Deep Venous Thrombosis of Lower Limbs: Prevalence, Risk Factors and Treatment in Semi-Urban Areas in Senegal ()
1. Introduction
Deep venous thrombosis (DVT) is defined as the thrombotic obstruction of a deep venous trunk located most often in the lower limbs. It is considered to be one of the two entities of venous thromboembolic disease (VTE) with pulmonary embolism (PE) [1].
It represents a major public health problem in modern medicine, despite improvements in prophylaxis and advances in diagnostics. In fact, the incidence of DVT has not changed over the past decades. In young individuals, the incidence of DVT is 1 in 100,000, it is 1 in 1000 by the age of 40 and increases rapidly in the elderly, reaching in those over 85 years, 1 event per 100 person-years [2].
DVT is a serious disease causing significant morbidity and mortality. A recent Danish study demonstrated an overall mortality from DVT of 3% at 30 days and 13% at 1 year [3].
In Africa, epidemiological data on the lower limbs’ DVT are scarce and difficult to collect. However, some studies carried out in hospitals give prevalence that varies between 1.1% and 4% [4] [5].
In Senegal, the hospital prevalence was 2.8% in the Cardiology Department of the Grand Yoff Hospital in Dakar [6].
Currently, no data on the prevalence of the lower limbs’ DVT is available in Senegal outside of Dakar.
The objective of this work was to determine the prevalence, risk factors and DVT treatment at the Ziguinchor Peace Hospital.
2. Methodology
We carried out a retrospective study in the medical department of the Ziguinchor Peace Hospital from January 1, 2016 to June 30, 2020.
We included in the study all patients of both sexes, aged at least 18 years hospitalized with the lower limbs’ DVT confirmed by venous Doppler ultrasound.
We did not include in the study all patients with suspicion of DVT not confirmed by ultrasound-venous Doppler and superficial venous thrombosis.
The data collection base consisted of the hospitalized for the lower limb’s DVT patients records. The studied parameters concerned socio-demographic data (age, gender, socio-economic level, consultation time), personal and family history, hemodynamic constants, functional signs as well as clinical examination data. The additional examination results, the factors favoring the risk of developing DVT in our patients, the treatment and the hospital development were also studied.
These data were entered and analyzed using EPI-INFO version 7 software. The significance level was retained for a value of p < 0.05.
We made sure that the confidentiality of participants’ study was ensured by using personal identification numbers on data collection forms instead of names. Personal identifiers will not be included in study reports. All study records are confidential.
3. Results
We had collected 64 cases of lower limb DVT during the study period. The prevalence was 3.9%. The average age of the patients was 53 ± 17.631 years. Patients aged 60 and over represented 36% of the study population.
The female gender predominated with 38 women (59.4%) for 26 men (40.6%), i.e. a sex ratio (M/F) of 0.68. The average consultation length was 10.06 days ± 5.543 with extremes of 2 and 25 days.
The socio-demographic characteristics of the patients are summarized in Table 1.
Clinically, functional signs were dominated by pain in the lower limb (64%) and the large leg (92%).
The main general signs were tachycardia (64%), increasing Mahler's pulse (42%), fever (20%) and polypnea (12.5%).
Physical signs were dominated by loss of calf sloshing (93.8%), lower limb edema (92.2%) and Homans sign (84.4%).
The clinical probability according to the Wells score was high in 56.2% of cases and intermediate in 43.8% of cases.
The ultrasound-venous Doppler of the lower limbs showed a predominance of thrombosis in the left lower limb in 56% of cases against 35% in the right. We noted 4% bilateral DVT.
Table 2 presents the main venous areas concerned: the femoral vein (25%) and femoropopliteal lesions (23.4%) were the most frequent.
Table 3 shows the different DVT risk factors of patients: age over 60 years (36%), the presence of an infectious pathology (17.1%) and Neoplasia (15.6%).
For the DVT treatment, low molecular weight heparin has been used in all
Table 1. Socio-demographic characteristics of patients admitted for DVT.
Table 2. Distribution of patients according to DVT territory.
DVT: deep venous thrombosis.
Table 3. Distribution of patients according to risk factors.
IS: Ischemic Stroke.
patients. This was Enoxaparin sodium given at a dose of 0.1 IU/10kg every 12 hours subcutaneously. Antivitamin K (AVK) was prescribed in all of our patients. They were used as an early relay to heparin from the 1st day of treatment. Acenocoumarol was the most commonly used AVK in 97% of cases. Two patients had been put on Fluindione. Direct oral anticoagulants (DOAs) were not prescribed in any of our patients. Analgesic treatment was prescribed in 66% of patients. Venous retention was used in 15 patients (23.4%). The average hospitalization length was 10 days ± 5.
A favorable development under treatment was noted in 54 patients (85%). In 5 patients (8%) DVT was complicated by pulmonary embolism and two patients had an accident with overdose-type anticoagulants. We had four cases of death, a mortality of 6%. We did not find any bad prognostic factors in our study. The average total cost of care was 164,414.06 CFA francs ± 51,496.768.
4. Discussion
DVT, once considered exceptional in black Africans, has seen an increase in its prevalence thanks to improved diagnostic methods. The prevalence of DVT, in our work, of 3.9% is comparable to that reported by several authors in Africa, south of the Sahara with a prevalence varying between 1.28% and 4% [5] [6] [7] [8]. The prevalence in hospitals seems lower in the West, varying between 0.6 and 0.9%, certainly thanks to the reduction in postoperative DVT and good prophylaxis in patients at risk [9]. It seems necessary to carry out multicentric prospective studies to estimate the real prevalence of this pathology in our structures.
The predisposing factors to DVT found in our study are globally comparable to those reported in the literature except for thrombophilia, which has not been investigated due to the limitations of our medical platform. The old age is an important factor in the occurrence of DVT and the first episode of venous thrombosis’ annual incidence increases almost exponentially with age, from about 0.28 per 1000 people between 20 to 39 years at 5 per 1000 after 75 years [10]. In our study, 36% of patients were over 60 years old and was the main risk factor found. Several authors found old age as the main predisposing factor to DVT in their study [4] [5] [6]. The physiological changes that occur in the elderly constitute, along with other risk factors, a favorable field for the DVT development. The increase in life expectancy in our regions and better control of infectious diseases could explain this trend. This should encourage us to take better preventive measures in the elderly at risk. Our study also made it possible to highlight the important place of infectious pathologies as predisposing factors to DVT in our region. These were mainly HIV infection and tuberculosis found in ten patients. Both tuberculosis and HIV infection can cause a state hypercoagulability responsible for thromboembolic events.
The clinical signs of DVT are nonspecific and not very sensitive. The clinical diagnosis is based on an examination, a complete clinical examination and the search for etiological risk factors.
The clinical signs found in our study are also comparable to those reported by most of the authors dominated by the painful large leg picture and edema. These clinical signs are not always specific, they are useful in evoking the diagnosis but do not by themselves allow to affirm or refute it from where currently the establishment of clinical prediction scores for a DVT clinical probability’s appreciation [11]. The Wells clinical score, which we used in our study, found a high probability in 56% and could constitute, in our context where access to additional tests is limited, a means of rapid management by the initiation of anticoagulant therapy without waiting for diagnostic confirmation. The main examinations in the diagnostic process of DVT are the determination of D-dimers and ultrasound-venous Doppler. In our study, the D-dimer assay was not performed in any patient because it was unavailable and therefore constitutes a limit to the diagnosis of DVT in our context. Ultrasound-Venous Doppler is the gold standard for diagnosing DVT. Its sensitivity and specificity are 97% in the diagnosis of DVT in symptomatic patients [11]. The availability and accessibility of this diagnostic tool in our structures could greatly contribute to improving the diagnosis and management of DVT in our regions.
The treatment of DVT is mainly based on anticoagulation given in curative doses. The latest recommendations preferentially propose direct oral anticoagulants (DOA) because of the lower risk of bleeding. However, the cost and availability of AODs in our region constitute a barrier to their use. All of our patients had received a low molecular weight heparin at a curative dose relayed by AVK on the first day. This therapeutic attitude is reported in most African studies [6] [12].
Our work shows that pulmonary embolism remains the most serious complication of DVT. In our study, 5 patients (8%) were complicated by pulmonary embolism with a mortality rate of 6% mainly by pulmonary embolism without significant correlation found however. Indeed, over 70% of pulmonary embolism cases are secondary to lower limb DVT and around 50% of patients with proximal DVT also have PE, which is most often asymptomatic [13].
The limits of this work are based on its retrospective nature and the limited size of our cohort.
5. Conclusion
DVT is a profound and frequent pathology especially in the elderly and its diagnosis is difficult in our context given the limits of our technical platform. The main complication in our study is pulmonary embolism that can be life threatening. The search for risk factors for DVT in all hospitalized patients could make it possible to reduce its incidence through adequate preventive measures as well as the availability of diagnostic means in our medical structures.
Authors’ Contribution
All the authors contributed to the conduct of this work. All authors have read and approved the latest version of this manuscript.