Introduction
Tuberculosis (TB), is a major public health problem worldwide, particularly in China. This common chronic infectious disease is caused by the
Mycobacterium tuberculosis (MTB) complex. TB typically invades the lungs and affects other organs of the human body (extrapulmonary TB). Lymph nodes are the most common site of extrapulmonary TB [
1]; intrathoracic lymph nodes, including mediastinal and hilar lymph nodes, are particularly affected, resulting in TB intrathoracic lymphadenopathy (TBIL). In adults, TBIL may be an isolated finding or associated with lung infiltration.
Sarcoidosis (SA) is a multisystem autoimmune disease, which primarily affects the lungs. The most common extrapulmonary organs involved in this disease are the skin, lymph nodes (LN), eyes, and liver [
2]. Sarcoidosis intrathoracic lymphadenopathy (SAIL), including Scadding stages I and II, is the most common form of sarcoidosis intrathoracic lymphadenopathy. The etiology of sarcoidosis is currently unknown.
MTB was previously considered to be the cause of sarcoidosis. However, recent studies have suggested that mycobacterial antigens are not the pathogenic cause of sarcoidosis [
3,
4]. Therefore, finding the evidence of TB infection is the key for distinguishing these two diseases. Owing to their similar clinical and radiological profiles, as well as the same granulomatous pathological features when there was no caseous necrosis, it is difficult to distinguish sarcoidosis from TB. Moreover, extrapulmonary TB samples carry a lower
MTB load than respiratory samples. This difference affects the sensitivity of conventional methods in diagnosing TB, including smear microscopy, culture, or cytology.
Mycobacterial culture remains the gold standard for the diagnosis of active TB. However, this approach requires 2–4 weeks to yield results, and its sensitivity for lymphatic TB is poor [
5]. In 2013, the World Health Organization recommended the use of Xpert MTB/resistance to rifampin (Xpert MTB/RIF, referred to as Xpert) for some types of extrapulmonary TB, such as TB lymphadenitis and TB meningitis [
6]. The cost of this method is similar to that of
MTB culture; however, it offers the advantages of a short cycle, faster process, automation. A meta-analysis analyzed 18 studies involving 4,461 samples; they found that, in lymph node tissues or aspirates, the pooled sensitivity of Xpert versus culture was 83.1% (95% confidence interval: 71.4–90.7%) [
7]. Moreover, it can be used for differentiating tuberculosis from sarcoidosis [
8].
In the present study, we aimed to evaluate the role of Xpert in the detection of MTB for differentiating TBIL from SAIL. To achieve our objective, we used fresh specimens obtained through endobronchial ultrasound-guided transbronchial needle aspiration (EBUS-TBNA, referred to as EBUS). Moreover, we compared the clinical features of the two diseases to detect differences that could assist us in reaching a definitive diagnosis.
Methods
Study design
All patients (n = 119) suspected to having SAIL or TBIL during the initial inpatient period at Shanghai Pulmonary Hospital (Shanghai, China) between October 1, 2020 and June 30, 2021 were retrospectively evaluated and followed-up for > 6 months. The last follow-up was performed on February 1, 2022. All patients underwent EBUS-TBNA from the mediastinal, hilar, and interlobar LN to obtain tissue specimens for Xpert analysis.
Inclusion and exclusion criteria
The inclusion criteria were: (1) age 18–80 years; (2) suspected SAIL or TBIL with or without lung infiltration during the initial inpatient period diagnosed by two specialist physicians and two radiologists; (3) final diagnosis of sarcoidosis and TB during the follow-up period; (4) having underwent EBUS-TBNA and Xpert examinations; (5) negative sputum acid-fast bacilli (AFB) smear prior to EBUS; and 5) no treatment with anti-TB drugs, glucocorticoids, or immunosuppressive agents for > 1 month prior to EBUS.
The exclusion criteria were: (1) presence with any malignancy; (2) presence of fungal or other infections detected through histopathological or microbiological analysis; (3) lack of a correct definitive diagnosis during the follow-up period; and (4) lost to follow-up.
The medical records of all patients, including demographic data (sex, age, and race), medical history (symptoms, presence of comorbidities, diagnostic test, and treatment outcome), laboratory results, and the features of chest high-resolution computed tomography (HRCT) were collected.
Endobronchial ultrasound-guided transbronchial needle aspiration and ultrasonography procedure
EBUS-TBNA was performed using a dedicated bronchoscope with a linear ultrasound transducer (BF-UC260F-OL8; Olympus, Tokyo, Japan). The target LN were punctured with a 21-gauge needle (NA-201SX-4022; Olympus, Tokyo, Japan). All patients provided written informed consent before undergoing the bronchoscopy. Two or more punctures were performed on each target lymph node to obtain at least two tissue core specimens. One of those specimens was prepared for histological examination, while the other specimens were utilized for AFB, Xpert, and MGIT960 culture. Ultrasonography was conducted with model HDI 5000, 7–12 MHz (Philips Medical Systems, Bothell, WA, USA) to evaluate the sizes (in cm) of superficial LN by measuring the largest diameters. Nodal masses with size > 5 mm were identified as bulky lesions. The size of LN was assessed by measuring the largest and smallest diameters on the ultrasound screen, and the long axis/short axis (L/S) ratio was calculated.
Xpert MTB/RIF procedure
The rpoB gene is the target of Xpert. The Xpert assay was performed according to the instructions provided by the manufacturer (Cepheid, Sunnyvale, CA, USA). The sample reagent was added to ≥ 0.5 mL of decontaminated specimen at a 3:1 ratio. After shaking, the mixture was incubated for 15 min at room temperature. Thereafter, part of the mixture (2 mL) was transferred to the Xpert test cartridge. The semiquantitative results of the Xpert were obtained based on the cycle threshold in each sample using the Xpert software within 2 h.
Diagnosis of TBIL and SAIL
TBIL
The diagnosis of TBIL was based on the presence of
MTB in all samples. Biopsies performed using pathological tissues showed granulomatous reaction with caseation necrosis or multinucleated giant cells associated with epithelioid histiocytes. Possible (based on clinical, imaging, and histological assessments in this study) TB according to the European Centre for Disease Prevention and Control [
9] when the symptoms improved, the size of LN was decreased, and/or the lung infiltration resolved after the standard anti-TB treatment is also considered as TBIL.
SAIL
The diagnosis of mediastinal sarcoidosis was reached according to the official American thoracic society clinical practice guideline [
10]. Histological specimens showed non-caseous necrotizing granulomas without other known causes of granulomatosis (evidence of TB, fungi, etc.). Stage I (mediastinal or hilar lymphadenopathy) and stage II (lymphadenopathy accompanied by pulmonary infiltrations) were included.
Statistical analysis
The mean ± standard deviation was used for measurement data, while data with skewed distribution were described using the interquartile range. For continuous variables, the t-test was used to determine mean differences between groups. Non-normally distributed data were analyzed by the Mann–Whitney U test. For categorical variables, differences were assessed using the chi-squared or Fisher’s exact test. Two-tailed P-values < 0.05 indicate statistically significant differences. The sensitivity, specificity, positive predictive value (PPV), and negative predictive value (NPV) of various diagnostic methods were calculated. All statistical analyses were performed using IBM SPSS statistics version 23.0 (IBM Corp., Armonk, NY, USA).
Discussion
TB lymphadenitis is more frequent in children and females, with the peak age of onset ranging 15–30 years in high TB burden countries [
11]. In the present study, the age of patients with TBIL ranged 26.5–54.5 years and only 36.36% (12/33) were aged > 40 years, these patients were markedly younger than those with SAIL (80%, 40/50, p < 0.01). TB is an infectious disease caused by
MTB. Although most patients with TB lymphadenitis did not exhibit special symptoms [
12], those with TBIL were more likely to experience fever in our study. Moreover, indicators of infection (i.e., leukocytes, erythrocyte sedimentation rate, C-reactive protein, serum amyloid A, and serum ferritin) were higher in TBIL, particularly leukocytes and serum ferritin. These data suggested that, unlike SAIL, TBIL is an infectious disease. Importantly, 30–60% of patients with sarcoidosis are asymptomatic, and the disease is often discovered accidentally during a chest examination. In this study, patients with SAIL were more likely to experience chest distress and dyspnea versus those with TBIL, which may be related to the compression caused by mediastinal lymph node enlargement. Renston et al. found that 41% of patients with sarcoidosis had peripheral blood eosinophilia [
13]. We found that the ratio of eosinophils in peripheral blood was significantly higher in SAIL versus TBIL, which may indicate different pathogenic processes. Nevertheless, further studies are required to determine how eosinophils participate in the pathogenesis of sarcoidosis. In addition, there were no differences in the nutritional and immune status of patients in the two groups in terms of albumin, globulin, IgG, IgM, IgA, IgE, C3, C4, CD4, and CD8 levels. However, patients with SAIL had a higher body mass index than those with TBIL (Table
1).
In intrathoracic sarcoidosis, the rate of bilateral hilar lymphadenopathy is 20–65%, while that of bilateral hilar lymphadenopathy associated with pulmonary infiltration is 20–40% [
14]. Lymph nodes, especially thoracic LN, are among the most common sites of extrapulmonary TB [
15]. However, the presence of isolated TBIL without a parenchymal lung lesion in adults is unusual, with an incidence rate of 0.25–5.8% [
16]. In this study, solely mediastinal lymph node enlargement was not common (12% and 12.12% for SAIL and TBIL, respectively). Nodules were the main pulmonary features of the two diseases, including single, discrete, and miliary patterns. The formation of sarcoidosis granulomas occurs nearly exclusively along the lymphatic tracks. Hence, the typical feature of pulmonary sarcoidosis was nodular involvement in both the bronchovascular bundle and interlobular septa. This feature was typically symmetrical and demonstrated upper and middle lung zone predominance (Fig.
2). Miliary TB usually results from the acute hematogenous dissemination of TB bacilli in lungs. These nodules are uniform in size and their distribution bears no relation to the airways [
17] (Fig.
2). There were no cavities in the lungs of patients with these two diseases. On computed tomography, LN in sarcoidosis are usually discrete, bilateral, and symmetrical, and rarely show a central hypodensity. In contrast, central necrosis and asymmetric conglomerate LN are frequently observed in TB [
18]. Consistently, in our research, patients with TBIL mainly had asymmetric unilateral LN, especially in the drainage area of pulmonary lesions. Calcifications of the mediastinal or hilar LN were frequently observed in TBIL. In this study, extrathoracic organ involvement was more easily noted in SAIL versus TBIL.
It is critical to find evidence of
MTB infection for differentiating sarcoidosis and TB. A positive culture for
MTB using different specimens is currently the gold standard for the diagnosis of TB. However, the rate of positive culture was low for cases of lymphatic TB (2.1%) [
19] due to difficulty in sampling from the LN and the paucibacillary nature of the specimens. Therefore, a rapid laboratory test is necessary for the diagnosis of TB. Xpert is an automated diagnostic test for the detection of
MTB. It is a DNA-based test that detects the
MTB rpoB gene [
20]. The extraction, amplification, and detection by Xpert take place within a single-use multichambered cartridge, thus minimizing the risk of sample contamination. This method can provide results within 2 h. In this study, we used Xpert to find evidence of TBIL using specimens obtained through EBUS-TBNA. The rates of sensitivity, specificity, PPV, NPV, and accuracy of Xpert for differentiating SAIL from TBIL were 69.70%, 100%, 100%, 83.33%, and 87.95% respectively; these rates were higher than those of EBUS AFB and EBUS culture (Table
3). EBUS Xpert exhibited a higher PPV, suggesting that positive results in EBUS Xpert were associated with a higher likelihood for diagnosis of TB.
At present, the available tests are unable to accurately predict the progression of latent TB infection to active TB. In a systematic review, it was found that the interferon-gamma (IFN-γ) release assays (IGRAs) have a higher PPV than tuberculin skin tests. These findings suggested that individuals with positive IGRA results are more likely to progress to active TB than those with negative results [
21]. QFT is a type of IGRA. Piotrowski proposed the use of QFT as a cost-effective diagnostic test, which can provide additional diagnostic information when a false-positive MTB culture result in a patient with sarcoidosis is highly suspected [
22]. In the present study, the rates of sensitivity, specificity, PPV, NPV, and accuracy of QFT for differentiating SAIL from TBIL were 96.43%, 91.84%, 87.10%, 97.83%, and 93.51% respectively. These rates were higher than those of EBUS Xpert, except for specificity and NPV because there were also positive results in other and undiagnosed diseases. QFT with a highest NPV suggested that individuals with a negative QFT were more likely to exclude the diagnosis of TB and the lowest PPV indicated that if the patient had a positive QFT was not so strongly recommended to have the diagnosis of TB. Therefore, although QFT cannot provide a definitive diagnosis of active TB, it can assist us in excluding TB.
Limitations
First, owing to the insufficient number of specimens, some patients had false-negative results on EBUS Xpert, thereby decreasing the sensitivity of the method. Second, the QFT test was not performed in all patients, which may reduce the credibility of the results. Finally, this was a single-center retrospective study; hence, a multi-center prospective study is warranted to confirm the present findings.
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