Deep Vein Thrombosis after Open-Heart Surgery Essay
Deep Vein Thrombosis after Open-Heart Surgery” is a good example of an assignment on nursing. You are providing nursing care for Grace following her open-heart surgery. Grace has been prescribed compression stockings and anticoagulant medication. The physio has also devised an activity/rest plan for grace to encourage her early ambulation following surgery. These interventions are designed to prevent Grace from developing a post-surgical deep vein thrombosis (DVT). Deep Vein Thrombosis after Open-Heart Surgery Essay.
1) What 3 barriers might Grace encounter that discourages her from preventative action to reduce the risk of DVT?
The degree of Complications: There might be different complications that could have occurred during the operation that might put Grace at the risk of developing DVT.
Lack of knowledge on the awareness of DVT and its susceptibility to patients who have undergone major surgery.
Importance of Prophylaxis (Turpie, 2008)
6 Marks
2) What would you recommend for Grace to overcome these barriers?
To overcome these barriers, Grace should use an established protocol for the use of sequential devices and prescribed compression stockings and anti-coagulants which should start right in the operating room. The prevention of prophylaxis should be done with the use of a treatment prescription that involves 1 injection per 24 hrs of LMWH and 3 injections UFH. It might be difficult to give three injections per day because the patients are always moving around the hospital for recovery purposes. Mechanical prophylaxis might be difficult to maintain because the devices may not be enough for all patients or may be removed for testing ((Turpie, 2008))
The health of individuals and populations is influenced and determined by many factors acting in various combinations. Health determinants can be described as those factors that raise or lower the level of health in a population or individual. Determinants help explain and predict trends in health and explain why some groups have better or worse health than others. They are the key to the prevention of disease, illness, and injury.
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We reviewed the cases of 10,638 cardiac surgical patients to determine the incidence of deep vein thrombosis (DVT) after open heart surgery (OHS). Seventy-seven patients (0.7 percent) had DVT. Group 1 included 36 patients who had DVT without pulmonary embolism (PE). Occurrence was equal in either leg. Anticoagulation with heparin and warfarin sodium (Coumadin) was employed as treatment.Deep Vein Thrombosis after Open-Heart Surgery Essay. Extension of hospital stay was 10.8 days. Group 2 consisted of 41 patients who experienced PE 9.9 days after OHS. Sixteen patients had known DVT and were receiving heparin. In 25 patients, PE was the first event. Risk factors for PE included perioperative myocardial infarction (16 percent), atrial fibrillation (41 percent); blood type A (70 percent) (p less than 0.05), and coronary artery bypass graft (CABG) (98 percent). Twenty-four patients were treated with anti-coagulation alone. Six died of recurrent PE; mortality was 25 percent. Seventeen patients received anticoagulation plus inferior vena cava (IVC) interruption using a Hunter balloon. There were no recurrent PEs and there was one death from myocardial infarction (6 percent). Deep vein thrombosis and PE are rare complications of OHS. Routine prophylaxis with either heparin or warfarin is unnecessary. Patients with DVT, atrial fibrillation (AF), and perioperative myocardial infarction are at high risk of PE. Aggressive diagnosis to identify major venous thrombi along with anticoagulation and early consideration of IVC interruption are recommended for these patients. Patients who have undergone OHS and who have PE are at an unusually high risk for recurrent PE with death and are more safely treated with IVC interruption and anticoagulation than anticoagulation alone.
Deep vein thrombosis (DVT) is the formation of blood clots (thrombi) in the deep veins. It commonly affects the deep leg veins (such as the calf veins, femoral vein, or popliteal vein) or the deep veins of the pelvis. It is a potentially dangerous condition that can lead to preventable morbidity and mortality.
Aim:
To present an update on the causes and management of DVT.
Methods:
A review of publications obtained from Medline search, medical libraries, and Google.
Results:
DVT affects 0.1% of persons per year. It is predominantly a disease of the elderly and has a slight male preponderance. The approach to making a diagnosis currently involves an algorithm combining pretest probability, D-dimer testing, and compression ultrasonography. This will guide further investigations if necessary. Prophylaxis is both mechanical and pharmacological. The goals of treatment are to prevent extension of thrombi, pulmonary embolism, recurrence of thrombi, and the development of complications such as pulmonary hypertension and post-thrombotic syndrome. Deep Vein Thrombosis after Open-Heart Surgery Essay.
Conclusion:
DVT is a potentially dangerous condition with a myriad of risk factors. Prophylaxis is very important and can be mechanical and pharmacological. The mainstay of treatment is anticoagulant therapy. Low-molecular-weight heparin, unfractionated heparin, and vitamin K antagonists have been the treatment of choice. Currently anticoagulants specifically targeting components of the common pathway have been recommended for prophylaxis. These include fondaparinux, a selective indirect factor Xa inhibitor and the new oral selective direct thrombin inhibitors (dabigatran) and selective factor Xa inhibitors (rivaroxaban and apixaban). Others are currently undergoing trials. Thrombolytics and vena caval filters are very rarely indicated in special circumstances.
Keywords: deep vein thrombosis, pulmonary embolism, venous thromboembolism, prophylaxis, treatment
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Introduction
The term thrombosis refers to the formation, from constituents of blood, of an abnormal mass within the vascular system of a living animal. When this process occurs within the deep veins, it is referred to as deep vein thrombosis (DVT).
An accurate diagnosis of DVT is extremely important to prevent potentially fatal acute complication of pulmonary embolism (PE) and long-term complications of postphlebitis syndrome and pulmonary hypertension. It is also important to avoid unjustified therapy with anticoagulants with associated high risk of bleeding in patients misdiagnosed with the condition.1
Clinical features are nonspecific; hence new strategies for diagnosing this condition have evolved.
We aim to critically review the current state of knowledge on this subject, with a view to updating clinicians on the prophylaxis and treatment of DVT.
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Methods
A literature review of DVT was done from 1970 to date using a manual library search, journal publications on the subject, and Medline. Full texts of the materials, including those of relevant references were collected and studied. Information relating to the epidemiology, pathology, clinical presentation, investigations, prophylaxis, treatment, and complications was extracted from the materials.
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Results
Epidemiology
DVT is a major and a common preventable cause of death worldwide. It affects approximately 0.1% of persons per year. The overall average age- and sex-adjusted annual incidence of venous thromboembolism (VTE) is 117 per 100,000 (DVT, 48 per 100,000; PE, 69 per 100,000), with higher age-adjusted rates among males than females (130 vs 110 per 100,000, respectively).2 Both sexes are equally afflicted by a first VTE, men having a higher risk of recurrent thrombosis.3,4 DVT is predominantly a disease of the elderly with an incidence that rises markedly with age.2
A study by Keenan and White revealed that African-American patients are the highest risk group for first-time VTE.Deep Vein Thrombosis after Open-Heart Surgery Essay. Hispanic patients’ risk is about half that of Caucasians. The risk of recurrence in Caucasians is lower than that of African-Americans and Hispanics.5
The incidence of VTE is low in children. Annual incidences of 0.07 to 0.14 per 10,000 children and 5.3 per 10,000 hospital admissions have been reported in Caucasian studies.6,7 This low incidence may be due to decreased capacity to generate thrombin, increased capacity of alpha-2-macroglobulin to inhibit thrombin, and enhanced antithrombin potential of vessel walls. The highest incidence in childhood is during the neonatal period, followed by another peak in adolescence.8 The incidence rate is comparatively higher in adolescent females because of pregnancy and use of oral contraceptive agents.9
Pregnant women have a much higher risk of VTE than nonpregnant women of similar age and the risk has been shown to be higher after cesarian section than after vaginal delivery.10 In a study conducted in an African population, the documented rate was 48 DVT per 100,000 births per year.11 The incidence appears to be highest in the postpartum period.11,12
The approximate risk for DVT following general surgery procedures is 15% to 40%. It nearly doubles after hip or knee replacement surgery or hip fracture surgery (40% to 60%).13 Geerts et al revealed that without prophylaxis, fatal PE occurs in 0.2% to 0.9% of patients undergoing elective general surgery, 0.1% to 2% of those undergoing elective hip replacement and up to 2.5% to 7.5% of those undergoing surgery for hip fracture.14 Though regarded mainly as a surgical complication, most symptomatic VTE events and fatal PE occur in medical patients.15
Pathogenesis/classification
Thrombus formation preferentially starts in the valve pockets of the veins of the calf and extends proximally. This is especially true for those that occur following surgery.16 Though most thrombi begin intraoperatively, some start a few days, weeks, or months after surgery. Lending its support to the origin of thrombus in valve pockets is a recent hypothesis of an increased expression of endothelial protein C receptor (EPCR) and thrombomodulin (TM) and a decreased expression of Von Willebrand factor (vWF) noted in valve sinus endothelium compared with vein luminal endothelium. This means an upregulation of anticoagulants (EPCR, TM) and a downregulation of procoagulant (vWF) properties of the valvular sinus endothelium.17
Thrombus is composed predominantly of fibrin and red cells (red or static thrombus). Venous thrombus must be differentiated from postmortem clot at autopsy. Postmortem clots are gelatinous and have a dark red dependent portion (formed by red cells that have settled by gravity and a yellow chicken fat supernatant resembling melted and clotted chicken fat). Deep Vein Thrombosis after Open-Heart Surgery Essay. They are usually not attached to the underlying wall. This is in contrast to the venous thrombi which are firmer. They almost always have a point of attachment to the wall and transection reveals vague strands of pale gray fibrin.18
DVT in the lower limb can be classified as a) proximal, when the popliteal vein or thigh veins are involved or b) distal, when the calf veins are involved. Clinically, proximal vein thrombosis is of greater importance and is associated with serious chronic diseases such as active cancer, congestive cardiac failure, respiratory insufficiency, or age above 75 years, whereas distal thrombosis is more often associated with risk factors such as recent surgery and immobilization. Fatal PE is far more likely to result from proximal DVT.19 Post-thrombotic syndrome, a chronic, potentially disabling condition characterized by leg swelling, pain, venous ectasia, and skin induration, is established by 1 year after DVT in 17% to 50% of cases.20
Uncommon presentations of VTE are forms of acute massive venous thrombosis with obstruction of venous drainage to the extremity. These include phlegmasia alba dolens, phlegmasia cerulea dolens, and venous gangrene. In phlegmasia alba dolens, the thrombosis involves only the major deep venous channels of the extremity, sparing collateral veins. However, in phlegmasia cerulea dolens, the thrombosis extends to the collateral vein, resulting in massive fluid sequestration and more significant edema.
Clinical features
History and clinical examination are not reliable ways of diagnosing DVT.21 Lower extremity DVT can be symptomatic or asymptomatic. Patients with lower extremity DVT often do not present with erythema, pain, warmth, swelling, or tenderness. Symptomatic patients with proximal DVT may present with lower extremity pain, calf tenderness, and lower extremity swelling.22,23 Homans’ sign may be demonstrable in DVT. Most of these features lack specificity; hence clinical evaluation usually implies the need for further evaluation. The left leg is the commonest site for venous thrombosis in pregnancy11 and in acute massive venous thrombosis. This may be due to compression of the left iliac vein by the right iliac artery (May–Thurner syndrome).24
Phlegmasia alba dolens is characterized by edema, pain, and blanching without cyanosis while phlegmasia cerulea dolens is characterized by these features in addition to cyanosis, which characteristically progresses from distal to proximal areas and bleb/bulla formation.
Risk factors
Rudolph Virchow described three conditions that predispose to thrombus, the so-called Virchow’s triad. This triad includes endothelial injury, stasis or turbulence of blood flow, and blood hypercoagulability. Deep Vein Thrombosis after Open-Heart Surgery Essay.
Stasis and endothelial injury are important in DVT following trauma or surgery while hypercoagulability is responsible for most cases of spontaneous DVT. At least 96% of patients treated for VTE have been shown to have at least one risk factor.25
Risk can be classified as acquired or genetic. When genetic defects are combined with one or more acquired risk factors, or in combined genetic defects or combination of two acquired defects, it results in a risk of VTE that exceeds the separate effects of a single factor.26
In adults, the clinical conditions that predispose to VTE are increasing age, cancer and its treatment, prolonged immobility, stroke or paralysis, previous VTE, congestive heart failure, acute infection, pregnancy or puerperium, dehydration, hormonal treatment, varicose veins, long air travel, acute inflammatory bowel disease, rheumatological disease, and nephrotic syndrome. Other acquired factors that have recently been associated with increased risk of VTE disorders include persistent elevation of D-dimer and atherosclerotic disease.27
Oral contraceptive pills, especially those that contain third-generation progestins increase the risk of VTE.28 Risk of DVT associated with long-duration air travel is called economy class syndrome.29 It is 3% to 12% in a long-haul flight with stasis, hypoxia, and dehydration being pathophysiological changes that increase the risk.30 van Aken et al demonstrated that subjects with elevated levels of interleukin-8 have increased risk of venous thrombosis, supporting an important role of inflammation in etiopathogenesis of venous thrombosis.31
Clayton et al have described a strong association between recent respiratory infection and VTE. They demonstrated an increased risk of DVT in the month following infection and PE in 3 months following infection, both persisting up to a year.32
In the pediatric age group, the most important triggering risk factors for development of thromboembolism are the presence of central venous lines, cancer, and chemotherapy. Severe infection, sickle cell disease, trauma, and antiphospholipid syndromes are clinical conditions associated with hypercoagulability states.33
Genetic risk factors can be divided into strong, moderate, and weak factors.34 Strong factors are deficiencies of anti-thrombin, protein C and protein S. Moderately strong factors include factor V Leiden, prothrombin 20210A, non-O blood group, and fibrinogen 10034T. Weak genetic risk factors include fibrinogen, factor XIII and factor XI variants.
Clinical prediction rules
A commonly accepted evidence-based approach to diagnosis of VTE is the use of a clinical model that standardizes the clinical assessment (combining risk factors, signs and symptoms) and subsequently stratifies patients suspected of DVT.
Though this model has been used for both primary care patients and secondary settings, there is no doubt that it does not guarantee accurate estimation of risk in primary care patients in whom DVT is suspected.35
The most commonly recommended model is that developed by Wells and colleagues. Deep Vein Thrombosis after Open-Heart Surgery Essay. Based on clinical presentation and risk factors, an initial model was developed to group patients into low-, moderate-, and high-probability groups. The high-probability group has an 85% risk of DVT, the moderate-probability group a 33% risk, and the low-probability group a 5% risk.36 However, in a later study, Wells and colleagues further streamlined the diagnostic process by stratifying patients into two risk categories: “DVT unlikely” if the clinical score is ≤1 and “DVT likely” if the clinical score is >1 (Table 1).37
Table 1
Pretest probability assessment (Wells score)
Points
Active cancer (treatment ongoing or within previous 6 months or palliative) 1
Paralysis, paresis, or recent plaster immobilization of the lower extremities 1
Recently bedridden for 3 days or major surgery within 12 weeks requiring general or regional anesthesia 1
Localized tenderness along the distribution of the deep veins 1
Entire leg swollen 1
Calf swelling 3 cm > asymptomatic side (measured 10 cm below tibial tuberosity) 1
Pitting edema limited to the symptomatic leg 1
Collateral superficial veins (nonvaricose) 1
Previous DVT 1
Alternative diagnosis as likely as or more likely than DVT −2
Notes: DVT unlikely: ≤1; DVT likely: ≥2
D-dimer assay
D-dimer is a degradation product of cross-linked fibrin that is formed immediately after thrombin-generated fibrin clots are degraded by plasmin. It reflects a global activation of blood coagulation and fibrinolysis.38 It is the best recognized biomarker for the initial assessment of suspected VTE. The combination of clinical risk stratification and a D-dimer test can exclude VTE in more than 25% of patients presenting with symptoms suggestive of VTE without the need for additional investigations.39 Even in patients with clinically suspected recurrent DVT, this combination (clinical evaluation and D-dimer) has proved to be useful for excluding DVT, especially in patients included in the lower clinical pretest probability group.40
Levels of D-dimer can be popularly measured using three types of assay:
Enzyme linked immunosorbent assay (ELISA).
Latex agglutination assay.
Red blood cell whole blood agglutination assay (simpliRED).
These assays differ in sensitivity, specificity, likelihood ratio, and variability among patients with suspected VTE. ELISAs dominate the comparative ranking among D-dimer assays for sensitivity and negative likelihood ratio. Deep Vein Thrombosis after Open-Heart Surgery Essay.
D-dimer assays are highly sensitive (values up to 95%), but have poor specificity to prove VTE. The negative predictive value for patients with a negative D-dimer blood test is nearly 100%. Hence a negative value of D-dimer may safely rule out both DVT and PE. False positive D-dimer results have been noted in inflammation,41 pregnancy,42 malignancy,43 and the elderly.44 Clinical usefulness of the measurement of D-dimer has been shown to decrease with age.45 The use of age-dependent cut-off values of D-dimer assays is still a matter of controversy. Several studies have shown that the levels of D-dimer assays increase with gestational age and in complicated pregnancies as observed in preterm labor, abruptio placenta, and gestational hypertension.46–48 Elevated D-dimer was found to be predictive of poor outcome (persistent thrombosis, recurrence or post-thrombotic syndrome) in children with an acute thrombotic event.49 False negative D-dimer results have been noted after heparin use; hence it has been recommended that D-dimer assay should be done prior to administering heparin to a patient.43 Other causes of false negative D-dimer results are late presentation (symptoms longer than 2 weeks) and small below-knee DVT.
Venous ultrasonography
Venous ultrasonography is the investigation of choice in patients stratified as DVT likely.50 It is noninvasive, safe, available, and relatively inexpensive. There are three types of venous ultrasonography: compression ultrasound (B-mode imaging only), duplex ultrasound (B-mode imaging and Doppler waveform analysis), and color Doppler imaging alone. In duplex ultrasonography, blood flow in normal vein is spontaneous, phasic with respiration, and can be augmented by manual pressure. In color flow sonography, pulsed Doppler signal is used to produce images.51 Compression ultrasound is typically performed on the proximal deep veins, specifically the common femoral, femoral, and popliteal veins, whereas a combination of duplex ultrasound and color duplex is more often used to investigate the calf and iliac veins.52
The major ultrasonographic criterion for detecting venous thrombosis is failure to compress the vein lumen under gentle probe pressure. Other criteria for ultrasonographic diagnosis of venous thrombosis include loss of phasic pattern in which flow is defined as continuous, response to valsava or augmentation (Duplex ultrasound), and complete absence of spectral or color Doppler signals from the vein lumen.53
The other advantages of venous ultrasound are its ability to diagnose other pathologies (Baker’s cysts, superficial or intramuscular hematomas, lymphadenopathy, femoral aneurysm, superficial thrombophlebitis, and abscess), and the fact that there is no risk of exposure to irradiation, while its major limitation is its reduced ability to diagnose distal thrombus.22 Venous compressibility may be limited by a patient’s characteristics such as obesity, edema, and tenderness as well as by casts or immobilization devices that limit access to the extremity. Deep Vein Thrombosis after Open-Heart Surgery Essay.Compression B-mode ultrasonography with or without color Duplex imaging has a sensitivity of 95% and a specificity of 96% for diagnosing symptomatic, proximal DVT.54 For DVT in the calf vein, the sensitivity of venous ultrasound is only 73%.55
Repeat or serial venous ultrasound examination is indicated for initial negative examination in symptomatic patients who are highly suspicious for DVT and in whom an alternative form of imaging is contraindicated or not available. Serial testing has been found unnecessary for those in whom DVT is unlikely by Wells score and has a negative D-dimer test.
Contrast venography
Venography is the definitive diagnostic test for DVT, but it is rarely done because the noninvasive tests (D-dimer and venous ultrasound) are more appropriate and accurate to perform in acute DVT episodes. It involves cannulation of a pedal vein with injection of a contrast medium, usually noniodinated, eg, Omnipaque. A large volume of Omnipaque diluted with normal saline results in better deep venous filling and improved image quality.56
The most reliable cardinal sign for the diagnosis of phlebothrombosis using venogram is a constant intraluminal filling defect evident in two or more views.56 Another reliable criterion is an abrupt cutoff of a deep vein, a sign difficult to interpret in patients with previous DVT.57 It is highly sensitive especially in identifying the location, extent and attachment of a clot and also highly specific.
Being invasive and painful remains its major setback. The patient is exposed to irradiation and there is also an additional risk of allergic reaction and renal dysfunction. Occasionally a new DVT may be induced by venography,58 probably due to venous wall irritation and endothelial damage. The use of nonionic contrast medium has reduced considerably risks of anaphylactic reaction and thrombogenecity or may have even eliminated them.59,60
Impedance plethysmography
The technique is based on measurement of the rate of change in impedance between two electrodes on the calf when a venous occlusion cuff is deflated. Free outflow of venous blood produces a rapid change in impedance while delay in outflow, in the presence of a DVT, leads to a more gradual change.61 It is portable, safe, and noninvasive but its main drawback remains an apparent insensitivity to calf thrombi and small, nonobstructing proximal vein thrombi. Deep Vein Thrombosis after Open-Heart Surgery Essay.
Magnetic resonance imaging (MRI)
This investigative modality has high sensitivity in detecting calf and pelvic DVTs,62 and upper extremity venous thromboses.63 It is also relevant in ruling out differential diagnoses in patients suspected of DVT. MRI is the diagnostic test of choice for suspected iliac vein or inferior vena caval thrombosis when computed tomography venography is contraindicated or technically inadequate. There is no risk of ionizing radiation but it is costly, scarce, and reader expertise is required.
Algorithm for the diagnosis of DVT
The first step is the pretest probability assessment using an established model such as the Wells score (Figure 1). If score is ≤1 (DVT unlikely), D-dimer assay is done. If assay is negative, DVT is excluded and the patient can be discharged without further investigations. If assay is positive, a venous ultrasound is indicated. Negative venous ultrasound scan excludes the diagnosis of DVT. Diagnosis of DVT is made if venous ultrasonography is positive.
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Figure 1
Algorithm for diagnosing DVT using clinical assessment, D-dimer testing, and venous ultrasonography.
Abbreviation: USS, ultrasound.
If the DVT is likely (probability score ≥2), venous ultrasonography is indicated. DVT is diagnosed and treated if venous ultrasound is positive. If negative, D-dimer assay should be done. Negative D-dimer excludes the diagnosis of DVT while a positive result is an indication for follow-up studies; repeat ultrasound in 6 to 8 days or do venography. This algorithm is not used in pregnancy because D-dimer is falsely elevated.
Prophylaxis
Mechanical
Mechanical methods of prophylaxis against DVT include intermittent pneumatic compression (IPC) device, graduated compression stocking (GCS), and the venous foot pump. Intermittent pneumatic compression enhances blood flow in the deep veins of the leg, preventing venous stasis and hence preventing venous thrombosis.64 Agu et al have shown that these mechanical methods reduce postoperative venous thrombosis.65 A Cochrane review showed a reduction of VTE by about 50% with the use of graduated compression stockings.66 Intermittent pneumatic compression, in addition to preventing venous thrombosis, has been shown to reduce plasminogen activator inhibitor-1, thereby increasing endogenous fibrinolytic activity.67
Compared with compression alone, combined prophylactic modalities decrease significantly the incidence of VTE. Deep Vein Thrombosis after Open-Heart Surgery Essay. Compared with pharmacological prophylaxis alone, combined modalities reduce significantly the incidence of DVT, but the effect on PE is unknown. This is recommended especially for high-risk patients.68
A mechanical method of DVT prophylaxis is indicated in patients at high risk of bleeding with anticoagulation prophylaxis. These includes patients with active or recent gastrointestinal bleeding, patients with hemorrhagic stroke, and those with hemostatic defects such as severe thrombocytopenia.69 It is contraindicated in patients with evidence of leg ischemia due to peripheral vascular disease. There is a theoretical risk of fibrinolysis and clot dislodgement.70 Leg wrappings and stockings with no pressure gradient are ineffective in the prevention of DVT.71 Hilleren-Listerud demonstrated that knee-length GCS and IPC devices are as effective as thigh-length GCS and IPC devices. They are also more comfortable, cheaper and more user-friendly for the patient.72
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Chin et al compared the efficacy and safety of different modes of thromboembolic prophylaxis (IPC, GCS, and enoxaparin) for elective total knee arthroplasty (TKA) in Asian patient and recommended IPC as the preferred method of thromboprophylaxis for TKA.73 However no meaningful difference in performance between GCS and IPC was demonstrated by Morris and Woodcock.74
Daily use of elastic compression stockings after proximal DVT reduced the incidence of postphlebitis syndrome by 50%.20
Other mechanical means in both medical and surgical patients include ambulation and exercises involving foot extension. They improve venous flow and should be encouraged.
Pharmacological
Unfractionated heparin (UFH), low-molecular-weight heparins (LMWH), fondaparinux, and the new oral direct selective thrombin inhibitors and factor Xa inhibitors are effective pharmacological agents for prophylaxis of DVT. Studies have shown that the incidence of all DVTs, proximal DVT, and all PE including fatal PE has been reduced by low-dose UFH.75,76
LMWH has additional advantages over unfractionated heparin (Table 2). It can be given once or twice daily without laboratory monitoring. Other advantages are predictability, dose-dependent plasma levels, a long half-life, less bleeding for a given antithrombotic effect, and a lower incidence of heparin-induced thrombocytopenia than with UFH.77. Deep Vein Thrombosis after Open-Heart Surgery Essay.