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deep venois

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Title: deep venois


1
DEEP VEIN THROMBOSIS
  • WANDWI- HKMU MD3 LECTURES 2021/22/23

2
DEEP VEIN THROMBOSIS
  • Definition
  • Pathophysiology/causes
  • Clinical presentation
  • Diagnosis
  • Management
  • Complications

3
DEFN/Aetiology
  • CLOT - THROMBUS IN DEEP VENOUS SYSTEM
  • The deep venous system lower limb
  • common femoral,
  • femoral (or superficial femoral),
  • deep femoral,
  • popliteal,
  • tibial veins
  • The deep venous system upper limb
  • Subclavian, Axillary, or Brachial vein

4
DEFN/Aetiology
  • CLOT - THROMBUS IN DEEP VENOUS SYSTEM
  • Incidence DVT about 250,000 p.a.
  • 200,000 pulmonary embolism
  • Secondary to CVI

5
DEFN./Etiology
  • Risk factors
  • Age,
  • Malignancy,
  • Immobilization,
  • Surgery and trauma,
  • Oral contraceptives,

6
DEFN./Etiology
  • Risk factors
  • Hormone replacement,
  • Pregnancy,
  • Neurologic disease (spinal cord injury),
  • Cardiac disease,
  • Obesity,
  • Genetic hypercoagulable state

7
Pathogenesis -lower limb
  • Thrombus formation gt acute and chronic
    inflammatory response gt organization, and
    recanalization, often with vein wall and valve
    damage.

8
Presentation
  • Unilateral leg pain and swelling,
  • Positive Homans sign (pain on passive
    dorsiflexion of foota nonspecific physical
    finding),
  • PE

9
Diagnosis
  • 50 of patients with acute DVT may be
    asymptomatic.
  • Duplex ultrasound imaging - test of choice, with
    greater than 95 sensitivity and specificity.
  • Differential diagnosis of lower extremity pain
    and swelling
  • Muscle strain
  • Contusion,
  • Cellulitis, Baker cyst,
  • Iliac vein obstruction due to retroperitoneal
    tumor or mass,
  • Systemic causes of swelling and edema (such as
    congestive heart failure or venous insufficiency)

10
Management
  • TREATMENT FOR ACUTE DVT IS ANTICOAGULATION.
  • Initial IV unfractionated heparin (UFH), or
    subcutaneous low-molecular- weight heparin
    (LMWH), such as enoxaparin.
  • Heparin is administered continuously, requiring
    inpatient treatment.
  • Response partial thromboplastin time monitoring
    response 2x
  • In renal failure pts
  • LMWH
  • Predictable with greater bioavailability.
  • Twice a day.
  • LMWH should be avoided in patients with renal
    failure.
  • No routine blood monitoring is required

11
Management
  • TREATMENT FOR ACUTE DVT IS ANTICOAGULATION.
  • Systemic or catheter directed thrombolysis,-
    streptokinase or enaplase
  • Surgical extraction or thrombectomy in patients
    with massive DVT at risk of limb gangrene
    secondary to venous occlusion.
  • Streptokinase Bacterial origin (antigenic),
    binds plasminogen to make plasmin, not o ten
    used.
  • Urokinase From renal parenchyma,
    directly activates plasminogen,.
  • Tissue plasminogen activator
    (tPA) From vascular endothelium, directly
    activates plasminogen.
  • Reteplase Recombinant tPA,
    catalyzes cleavage of endogenous plasminogen to
    or plasmin

12
Management
  • TREATMENT FOR ACUTE DVT IS ANTICOAGULATION

13
Management
  • Ambulation with DVT does not increase the risk of
    PE and does decrease the incidence and severity
    of chronic venous disease after DVT. Ambulation
    and sequential compression therapy are encouraged
    in the management of DVT

14
Management
  • Long-term treatment involves anticoagulation
    usually with vitamin K antagonist (warfarin).
  • Patient with a first episode of DVT and
    underlying reversible risk factor should receive
    3 months Rx.
  • Patients with a first episode of idiopathic DVT
    should receive treatment for 6 to 12 months and
    should be considered for indefinite anticoagulant
    therapy.

15
Management
  • Patients with DVT and malignancy should receive 3
    to 6 months of LMWH, and indefinite
    anticoagulation.
  • Patients with a first episode of DVT and
    antiphospholipid antibodies, or two or more
    thrombophilic conditions, should receive 12
    months of therapy and be considered for
    indefinite treatment.

16
Management
  • Patients with two or more documented episodes of
    DVT should receive indefinite treatment
  • Vena caval interruption via filter placement
    should be considered when anti- coagulation is
    contraindicated, PE recurs on anticoagulation, or
    a complication develops from use of
    anticoagulation

17
Pathogenesis -upper limb
  • Thrombus formation gt acute and chronic
    inflammatory response gt organization, and
    recanalization, often with vein wall and valve
    damage.
  • Usually associated with central venous catheters
    or other instrumentation
  • Compression in the thoracic outlet, also known as
    Paget Schroetter syndrome or effort thrombosis
  • Signs and symptoms are edema, dilated collateral
    circulation, and pain
  • Diagnosis is clinical with venous duplex

18
Management
  • Generally, removal of foreign body is sufficient.
  • Treatment may be similar to lower extremity DVT.
    However, the level of evidence for this course is
    lower than for lower extremity DVT..
  • Thrombolysis with 3 to 6 months of
    anticoagulation is indicated

19
POSTPHLEBITIC SYNDROME AND CHRONIC VENOUS
INSUFFICIENCY
  • Postphlebitic (postthrombotic) syndrome is
    symptomatic chronic venous insufficiency after
    deep venous thrombosis (DVT). Incidence
  • PTS develops in 20 to 50 of patients after
    documented DVT.
  • In the absence of DVT, this constellation of
    symptoms is referred to as chronic venous
    insufficiency (CVI).
  • Developing venous ulcers.
  • Pathology. Development of CVD may be related to
    venous obstruction, valvular insufficiency, or
    calf muscle pump malfunction

20
POSTPHLEBITIC SYNDROME AND CHRONIC VENOUS
INSUFFICIENCY
  • Clinical Features Symptoms
  • Chronic postural dependent swelling, pain, local
    discomfort, and venous ulceration at the ankle.
  • Superficial venous insufficiency that may appear
    as spider vein, telangiectasias, or varicosities.
  • Pain, hyperpigmentation, stasis dermatitis, or
    venous ulcers (CVD).
  • Venous ulcers that tend to form just above the
    medial malleolus.
  • Venous claudication pain associated with walking
    from increased swelling and prominence of the
    superficial venous system usually observed in the
    setting of both venous obstruction and venous
    incompetence.

21
POSTPHLEBITIC SYNDROME AND CHRONIC VENOUS
INSUFFICIENCY
  • Diagnosis
  • Venous duplex ultrasonography - imaging of veins
    as well as analysis of blood flow.
  • Plethysmography uses an air-filled cylinder
    fitted over the extremity to analyze changes in
    the extremity with position change and exercise.
  • Venography has no significant role in diagnosis
    of acute or chronic disease, but may be used to
    complement noninvasive testing when considering
    intervention in the deep venous system or in
    research protocols

22
POSTPHLEBITIC SYNDROME AND CHRONIC VENOUS
INSUFFICIENCY
  • Management
  • Maintain adequate hydration (important if using
    mechanical bowel preparation)
  • Stop smoking tobacco, encourage healthy
    lifestyle
  • Stop alcohol consumption
  • education on DVT, risk factors and how to
    decrease the risks

23
POSTPHLEBITIC SYNDROME AND CHRONIC VENOUS
INSUFFICIENCY
  • Management
  • Elastic compression stockings should be used for
    2 years following DVT and for symptom improvement
    in the setting of PTS or CVD.
  • Conservative medical therapy includes
  • compressive stockings (30 to 40 mm Hg at the
    ankle),
  • avoiding prolonged periods of standing,
  • elevating legs intermittently through the day,
  • elevating the foot of the bed at night,
  • and exercising.

24
POSTPHLEBITIC SYNDROME AND CHRONIC VENOUS
INSUFFICIENCY
  • Management
  • Sclerotherapy - isolated varicosities,
    telangiectasias, and varicosities remaining after
    saphenous stripping.
  • Surgery Vein stripping/ablation, as well as
    endovascular laser or radiofrequency abla- tion,
    act by disrupting the great saphenous vein,
    usually at the saphenofemoral junction, with
    removal of the vein to the level of the knee or
    below. This is indicated for treatment of
    saphenous vein insufficiency.
  • Perforator vein ligation can be performed for
    treatment of isolated perforator vein incompetence
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