Document Type : Original Article
Authors
1 Departments of General Surgery, Faculty of Medicine, Al-Azhar University
2 Departments of General Vascular, Faculty of Medicine, Al-Azhar University
Abstract
Keywords
EVALUATION OF NEW ORAL ANTICOAGULENTS IN MANAGEMENT OF DEEP VEIN THROMBOSIS
By
Mohammed Sobhy Teama, Mohamed Yahia Zakaria Mohamed*
and Khaled Mohamed Mostafa Abd Elwahab
Departments of General and Vascular* Surgery
Faculty of Medicine, Al-Azhar University
ABSTRACT
Background: Low molecular weight heparin (LMWH) and vitamin K antagonists (VKAs) have been considered the first line option for the prevention and treatment of venous thromboembolism (VTE) for several yearsafter decades during which warfarin was the only oral anticoagulation option; newer anticoagulants have the potential to change the management of coagulation disorders. The new oral anticoagulants (NOACs) differ from VKAs in their action mechanism because of direct inhibition of proteins of the coagulation cascade. They have more predictable pharmacokinetics leading to fixed and convenient dosing regimens and no need for routine monitoring, as well as in a rapid onset of action, and importantly, high efficacy and low risk of bleeding. Some of their limitations are the higher cost, limited monitoring (if needed, as only qualitative measures available) and the lack of a specific antidote.
Objectives: To evaluate the efficacy and side effects of the new groups of oral anticoagulants in comparison to traditional oral anticoagulants in management of deep vein thrombosis.
Patient and methods: This work was done over 50 patients, divided into 2 equal groups: Group I received oral rivaroxaban for 3 months, and group II received warfarin guided with INR measurement for 3 months. The following was done for all patients: Complete blood count, coagulation profile, liverfunction tests, kidney function tests and duplex scan.
Results: Rivaroxaban (group I) included 9 males and 16 females with a mean age of 37.6 (27-60), and a mean body weight of 83.7± 16.3. Warfarin group II included 7 males and 18 females with a mean age of 37.9 (27-52), and a mean body weight of 84.2± 13. The main symptoms of our patients were leg pain in 86%, leg swelling in 78%, tenderness in 74%, redness/warmth in the leg in 34%, the main risk factors for DVT were hormonal contraceptive in 44%, immobilizations in 34%, hypercoagulability in 30%, operative history in 24%, history of orthopedic surgery in 22%, old age in 8%, with no statistical significant differences between the 2 arms of the study.
Conclusion: Rivaroxaban have the advantage of more predictable anticoagulation, fewer drug interactions, and vascular outcomes compared with warfarin. New oral anticoagulants have shown to have a favorable balance between efficacy and safety compared with warfarin because recanalization occurred, with high percentage in new oral anticoagulants more than warfarin. Rivaroxaban has a rapid onset of anticoagulant that can be given in fixed doses without routine monitoring.
Keywords: New oral anticoagulants, vitamin K antagonists, venous thromboembolism.
INTRODUCTION
Thromboembolic diseases are of major clinical concern due to their high prevalence and consequences which are often fatal. VTE is a condition that includes both deep vein thrombosis (DVT) and pulmonary embolism (PE). VTE may be provoked by identifiable clinical risk factors such as surgery, trauma, immobility, cancer, or occur in the absence of these risk factors "unprovoked VTE" (Wells et al., 2014). Treatment of venous and arterial thrombotic phenomena represents a major medical challenge, and the development of anticoagulant drugs represents a revolution in medicine.
During the last 60 years, VKAs which include coumarin derivatives, e.g. warfarin and acenocoumarol, have been the only oral anticoagulants used. However, new substances with anticoagu-lants effects, referred to as new oral anticoagulants, have been discovered. Compared with VKAs, this new generation of oral anticoagulants (non-vitamin K antagonist oral anticoagulants, NOACs) has more predictable anticoagu-lant responses, and NOACs have been shown to be effective in the prevention and treatment of VTE and in the prevention of stroke ( Holy and Beer, 2013).
Once the diagnosis of VTE has been made, antithrombotic therapy should be initiated promptly. If clinical suspicion for VTE is high, it may be prudent to start treatment, while the diagnosis is objectively confirmed. The goals of VTE treatment are the prevention of mortality and morbidity associated with PE and the prevention of the postthrombotic syndrome (Brunicardi et al., 2014).
The NOACs differ from VKAs in their action mechanism because of direct inhibition of proteins of the coagulation cascade. They have more predictable pharmacokinetics leading to fixed and convenient dosing regimens and no need for routine monitoring, as well as in a rapid onset of action and, importantly, high efficacy and low risk of bleeding. Some of their limitations are the higher cost, limited monitoring (if needed, as only qualitative measures available), and the lack of a specific antidote (Miesbach and Seifried, 2012).
The NOACs fall into two broad categories: direct thrombin inhibitors (Dabigatran) and the factor Xa inhibitors (Rivaroxaban and Apixaban) (Brieger, 2014).
The present work aimed to evaluate the efficacy and side effects of new groups of oral anticoagulants in management of DVT.
PATIENTS AND METHODS
This was a prospective study including fifty patients presented clinically with DVT, and the diagnosis confirmed by color-coded duplex scan, has been the material of this study. Those patients were followed up in Al-Azhar University Hospital (Sayyed Galal Hospital), and Al Agouza Hospital, from March 2016 till December 2016. The patients were randomly allocated into 2 equal groups:
- Group I: Patients were given the new oral anticoagulation (Rivaroxaban) regimen for DVT. Rivaroxaban 15 mg was given twice daily for 21 days, followed by 20 mg once daily for 3 months duration, and follow up for another 3 months .
- Group II: Patients were given the usual full anticoagulation regimen of DVT in the form of Warfarin. Most of patients started on 5mg daily to an INR of 2.0–3.0 for 3 months duration, and follow up for another 3 months.
1. Age ≥18 years.
2. Clinical and radiological diagnosis of DVT.
1. Active bleeding or high risk for serious bleeding.
2. Recent stroke.
3. Uncontrolled high blood pressure.
4. Significantly impaired kidney function.
5. Recent (< 3 Months) gastrointestinal (GI) bleeding, active peptic ulcer and severe liver dysfunction.
6. Recent trauma or surgery.
7. Patients suspected pulmonary embolism.
8. Allergy to heparin and enoxaparin.
9. Hemoglobin < 9.0 mg/dl.
Anticoagulation medication doses were adjusted according to the follow up. Patients were asked to attend the outpatient clinic at fixed intervals,i.e after 1 month, 3 months, and 6 months of the acute phase. At each occasion, a physical examination as well as a duplex scan was performed and recorded for each patient. The INR value was determined weekly in the 1st month and at least monthly thereafter, or at any time considered necessary. Blood samples were collected for the measurement of full blood count, liver function test, coagulation tests, INR values, and renal function test. Complications and side effects were noted.
The assessment of each patient included registration of detailed medical history, clinical examination, blood tests, and color duplex scan. To obtain a detailed personal and familial medical history, a special protocol form was filled in by each patient. This was based on the questionnaires and physical exami-nation, which included the most specific symptoms and signs as well as the main risk factors of DVT. Clinical signs of pulmonary embolism or any compli-cations were also assessed. Laboratory investigations included complete blood count, urea, creatinine, liver function tests, and coagulation profile.
Written consents were obtained from all patients before participating in this study after explaining all aspects of this study.
Data were collected and entered to the computer using SPSS (Statistical Package for Social Science) program version 13.0, SPSS Inc., Chicago, Illinois, USA for statistical analysis. Data entered as numerical or categorical, as appropriate. Quantitative data were shown as mean, SD, and range. Qualitative data were expressed as frequency and percentage. Statistical analysis was done using Chi-square test for qualitative data and two sample t-test for quantitative data. P (probability) value will be considered to be of statistical significance if it was less than 0.05.
RESULTS
Rivaroxaban (group I) included 25 patients 9 males and 16 females with a mean age of 37.6 (27-60) and a mean body weight of 83.7± 16.3. Warfarin group II included 25 patients 7 males and 18 females with a mean age of 37.9 (27-52) and a mean body weight of 84.2± 13 (Table 1).
Table (1): Demographic data of studied groups.
P-Value |
Total |
Warfarin |
Rivaroxaban |
Drugs Parameters |
< 0.05 |
16 (32) |
7 (43.75) |
9 (56.25) |
Sex, n (%) Male |
< 0.05 |
34 (68) |
18 (52.94) |
16 (47.05) |
Female |
< 0.05 |
37.78 (27-60) |
37.9±7.35 (27-52) |
37.6±8.63 (27-60) |
Age (years) Mean (range) |
< 0.05 |
83±14 |
84.2± 13 |
83.7± 16.3 |
Body weight (Kg) |
The main symptoms of our patients were leg pain in 86%, leg swelling in 78%, tenderness in 74%, redness/warmth in the leg in 34% (Table 2).
Table (2): Symptoms of DVT in the studied patients.
% |
No |
Count Symptoms |
86 |
43 |
Leg pain |
78 |
39 |
Leg swelling |
74 |
37 |
Tenderness |
34 |
17 |
Redness/Warmth in the Leg |
The main risk factors for DVT were hormonal contraceptive in 44%, immobilizations in 34%, hypercoagula-bility in 30%, operative history in 24%, history of orthopedic surgery in 22%, and old age in 8% (Table 3).
Table (3): Risk factors of DVT of studied patients.
Count Risk factors |
No |
% |
Operative history |
12 |
24 |
Old age |
4 |
8 |
History of orthopedic surgery |
11 |
22 |
Hypercoagulability |
15 |
30 |
Contraceptive |
22 |
44 |
Immobilizations |
17 |
34 |
The recorded side effects were bleeding in two cases of group I and three cases of group II, headache in one case of group I and two cases of group II, diarrhea in one case of group I and two cases of group II, constipation in two cases of group I and one case of group II, nausea in one case of group I and two cases of group II, vomiting in one case of group I and one case of group II, abdominal pain in one case of group I and two case of group II, dizziness in one case of group I and two cases of group II, overall side effects incidence in rivaroxaban group 10 patients, while overall side effects incidence in warfarin group 15 patients (Table 4).
Table (4): Statistical comparison of the side effects of group I (Rivaroxaban) against group II (Warfarin).
Groups
Side effects |
Group I (Rivaroxaban) (n=25) |
Group II (Warfarin) (n=25) |
P-Value |
Overall incidence (n) (%) |
10(40%) |
15(60%) |
1.000 |
Mean ± SD |
12.50±4.95 |
12.50±9.19 |
Out of the 25 patients in the standard therapy group, 1 patient (4%) showed no recanalization of the affected veins, 9 patients (36%) showed recanalization of some of the affected veins, 15 patients (60%) showed recanalization of all of the affected veins. In the rivaroxaban group; 8 patients (32%) showed recanalization of some of the veins and 17 patients (68%) showed recanalization of all of the affected veins (Table 5).
Table (5): Over all incidence of recanalization in Rivaroxaban group, versus standard therapy group.
Drugs
Recanalization |
Group I (Rivaroxaban) (n=25) |
Group II (Warfarin) (n=25) |
P-Value |
No recanalization |
0 |
1 |
< 0.05 |
Recanalization of some veins |
8 |
9 |
|
Recanalization of all veins |
17 |
15 |
|
Mean ± SD |
2.560±0.712 |
2.520±0.653 |
INR and PT were significantly lower in the rivaroxaban group rather than the standard therapy group while in PTT there was no significant difference between both groups (Table 6).
Table (6): Coagulation profile assessment.
Drugs
Parameters |
Rivaroxaban group |
Standard therapy group |
P-Value |
INR |
1.22 ± 0.1349 |
2.66 ± 0.2498 |
0.0001 |
PT |
16.7 ± 1.239 |
13.28 ± 1.285 |
0.0001 |
PTT |
32.78 ± 0.99 |
32.47 ± 0.79 |
< 0.05 |
DISCUSSION
VKAs have a slow onset of activity and must be monitored regularly so that the dose can be adjusted to ensure that the protective effect is combined with an acceptable risk of bleeding. Monitoring is done by the determination of the prothrombin time, which is converted into the international normalized ratio. Effective therapy for VTE is reflected by an INR of 2.0-3.0, whereas an INR >3 results in more bleeding without any benefit in the prevention of recurrent thrombotic episodes (Barnes et al., 2015).
The effort of routine coagulation monitoring is costly, makes patient care complex, and is a considerable burden on the patients’ life during long term therapy. Present long-term therapy recommenda-tions by the American College of Chest Physicians are that patients with reversible or time-limited factors should be treated for at least 3 months, patients with symptomatic isolated calf vein thrombosis for at least 6-12 weeks, and patients with a first episode of VTE without a known risk factor (idiopathic VTE) for at least 6 months. Finally, in patients with recurrent idiopathic VTE or continuing risk factors such as cancer, antithrombin-deficiency, or anti-phospholipid antibody syndrome (APA), treatment for 12 months or longer is recommended (Eikelboom and Weitz, 2010).
Our study showed that rivaroxaban administration in acute DVT was associated with lesser occurrence of drug interaction, and warfarin needed dose adjustment versus rivaroxaban. Rivaroxa-ban was comparable to warfarin in the occurrence of bleeding and recanalization. The warfarin group showed a significantly higher increase in INR and PT versus Rivaroxaban.
In our study, 8 % of the rivaroxaban group developed bleeding versus 12% of the standard therapy group. Yet, this difference was not statistically significant. Similarly, Abd Alwahab et al. (2015) showed no significant difference between rivaroxaban (10%) and standard therapy (11%) in bleeding incidences.
In the current study, the percentage of adverse drug reactions was numerically lower in the rivaroxaban group versus the standard therapy group. These results were consistent with the results of recorded study which showed that adverse drug reactions occurred in 12.2% of patients given rivaroxaban versus 11.9% of patients given enoxaparin. Yet, the differences were not statistically signifi-cant indicated that rivaroxaban was comparable and a tolerable alternative to standard therapy with non-remarkable adverse drug reactions (Lassen et al., 2012).
Our study showed that more patients in the standard therapy group (20%) required therapy discontinuation versus those in the rivaroxaban group (16%). In Einstein DVT study, patients in the rivaroxaban group who required therapy discontinua-tion were 13 versus l4.2 and 12.3 % in the standard therapy group respectively (Angelli et al., 2010 and Buller et a1., 2012). Moreover, in another study, only 3% of patients dropped out the treatment due to medical reasons (Jara Palomares et al., 2014). In agreement with our results, Agnelli et al. (2007) reported a good adherence to rivaroxaban in 94% of patients.
Regarding the need for dose adjustment, our study showed that none of the patients in the Rivaroxaban group required dose adjustments, as compared to patients inthe standard therapy group required dose adjustments. Similarly, in the Einstein DVT trials in which Rivaroxaban was given at a fixed dose of 15 mg twice daily for three weeks followed by 20 mg once daily for 3 month, none of the patients required dose adjustment in the rivaroxaban group, while all patients in the standard therapy group required dose adjustment to achieve a therapeutic range (Angelli et al., 2010 and Buller et al., 2012). Moreover, findings of the study by Kubitza et al. (2007) showed that extremes of body weight (˂50 kg or ˃120 kg) did not significantly influence rivaroxaban exposure and did not require dose adjustment.
CONCLUSION
Rivaroxaban have the advantage of more predictable anticoagulation, fewer drug interactions, and vascular outcomes compared with warfarin. However, the treatment benefits compared with warfarin have higher cost. New oral anticoagulants have shown to have a favorable balance between efficacy and safety compared with warfarin because recanalization occurred with high percentage in new oral anticoagulants more than warfarin. NOACs did not require monitoring or dose titration to achieve optimal anticoagulation, and have fewer food and drug interactions, shorter half-life and simpler dosing regimen.
REFERENCES
1. Abd Alwahab M, Mansour Y and El-Dib A (2015): A study on the role of rivaroxaban in management of venous thromboembolism. Egyptian Journal of Chest Diseases and Tuberculosis, 64(4): 893–896.
2. Agenlli G, Berkowitz S, Bounameaux H, Buller H, Cohen H, Gallus A and Spadari G (2010): Oral rivaroxaban for symptomatic venous throm Cavallari boembolism. New England Journal Medicine, 363(26): 2499-510.
3. Agnelli G, Gallus A, Goldhaber S Z, Haes S, Huisman M V and Hull R D (2007): Treatment of Proximal Deep-Vein Thrombosis With the Oral Direct Factor Xa Inhibitor Rivaroxaban (BAY 59-7939). Circulation Journal, 116(2): 180-187.
4. Barnes GD, Ageno W, Ansell J and Kaatz S (2015): Recommendation on the Nomenclature for Oral Anticoagulants: communication from the SSC of the ISTH. Journal of Thromb Haemost, 13(6):1154–6.
5. Brieger D (2014): AGP primer on the new oral anticoagulants. Australian Family Physician Journal, 43(5): 254-259.
6. Brunicardi FC, Andersen DK, Billiar TR, Dunn DL, Hunter JG, Matthews JB and Pollock RE (2014): Schwartz's Principles of Surgery, 10th edition, pbl. McGraw-Hill, New York: 2069(24): pp.915-936.
7. Buller H R, Prins M H, Lensin A W, Decousus H, Jacobson B F, Minar E and Segers A (2012): Oral rivaroxaban for treatment of symptomatic PE. New England Journal Medicine, 366(14): 1287-1297.
8. Eikelboom JW and Weitz JI (2010): New anticoagulants. Circulation Journal, 121:1523–1532.
9. Holy EW and Beer JH (2013): Update on the status of new oral anticoagulants for stroke prevention in patients with atrial fibrillation. Cardiovasc Med, 16:103–114.
10. Jara-Palomares, L Sanchez-Oro-Gomez R, Elias-Hernandez T, Morillo-Guerrero R, Ferrer-Galvan M, Asensio-Cruz MI, Barrot-Cortes E and Otero-Candelera R (2014): Rivaroxaban for the treatment of venous thromboembolism. Thrombosis Research Journal, 134(3): 617-621.
11. Kubitza D, Becka M, Zuehlsdorf M and Mueck W (2007): Body weight has limited influence on the safety, tolerability, pharmacokinetics or pharmacodynamics of rivaroxaban (bay 59-7939) in healthy subjects. Journal of Clinical Pharmacology, 47(2): 218-226.
12. Lassen M R, Gent M, Kakkar A K, Eriksson B I, Homering M, Berkowitz S D and Turpie A G (2012): The effect of rivaroxaban on the complication of surgery after total hip or knee replacement. Journal of Bone Joint Surgery British, 94(11): 1573-1578.
13. Miesbach, W and Seifried, E (2012): New direct oral anticoagulants–current therapeutic options and treatment recommendations for bleeding complications. Journal of Thromb Haemost, 108(4): 625–632.
14. Wells PS, Forgie MA and Rodger MA (2014): Treatment of venous thromboembolism. JAMA, 311(7):717–728.
تقییم مضادات التخثر الفمیة الجدیدة فی مناجزة جلطات الأوردة العمیقة
محمدصبحیطعیمه،محمدیحیىزکریامحمد*،خالدمحمدمصطفیعبد الوهاب
قسمی الجراحة العامة والأوعیة الدمویة* - کلیة الطب - جامعة الأزهر
خلفیة البحث: کان الوارفارین والهیبارین لعقود عدة هما الخط الأول للوقایة والعلاج من الجلطات، وظل الوارفارین خلال هذه العقود هو الخیار الوحید لمنع تخثر الدم عن طریق الفم . وفی الآونة الأخیرة تم تطویر عددا من مضادات التخثر الفمیة الجدیدة وذلک بهدف التغلب علی بعض السلبیات من إستخدام الوارفارین. وتختلف مضادات التخثر الفمیة الجدیدة عن الوارفارین فی آلیة عملها عن طریق التثبیط المباشر للبروتینات من شلال التخثر. وتتمیز بالبدایة السریعة فی العمل ، وتؤخذ بجرعات ثابتة لاتحتاج إلی المتابعة المستمرة أو تعدیل الجرعات، والأهم من ذلک الفاعلیة العالیة وقلة وضعف حدوث النزف ، ویحد من إستخدامها عدم وجود تریاق محدد وإرتفاع التکلفة.
الهدف من البحث: تقییم الفاعلیة والآثار الجانبیة لمضادات التخثر الفمیة الجدیدة فی مناجزة جلطات الأوردة العمیقة فی المرضی المصریین .
المرضی وطرق البحث: أجریت هذه الدراسة على خمسین مریضا یعانون من تخثر الأوردة العمیقة بعد تأکید التشخیص عن طریق المسح الضوئی . وتم تقسیم المرضى عشوائیا إلى مجموعتین متساویتین : تضم المجموعة الأولی المرضى الذین تلقوا عقار الریفاروکسیبان عن طریق الفم لمدة 3 أشهر، وتضمنت المجموعة الثانیة المرضی الذین تلقوا عقار الوارفارین مع قیاس معدل الای ان ار فی الدم لمدة 3 أشهر. وتضمنت متابعة المرضی إجراء تحلیل صورة دم کاملة ، وقیاس نسبة السیولة بالدم ، وزمن ترکیز البروثرومبین ، وعمل وظائف کبد وکلی ، وعمل أشعة دوبلکس لجمیع المرضى.
النتائج: شملت المجموعة الأولى 9 ذکور و 16 إناث مع متوسط أعمار 37.6 (27-60)، ومتوسط وزن الجسم من 83.7 ± 16.3. وتضمنت المجموعة الثانیة 7 ذکور و 18 إناث مع متوسط أعمار 37.9 (27-52)، ومتوسط وزن الجسم من 84.2 ± 13. وتم رصد أکثر الأعراض شیوعا ، کالألم فی الساق بنسبة 86٪، وتورم الساق بنسبة 78٪ ، وقابلیة الإحساس بالألمأأ بنسبة 74٪، ودفء وإحمرار الساق بنسبة 34٪، وکانت عوامل الخطر الرئیسیة للإصابة بجلطات الأوردة العمیقة کوسائل منع الحمل الهرمونیة بنسبة 44٪، وقلة الحرکة بنسبة 34٪، وفرط التجلط بنسبة 30٪، والتاریخ الجراحی بنسبة 24٪، وتاریخ جراحة العظام بنسبة 22٪ والشیخوخة بنسبة 8٪، مع عدم وجود فروق جوهریة فی النتائج الإحصائیة بین کل من المجموعتین فی هذه الدراسة.
الإستنتاج: یتمیز الریفاروکسیبان بالقدرة والفاعلیة العالیة فی منع تخثر الدم ، وقلة التفاعلات والتدخلات الدوائیة إذا ما قورن بالوارفارین. وقد أظهرت الدراسة أن مضادات التخثر الفمیة الجدیدة أکثر فعالیة وسلامة مقارنة مع الوارفارین ، واتضحت هذه الکفاءة والفاعلیة فی إذابة الجلطات وإختفاء درجة إنصمام الأوردة بنسبة عالیة فی مضادات التخثر الفمیة الجدیدة أکثر من الوارفارین. وتمیز الریفاروکسیبان بالبدایة السریعة فی العمل ویؤخذ بجرعات ثابتة ومریحة ، ولایحتاج إلی المتابعة الروتینیة أو تعدیل الجرعات.