Clinical features, treatment and outcomes in patients with tracheal adenoid cystic carcinoma: a systematic literature review

The incidence of primary tracheal carcinoma is 0.1 to 0.26 per 1,00,000 persons, accounting for 0.1–0.4% of all patients with malignant diseases [1‐3]. Adenoid cystic carcinoma (ACC) is a rare malignant tumour of the salivary glands and was first described by Billroth in 1856 [4, 5]. Primary tracheal adenoid cystic carcinoma (TACC) is the second most common tracheal malignant tumour after squamous cell carcinoma [6] and accounts for approximately 10–20% of all tracheal malignant tumour cases [5, 7, 8]. In terms of its biological characteristics, TACC arises from the submucosal glands, it has an indolent course, it is characterized by a slow growth rate and late distant metastasis [1, 4]. As a result of the submucosal location of the tumours, the clinical symptoms present late. Patients with this type of tumour commonly present with dyspnoea, cough, wheezing and haemoptysis [9].

Surgical resection is the common modality of treatment for TACC, but complete resection is achieved in only 42–57% of cases [6, 10, 11]. Adjuvant radiotherapy is generally approved for TACC that were not completely excised [12‐14], however, the value of adjuvant radiotherapy for TACC remains controversial according to published literatures. In patients with cases deemed unresectable or contraindications to surgery, definitive radiotherapy is proposed [6]. Only a limited number of cases have been reported, making it difficult to develop protocols based on evidence-based treatment regimens for TACC. Here, we present a systematic review of the reported cases of TACC to identify trends in demographics, presenting symptoms, treatment modalities, and outcomes.

Most of the information about TACC is derived from case reports and short series due to the rarity of the disease, which is often restricted by limited information about treatment and survival. The present systematic review aimed to provide more comprehensive information on clinical features, patterns of treatments and survival outcomes of TACC.

The present analysis showed that the average age of the entire cohort was 48.7 years, this is comparable with literature results [10, 14‐16]. Earlier studies [3, 10, 17] reported there were no significant difference between the frequency of male and female patients, which is consistent with the finding of the present analysis. Besides, our review found that the interval between the onset of symptoms and diagnosis was 12.5 months, which is similar to that reported in the majority of case series and differs from that reported in the case reports [10, 18‐20]. The relatively long time may relate to the indolent clinical behaviour and non-specific sign of TACC. Furthermore, this study indicated that the most common symptom of TACC was dyspnoea, followed by cough. However, a variety of other symptoms were reported, including haemoptysis, wheezing, pectoralgia, stridor, neck swelling, and hoarseness [7, 21‐24]. The discrepancy among reports may be due to the small sample sizes of most studies.

The pre-treatment imaging modality used commonly in the evaluation of TACC was CT and bronchoscopy [18, 25]. In addition, MRI, PET-CT, X-ray and laryngoscopy were also used for examinations [22, 26‐28]. According to our assessment of radiologic modality, the most common modalities performed to establish the diagnosis and assess the condition of the disease were also CT and Bronchoscopy. CT imaging can be used to determine the tumour location, extension, regional invasion and lung metastasis, and provide important information for treatment options. Bronchoscopy reveals the location and growth of the tumour, and biopsy can be performed for a pathological diagnosis. MRI and PET-CT were adopted in relatively little cases, the manifestation and value of them in diagnosis of TACC need to further evaluate. But PET-CT may have a role for residual tumour and target delineation of radiotherapy.

It is wildly accepted that radical surgical resection is associated with better survival outcomes in TACC. Studies have reported that the 5-year survival rate was 88%-100%, the 10-year survival rate was 51%-80% with surgery alone [14, 17, 18, 29]. These results are comparable with the survival rate in this review (5-year survival rate 86.4%; 10-year survival rate 55.6%). However, given the limited scope of tracheal resection and the tendency for TACC to spread in submucosal tissue, the complete resection is not always achievable, the positive rate of resection margin is 59–63%. In addition, the extent of excision can increase the surgical complication and operative mortality rates [21]. Some studies reported that the mortality rate related to surgical procedures was 1%-25% [14, 21, 22, 30]. Hence, postoperative radiotherapy is usually recommended for TACC with non-R0 resection. Surgical margin status and palliative resection were identified to be associated with receiving adjuvant radiotherapy in routine clinical practice, and it can increase the survival rate and decrease the risk of local recurrence and distant metastasis [16, 31‐33]. But the inclusion of radiotherapy in the treatment of TACC remain controversial because of no trials exploring the role of postoperative radiotherapy [2, 14, 30, 34, 35]. In the review, surgery and postoperative radiotherapy was used in 36.4% of patients, and the 5-year survival rate was 97.3%, the 10-year survival rate was 44.4%. This clearly supports the role of postoperative radiotherapy in TACC.

For unresectable disease, definitive radiotherapy is generally employed. Nevertheless, very little reports have been indicated on nonsurgical therapeutic alternatives. In our review, 34.9% patient lived more than 5 years, 16.1% more than 10 years after radiotherapy alone. Although this survival rate is inferior to surgery alone and postoperative radiotherapy, it is obviously that radiotherapy is a good therapeutic alternative for unresectable TACC. Furthermore, Högerle et al. [29] reported that the curative effect of definitive radiotherapy is similar to that of surgery with radiotherapy.

Several limitations should be considered when interpreting these results. First, the quality of all the included publications represents primary limitation in the review. The studies did not uniformly report variables of observational indexes and information regarding symptoms, tumour size, imaging modalities, treatment modalities and survival rate was incomplete in most reports. Due to the heterogeneity of the studies and the different follow-up times of the subgroups, the analysis is susceptible to bias. Second, according to the Oxford Centre for Evidence-based Medicine, the majority of studies included in this review had evidence levels of 3 and 4, indicating poor levels of evidence. But being a rare tumour very little data is available, it is difficult to get good quality data and a randomized controlled trial is very difficult to conduct. Finally, the studies in this systematic review were published from 1969 to 2019, the management of technology and treatment is not homogeneous and may influence outcome results during this time. Hence, our results may underestimate benefit of modern technology of surgery and radiotherapy. However, though not conclusive, our finding will provide directions to physicians to make treatment decisions till better quality data comes up.

TACC commonly presents with dyspnoea and cough. The main examination modalities were CT and bronchoscopy. Treatment of TACC is challenging, surgery alone and surgery followed by postoperative radiotherapy were the most performed treatment modalities, and the long-term survival rate was high in the majority of patients at the follow-up. In patients presenting with an unresectable/inoperable tumour, definitive radiotherapy is recommended as appropriate therapy.