are the prevention of pulmonary embolism and the postphlebitic
syndrome.
Anticoagulant
U
nfractionated heparin or low molecular weight heparin is
initiated & continued for at
least 5 days, while oral vitamin K antagonists ( warfarin ) are being simultaneously
administered. The initial therapy typically is discontinued when the international
normalized ratio (INR) is ≥ 2.0.
Unfractionated heparin therapy
is most commonly administered with an initial IV bolus
of 80 units/kg or 5000 units. The initial bolus is followed by a continuous IV drip, initially
at 18 units/kg per hour or 1300 units per hour.
Low molecular weight heparin
The dose is 100 I.U./ Kg /12 hours subcutaneously
with no need for monitoring.
Direct-thrombin inhibitors
include recombinant
hirudin
,
argatroban
, and
bivalirudin
.
These antithrombotic agents bind to thrombin, inhibiting the conversion of fibrinogen to
fibrin as well as thrombin-induced platelet activation. The direct thrombin inhibitors
should be reserved for patients with HIT.
Vitamin K antagonists
, which include warfarin
Oral administration of anticoagulants is begun shortly after initiation of heparin therapy.
The treatment time of (6) months is advocated in most cases. If, however, the patient
has a known hypercoagulable state or has recurrent DVT, then lifetime anticoagulation
is required.
Systemic and Catheter-Directed Thrombolysis
Patients with extensive proximal DVT may benefit from systemic thrombolysis or
catheter-directed thrombolysis, which can potentially reduce acute symptoms more
rapidly than anticoagulation alone. These techniques also preserve venous valves and
may decrease the development of postthrombotic syndrome. Several thrombolysis
preparations are available, including
streptokinase
,
urokinase
,
alteplase
,
reteplase
, and
tenecteplase
. All these agents share the ability to convert plasminogen to plasmin, which
leads to the degradation of fibrin.
Inferior Vena Caval Filters
Indications for a Vena Cava Filter
-
Recurrent thromboembolism despite adequate anticoagulation
-
DVT in a patient with contraindications to anticoagulation
-
Chronic pulmonary embolism and resultant pulmonary hypertension
-
Propagating iliofemoral venous thrombus in anticoagulated patient.
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Operative Venous Thrombectomy
In patients with acute iliofemoral DVT, surgical therapy is generally reserved for patients
who worsen with anticoagulation therapy and those with phlegmasia cerulea dolens and
impending venous gangrene.
Other measures like analgesia, good hydration, bed rest, elevation of affected limb,
crape bandage can be applied on the affected limb from the dorsum of foot and up to
above knee joint or even to the groin, etc…
DEEP VENOUS THROMBOSIS OF THE UPPER EXTREMITY
Upper extremity DVT is much less common than lower extremity DVT & can be divided
into two categories:
- Primary etiologies
Paget-Schroetter syndrome
It develops due to repetitive motion of upper extremity, such as swimming, which
causes repetitive extrinsic compression of the subclavian vein in a patient with
thoracic outlet syndrome.
Idiopathic upper extremity DVT.
It's sometimes attributed to an occult malignancy,
Secondary etiologies
Indwelling central venous catheter
Pacemaker
Thrombophilia
Malignancy
Clinical features, investigations & treatment
The same as for lower extremity DVT.
Superficial Thrombophlebitis
Predisposing risk factors are recent surgery, recent childbirth, venous stasis, varicose
veins, or intravenous drug use and indwelling catheter. Patients who deny any of the
aforementioned factors may be classified with idiopathic thrombophlebitis. In these
cases, care must be taken to ensure that the patient does not harbor an occult
hypercoagulable state or an occult malignancy.
Treatment of localized, noncomplicated thrombophlebitis involves conservative therapy,
which consists of anti-inflammatory medication and compression stockings.