There are clear guidelines for preventing thrombus formation in the perioperative period of major orthopaedic surgery, but there is no consensus on this approach after arthroscopic surgery. Abram et al. [
5] reported that the incidence of symptomatic venous thromboembolism (VTE) within 9 months after arthroscopic partial meniscal resection was approximately 0.078%. Lau et al. [
6] reported that the incidence of VTE after knee arthroscopy in children was 0.27%. Some physicians believe that conventional knee arthroscopy is simple and quick, and serious complications are rare. Indeed, the risk of thrombosis is low, so there is no need for thrombosis prevention in the perioperative period [
7‐
10]. Recently, some cases of symptomatic DVT and PTE after partial meniscus resection, anterior cruciate ligament reconstruction, multiple ligament reconstruction and repair with arthroscopy have been reported [
10‐
12]. However, no early symptomatic PE with successful therapy after knee arthroscopy has been reported to date.
DVT is the most common cause of PE after arthroscopic knee surgery. In fact, it has been reported that 45% of patients with lower limb DVT may have PE, among which 75% of patients are asymptomatic and 4% have fatal outcomes. Without clinical PE screening, many asymptomatic patients or those with mild symptoms will not seek medical attention or will be misdiagnosed. In this case report, the patient showed no obvious abnormalities on the preoperative venous ultrasound of both lower limbs and blood examination, and the operative time was short. Although anticoagulant therapy was not used after the operation, rehabilitation via functional training and the physical prevention of lower limb DVT in both lower limbs were performed in a timely manner. This case occurred in a 50-year-old female with a BMI of 36.3 kg/m
2, a history of hypertension for 8 years, varicose veins in the ipsilateral lower extremities, and a triglyceride (TG) level of 6.12 mmol/l; due to these characteristics, she was at high risk for DVT and should have been preoperatively treated with drugs and physical training. Recently, genetic predisposition and autoimmune antibodies have been shown to play roles in the development of DVT after knee arthroscopy. We screened for causes of spontaneous or acquired thromboembolism during outpatient follow-up [
13]. The results for lupus anticoagulant, antiphospholipid syndrome, myeloproliferative disease, and paroxysmal nocturnal haemoglobinuria were negative. Unfortunately, we did not further test the levels of V Leiden, prothrombin G20210A, protein C, protein S and antithrombin [
14,
15] because regardless of the outcome, this would not have changed the patient’s treatment pathway. If the patient develops venous thromboembolism again in the future, further examinations will be performed. The patient experience symptomatic PE on the second postoperative day, but no obvious DVT was found in either lower limb during vascular ultrasound re-examination. This event does not preclude the possibility of old thrombus detachment in other parts of the body or acute thrombus detachment in the affected limb. Therefore, blood vessel colour ultrasound of the extremities and even pelvic deep vein colour ultrasound should be routinely performed in patients with abnormal coagulation indicators, a genetic history of thrombosis or a high Caprini risk assessment score during knee arthroscopy to reduce the risk of thrombosis and avoid unnecessary medical disputes. In addition, we hold the opinion that more studies should be conducted to clarify risk factors for VTE development and indications for thromboprophylaxis following knee arthroscopy. Blood stasis, vascular endothelial cell injury, blood hypercoagulability, arthroscopic surgery and the presence of risk factors could lead to the development of DVT. Jiang et al. [
16] considered that the use of a tourniquet for a long time could lead to ischaemia reperfusion injury to the tunica intima, thereby resulting in the formation of microthrombi. Dal Molin et al. [
17] reported that continuous intraoperative arthrocentesis led to tissue oedema and pressure on peripheral veins, which subsequently led to the occurrence of DVT. Moreover, knee joint endoscopic surgery damages the inner wall of the blood vessels, slows blood flow and leads to the occurrence of DVT due to prolonged inversion, eversion and flexion of the knee joint. The stress response to surgery can activate the patient’s endogenous coagulation system, slow blood flow, and lead to the formation of DVT. Surgical trauma can induce the release of tissue factors and cytokines, activate plasminogen activator inhibitor-1, and inhibit the fibrinolytic system, eventually leading to the formation of DVT. Maletis et al. [
18] suggested that in elderly patients, DVT formation occurs due to reduced daily activity, decreased muscle and vascular tension and elasticity, and medical conditions such as vascular endothelial injury and increased coagulation factor activity. A recent retrospective case-control study confirmed that patients undergoing arthroscopic knee procedures in centres at high elevations (> 4000 ft) have a 3.8-times higher risk of developing VTE than those undergoing the same procedures in centres at low elevations [
19]. The patient in the current report underwent surgery at an average altitude of 1000 ft. in Luzhou, Southwest China.
Early prevention is key in reducing PE after knee arthroscopy or any orthopaedic surgery. The patient’s basic medical diseases should be actively treated before surgery, and the patient should be educated early so that they are aware of the existence and risk of thrombosis; the patient should be instructed to perform muscle contraction and diastolic exercises of the lower extremities, including ankle pump exercises and straight leg elevations. The operation should be precise to avoid injury to the blood vessels around the knee joint, and the operation and tourniquet use times should be as short as possible to reduce the risk of ischaemia reperfusion injury. Moreover, the times of knee varus and flexion should be reduced to reduce the risk of injury to the intima caused by vascular distortion. After the operation, it is necessary to closely observe the patient’s peripheral blood supply and swelling and pain in the affected limb. Laxative drugs can be given to reduce constipation, and rehabilitation training should be carried out as soon as possible.