Role of point-of-care ultrasonography (POCUS) in the diagnosing of acute medial meniscus injury of knee joint

Knee injuries are a common presenting concern to the emergency department (ED) [1]. Meniscus injury, especially medial one, is one of the most common knee injuries. The meniscus is one of the most significant parts of the knee, plays the role of shock absorber in the knee, and strengthens the knee. Therefore, meniscus injury of the knee can interfere with the proper functioning of the knee and negatively affect patients’ daily life until their recovery. For instance, the United States and Great Britain have reported that meniscal injuries have an incidence rate of 61 cases per 100,000/year and 23 cases per 100,000/year, respectively [1, 2].

Magnetic resonance imaging (MRI) has historically been the gold-standard imaging tool for non-invasive detection of meniscus damage [3]. However, MRI is not only expensive and unavailable in many places, but also has significant limitations, such as metallic implants and cardiac pacemakers, claustrophobia, artifacts, a long examination time, and delay in treatment due to a long waiting period [1, 4, 5]. Arthroscopy, as the main diagnostic standard test, is used to establish meniscal injuries. Arthroscopy is associated with some limitations. Yet, it is invasive, costly, and needs hospitals [6, 7].

In addition, in recent years, ultrasonography (US) for evaluating patients with suspicious soft tissue or bone injuries has become increasingly recognized for its diagnostic value in the ED setting due to its accuracy [8]. The structures of the ankle are superficial and can be easily evaluated by the US [7, 8]. Point-of-care ultrasound (POCUS) is an alternative, inexpensive, non-invasive, easily available, and real-time imaging tool to identify the soft tissue pathology of the knee, including medial meniscus injuries [9, 10]. US examination has been performed for the diagnosis of meniscal injuries of the knee for over two decades [1, 10, 11]. US can be performed easily in the ED without time-consuming, especially in trauma patients to determine the treatment plan and whether surgical intervention [2].

Other advantages of the US examination include the lack of ionizing radiation, focused evaluation correlated with the specific site of pain and trauma, and utility in patients for whom MRI is contraindicated [1, 4, 5]. The US examination is a possible alternative to MRI, and it can be done faster and cheaper to evaluate meniscus. The use of POCUS for diagnosing meniscal tears has been proposed, but the diagnostic accuracy of ultrasound for knee meniscus injuries has remained controversial [1, 5, 8]. The sensitivity and specificity of US in the diagnosis of meniscus injuries have indicated a wide range in previous studies [12‐15]. Moreover, some studies have reported the diagnostic value of US, as compared with MRI, in diagnosing meniscus injuries to be weak and inappropriate [12, 16, 17], and some have reported it to be very useful and appropriate [2, 15, 18, 19].

Given the fact that knee injury is the common injury in the ED and a controversial issue in previous studies, the present study aimed to compare the efficacy of POCUS, in detecting medial meniscus injury in the patients with acute knee trauma in the ED.

A total of 131 patients with a suspected medial meniscus injury after acute blunt knee trauma were admitted to the ED. Among them, 16 were not eligible for the study due to the absence of a trained sonographer, and 55 were excluded. Finally, 60 patients were enrolled in the study. Five POCUS-negative patients did not have any orthopedic follow-up due to relative improvement in symptoms and the presence of the Covid-19 pandemic. Therefore, these patients did not undergo MRI and the final analysis was performed on 55 patients. The study flow diagram is shown in Fig. 2.

The patients were 38 (69.1%) male and 17 (30.9%) female with a mean age of 35.48 ± 11.58 years. The patient’s demographic and clinical findings were presented in Table 1. According to the MRI findings as to the gold standard, 20 (36.4%) patients had medial meniscus injury while the POCUS showed 29 (52.7%) patients had medial meniscus injuries (Table 1).

In comparison with MRI scans, the sensitivity and specificity of ultrasound in the detection of medial meniscus injury were 85.0 [95% confidence interval (CI), 54.0 to 98.9] and 65.7% [95% CI 42.2 to 85.7], respectively. Its positive and negative predictive values (PPV and NPV) were 58.6% [95% CI 33.8 to 81.5] and 88.5% [95% CI 62.1 to 99.3], respectively. The area under the receiver-operating characteristic (ROC) curve of the POCUS exam in the detection of medial meniscus injuries was 72.6, P value = 0.003 (Table 2 and Fig. 3).

In recent years, musculoskeletal US has increasingly become the method of choice for diagnosis in many medical specialties such as sports medicine, rheumatology, anesthesia, and pain medicine. Various studies have shown the efficacy of US in the diagnosis of different ligaments injuries. In addition, the use of POCUS as the primary triage tool for the diagnosis of knee injuries has several benefits, such as being non-invasive, cost-efficient, faster to obtain than an MRI study, in addition to its procedure that allows for real-time diagnosis and early management of injuries [2, 3].

The results of the present study revealed that, in general, 36.4% of patients with suspected acute medial meniscus injury of the knee had meniscus injury (confirmed by MRI as the gold-standard method). The medial meniscus tears were detected among 15.3% to 88% of patients with medial knee trauma and pain [18]. In the present study, the sensitivity, specificity, PPV, and NPV of POCUS in diagnosing this injury were 85.0%, 65.7%, 58.6%, and 88.5%, respectively.

Previous studies demonstrated that overall US examination sensitivity and specificity for medial meniscus tears ranged from 83 to 97.2%, and 83 to 100%, respectively [13, 15, 19]. Alizadeh et al. prospectively evaluated 74 consecutive patients with clinical suspicion of medial meniscal tear, in two different groups. They showed that the sensitivity, specificity, PPV, NPV, and accuracy of US in detecting medial meniscal tears in patients ≤ 30 years were 100%, 88.9%, 96.5%, 100%, 97.3% and in patients > 30 years were 83.3%, 71.4%, 92.6%, 50%, 81.1%, respectively [1]. Therefore, they recommended the US examination/technique as an effective initial investigation for medial meniscus injuries in younger patients (≤ 30 years). Most of the patients in the present study were over 30 years old, which may be due to the low specificity of ultrasound. In older patients, mucoid degeneration in the medial meniscus, decrease in cartilage thickness, and marginal osteophytes around the knee may limit the ultrasound view.

Similar to the current study, Ghosh et al. evaluated 9 patients with a median age of 53 years by POCUS before the MRI. POCUS showed 100% sensitivity and 50% specificity for medial meniscus tear [19]. In another study, the sensitivity, specificity, PPV, and NPV of sonography in comparison with arthrography for diagnosing medial meniscus tears were 75%, 88%, 80%, and 85% [20]. Our results find support from these studies.

Omer et al. demonstrated that sensitivity, specificity, PPV, NPV, and diagnostic accuracy of US for medial meniscus tears were 95.00%, 73.68%, 79.16%, 93.33%, and 84.61% [18].

Inconsistent with the present study, several studies demonstrated that US exams of the knee in general radiological practice do not offer significant information above clinical examination [12, 17]. These studies were done in 2002 and 2004; however, the studies performed more recently have reported higher sensitivities and specificities of US in diagnosing medial meniscus tears, which may be attributed to technology and increased operator training.

However, according to many experts’ opinions, most meniscus injuries can be visualized through ultrasound if the patient is positioned correctly and the appropriate transducer is selected. In this way, the sensitivity of ultrasound in the diagnosis of medial meniscus injury in the present study was 85.0%.

In meta-analysis by Xiao et al. which included 21 studies, sensitivity, specificity, and area under curve (AUC) of ultrasonography diagnosis were 0.775 (95% CI 0.747–0.801), 0.838 (95% CI 0.818–0.857), and 0.9107 (95% CI 0.8625–0.9589), respectively. They suggested ultrasonography should be routinely used for the evaluation of medial meniscal injuries in the knee joint [11]. Dai et al. who conducted a meta-analysis including 7 prospective studies (n = 551), demonstrated that the ultrasonography in the diagnosis of meniscal injury had sensitivity, specificity, positive likelihood ratio, and negative likelihood ratio of 0.88 (95% CI 0.84–0.91), 0.90 (95% CI 0.86–0.93), 7.07 (95% CI 4.34–11.52), and 0.17 (95% CI 0.10–0.26), respectively [21]. In contrast to the present study, these meta-analyses had high specificity but moderate sensitivity. The slightly low specificity of POCUS in the present study (65.7%) may indicate low sample size and poor technique and may improve with increasing experience with the method. The specificity of ultrasound was lower in the first stage of the study and as experience increased, the false-negative also decreased. Based on the results of the present study, POCUS may have a role as the initial modality in patients with suspected medial meniscus tears because of sensitivity of 85.0%, and it may serve as an effective screening tool for patients with acute knee trauma.

In the current study, NPV for using ultrasound to diagnose medial meniscal tears was 88.5% which was lower than previous studies [15, 19, 22]. Alizadeh et al. showed the NPV of 100% and 50% in patients ≤ 30 years and > 30 years [1]. In addition, Shetty et al. found an NPV of 75% for the US in the diagnosis of meniscal tears [23]. The difference in NPV of US in detecting medial meniscus tears between studies could be related to several factors, such as differences in age of study population, sonographer experience, probe and ultrasound machine, and the time of knee trauma (acute or chronic).

Finally, we recommend using POCUS as a screening tool and first-line modality for patients with acute knee trauma and clinical suspicion of medial meniscus injuries. In the patients with negative results, if there is no improvement after 2 weeks, the next step is MRI examination to rule out medial meniscus injuries because of NPV of 88.5% in POCUS. In the patients with positive results, it is recommended to further refer to MRI because of the high probability of medial meniscus tears. POCUS is a widely available and accurate and reliable diagnostic tool, therefore, POCUS is considered a good low-cost alternative when MRI is a contraindication or not available or when waiting time for MRI can cause unnecessary delay in management.

In the present study, emergency medicine specialists were trained to perform POCUS in diagnosing this injury. In addition, all POCUS were performed by a single device with high accuracy. Therefore, operator skills, as well as the device, did not have a distorting effect in the present study, which can be regarded as one of the strengths of this study.

The present study demonstrated that POCUS is a useful adjuvant diagnostic modality to evaluate medial meniscus injury POCUS helps in taking a decision regarding management of a medial meniscus tear as the patient can avoid performing the costly and time-consuming confirmatory MRI if the result of POCUS is negative. In the patients with negative results, the next step is an MRI examination if there is no improvement after 2 weeks. Therefore, POCUS is recommended as an effective initial investigation in the patients suspected of having medial meniscus injuries.

A further large-scale study is suggested by improving the technique to establish the diagnostic accuracy of US in detecting meniscal injuries.