INTRODUCTION

Venous thromboembolism (VTE) is currently a threat to surgical patients and a burden to health care systems around the world. In the United States, there are 900,000 new cases and nearly 300,000 deaths related to VTE each year1. In particular, hip replacement surgery is a high-risk factor for VTE. After total hip replacement surgery, without any preventive measures, the incidence of deep vein thrombosis (DVT) and pulmonary embolism (PE) are 42 — 57% and 0.9 — 28%, respectively, and after partial hip replacement surgery, the rates are 46 — 60% and 3 — 11%, respectively2. So far, there have been many international studies showing the effectiveness of VTE prophylaxis in patients undergoing hip replacement surgery. Many VTE prophylaxis guidelines have been issued, such as those from the American Society of Thoracic Doctors (ACCP) which have been widely used in North America and around the world over the past 25 years, for patients undergoing joint replacement surgery2. In Vietnam, VTE prophylaxis guidelines after hip and knee replacement surgery were recommended by the Ho Chi Minh City Orthopedic Association in 20133. However, at Thong Nhat Hospital, the prevention of VTE with low molecular weight heparin (enoxaparin) for hip replacement surgery patients has recently been implemented. Thus, research is needed to assess the effectiveness of this preventive method.

MATERIALS – METHODS

The study was conducted based on medical records of patients aged 40 and older who had hip replacement surgery at Thong Nhat Hospital from January 2014 to January 2017. The exclusion criteria included those patients with a medical record stating that they had previously used anticoagulation to prevent other medical conditions, those with a history of chronic renal failure, liver failure, cancer, or allergy to anticoagulants, and those prescribed with mechanical prophylaxis method after surgery. Based on a study by Yoo on the prophylaxis effect of low molecular weight heparin (LMWH) on VTE in Asian patients4, we calculated the required sample size to be 130 patients, which includes 65 patients in the non-prophylactic group (no anticoagulant indicated) and 65 patients in the prophylactic group (indicated for enoxaparin (LOVENOX®) subcutaneously at a dose of 40 mg/day for 7 – 14 days).

This was a retrospective cohort study. The medical records were randomly selected from 2 groups of patients using MS Excel 2010 software. For each medical record, information was obtained on patient characteristics (age, gender, weight, height, length of hospital stay, reasons for admission, medical history, and allergy history), surgical characteristics (cause, surgical choice, length of surgery, and presence or absence of indication of VTE prophylaxis with enoxaparin), and postoperative follow-up (clinical signs of DVT, PE, and subclinical tests). The diagnostic criteria for VTE followed the recommendations of the American Thoracic Association (ACCP) in 2012 and those from the American Academy of Orthopedic Surgery (AAOS) in 20115. Patients were considered to have VTE after surgery if they showed clinical manifestations associated with the definitive diagnosis of DVT (based on the results of leg vein Doppler ultrasound) or the diagnosis of PE (based on chest CT scan).

Data were collected and processed statistically by SPSS 20.0 software with 95% confidence. Variables with normal distribution are presented as mean ± standard deviation; variables with non-standard distribution are presented by median. Descriptive statistics were used to calculate the percent, mean, and median of variables. The Student's t-test was used to compare the average of variables according to the normal distribution. In the case of a variable with a non-standard distribution, the Mann-Whitney U test was used. The chi-square test was used to compare percentages between the two groups if the expected average value in the cells was ≥ 5. The Fisher test was used when at least 1 cell had the expected value < 5. Regression logistic was used to correct for confounding variables (if any). P-value < 0.05 was considered to represent a statistically significant difference.

RESULTS

In the 130 records surveyed, men accounted for the majority of the subjects (55.4%). The median age of patients in the study was 78 (40 – 99), of which patients over 60 years accounted for 79.2%. Patients were weighed and calculated by body mass ratio (BMI), using BMI classification for Asians6, except for some patients with severe femoral neck fractures with advanced age or those too weak to be measured. The average BMI of the 109 patients weighed (60 patients in the non-prophylaxis group and 49 patients in the prophylaxis group) was 21.3 ± 3.2 kg/m (12.5 – 27.8). The reported comorbidities included hypertension, osteoarthritis, diabetes, surgical intervention, chronic obstructive pulmonary disease (COPD), and other conditions (. dyslipidemia, chronic gastritis, hypertrophy, benign prostate, gout, dementia, and Parkinson's). The predominant causes leading to hip replacement surgery included femoral neck fracture (83.8%) and hip degeneration (16.2%). Moreover, 79.2% of patients had a partial hip replacement and 20.8% had a total hip replacement. The comparison of the population characteristics of the non-prophylaxis and prophylaxis groups are presented in Table 1.

In our study, no postoperative PE was recorded. A total of 16 patients developed symptoms of DVT, of which 14 were diagnosed with DVT based on a positive result for thrombosis by venous Doppler ultrasound. The symptoms noted in these 14 patients included an increased local sensation of heat (13/14 cases), increased calf volume (14/14 cases), pain when touching the calf (10/14 cases), and ankle swelling (7/14 cases). In the non-prophylaxis group, there were 12 patients (18.5%) who developed thrombosis after surgery. In particular, a 57-year-old patient with a complicated hospital infection had a prolonged hospital stay after surgery (103 days), limited mobility, and then was diagnosed with DVT on the 59th day. Excluding this case, the number of patients with DVT in the non-prophylaxis group was 11 out of 64 patients (17.2%). The number of DVT patients in the prophylaxis group was recorded as 2 cases (3.1%). Table 2 presents the comparison of DVT ratio between the two groups, with or without prophylaxis with enoxaparin, after adjusting for the confounding variable of postoperative hospital stay.

Moreover, during the treatment period, we recorded 2 cases of forced discontinued anticoagulation early on the 5th day of surgery. One was a 67-year-old man with a history of hypertension and hip osteoarthritis who quit treatment due to significant hematoma at the surgical incision. The other was a 79-year-old male with a history of myocardial ischemia, chronic colitis, and hemorrhoids who was discontinued due to bloody bowel movements.

DISCUSSION

The gender distribution in our study sample was quite similar as males accounted for 55.6% of the study population and females accounted for 44.6%. Since most patients in our study were over 60 years of age (79.2%), the study population was considered to be at high risk for DVT7. Our study results are consistent with a report on patients with hip replacement in Vietnam by Tran Trung Dung 8. We did not record any cases that were obese to the extent that the anticoagulant dose needed to be adjusted9. The predominant reason for surgery in the study herein was due to fracture of the femoral neck (83.8%), and the majority of patients had partial hip replacement surgery (79.2%). These results are consistent with the report by Tran Trung Dung which found that 82.1% of patients had hip replacement due to a fracture of the hip bone, and the percentage of those having partial hip replacement was 61.5%8. The duration of hospitalization before surgery of the two groups of patients in this study was higher than the duration of hospitalization before surgery in the SMART study10 (median 4-5 days compared to 2 days). Therefore, patients in our study were at higher risk for DVT compared to other studies when considering the factor of immobility before surgery.

Table 1 shows that the characteristics of patients in the two study groups are similar (p > 0.05), except that the postoperative hospitalization period of the prophylaxis group is statistically higher than that of the non-prophylaxis group (median of 19 days compared to 15 days, p = 0.017). Thus, patients in the prophylaxis group with enoxaparin had more than one risk factor for DVT compared to the non-prophylaxis group. However, after hip replacement surgery, all patients at Thong Nhat Hospital were instructed to mobilize early; therefore, this difference may not affect the risk of VTE in the 2 groups. The results after adjustment of the confounding variable (the postoperative hospital stay) also demonstrated that the use of prophylactic enoxaparin VTE reduced 89.7% of the risk of DVT compared with not using any preventive measures (OR 0.103, 95% confidence interval 0.019 – 0.569, p = 0.009).

The efficacy of enoxaparin on prophylaxis of DVT following hip replacement surgery in our study was consistent with previous studies conducted in Asian patients. In Korea, a 1997 study by M.C. Yoo aimed to compare the prevalence of DVT between 2 groups (non-preventive or preventive with LMWH) after hip replacement of patients over 40 years of age. Their study showed a statistically higher incidence of DVT in the non-prophylaxis group (16% compared with 2% in the prophylaxis group, p = 0.015)4. A 2001 cohort study by X.L. Li in China on patients with undergoing hip and knee orthopedic surgery over 40 years old also showed that the rate of DVT in the non-prophylaxis group was higher than that of the prophylaxis group with LMWH (34.8% compared with 4.3%, p < 0.05)11. Besides, other studies such as those by Turpie (1986)12, Planes (1996)13, Samama (1997)14, have further demonstrated the efficacy of DVT prophylaxis using LMWH in hip replacement patients. Nearly 80% of patients in this study were over 60 years of age, a high-risk VTE age group. In the age group above 60, the use of enoxaparin for prophylaxis of VTE after hip replacement surgery effectively reduces the risk of DVT by 85.3% compared to absence of prophylaxis (OR 0.147, 95% confidence intervals 0.026-0.822, p = 0.029). These results suggest that enoxaparin administration for hip replacement patients over age 60 is essential to reduce the risk of post-surgery VTE.

CONCLUSIONS

Our study primarily showed that the use of enoxaparin to prevent venous thromboembolism in patients with hip replacement at Thong Nhat Hospital (Vietnam) was remarkably effective, especially in patients over 60 years old. However, future prospective randomized controlled trials with a larger number of patients are essential to confirm these preliminary findings.

Abbreviations

BMI: body-mass index

COPD: chronic obstructive pulmonary disease

DVT: deep vein thrombosis

LMWH: low molecular weight heparin

PE: pulmonary embolism

VTE: venous thromboembolism

Acknowledgments

The authors would like to thank Thong Nhat Hospital for granting permission to access medical records.

Authors' Contributions

All authors contributed in the study concept and design. VTT, TDK performed the data collection and analysis, all authors wrote the initial manuscript. VTT supervised the study and finalized the manuscript. All authors read and confirmed the publication of the article.

Funding

None

Availability of data and materials

Data and materials used and/or analyzed during the current study are available from the corresponding author on reasonable request.

Ethics approval and consent to participate

This study was conducted in accordance with the amended Declaration of Helsinki. This research was approved by the Institutional Review Board of the Thong Nhat Hospital. (Project Number: 94 IRB/ QDBVTN 02042018).

Consent for publication

Not applicable.

Competing interests

The authors declare that they have no competing interests.