Missed radiation therapy sessions in first three weeks predict distant metastasis and less favorable outcomes in surgically treated patients with oral cavity squamous cell carcinoma

Background We sought to investigate the prognostic impact of missed RT sessions in patients who had undergone surgery for oral cavity squamous cell carcinoma (OCSCC). Methods The study sample consisted of 905 patients with surgically treated OCSCC who fulfilled criteria of RT course ≤8 weeks. The study participants were divided into three groups based on the characteristics of missed RT, as follows: 1) early missed RT, 2) late missed RT, and 3) RT as scheduled. Results The 5-year overall survival (OS) rates in the early missed RT, late missed RT, and RT as scheduled groups were 53.0, 58.1, and 64.5%, respectively (p = 0.046). In multivariate analysis, early missed RT was independently associated with both OS (hazard ratio (HR) = 1.486; 95% confidence interval (CI): 1.122–1.966; p = 0.006) and the occurrence of distant metastasis (HR = 1.644; 95% CI: 1.047–2.583; p = 0.031). Conclusion Early missed RT was independently associated with a higher occurrence of distant metastasis and less favorable OS in patients who had undergone surgery for OCSCC.


Background
Malignancies of the oral cavity represent a major public health concern, with over 350,000 new yearly cases being diagnosed worldwide [1]. In Taiwan, oral cavity cancer accounts for approximately 70% of all newly diagnosed head and neck tumors [2] with oral cavity squamous cell carcinoma (OCSCC) being the most common histological type. Radical surgery remains the mainstay of treatment for OCSCC. Patients carrying unfavorable pathological risk factors are also candidate to receive adjuvant radiotherapy (RT)either with or without chemotherapyin an effort to improve local and systemic control rates [3][4][5][6]. Adherence to the initially prescribed RT regimen is paramount to ensure optimal treatment outcomes, and deviations from the initial schedule may have adverse prognostic implications. In this context, published studies have shown that several variables related to the RT scheduleincluding length of radiation time, premature discontinuation of RT, and time to initiation of postoperative RTpredict prognosis in patients with head and neck malignancies [7][8][9][10][11][12].
The question as to whether missed RT sessions could be associated with clinical outcomes has received less attention [7], even in studies that focused on RT as definitive treatment in patients who did not undergo radical surgery [13][14][15]. We therefore designed the current retrospective study to specifically investigate this issue in a large series of patients with OCSCC who had previously undergone surgery. Missed sessions were analyzed in relation to their temporal occurrence during the RT course and examined with respect to overall survival (OS) and other outcomes of interestincluding locoregional control (LRC) and freedom from distant metastasis (FFDM) rates.

Study patients
We retrospectively reviewed the clinical records of 1058 adult patients with histology-proven OCSCC who received radical surgery and RTeither alone or in combination with chemotherapyat the Linkou Chang Gung Memorial Hospital (Taoyuan City, Taiwan) between January 2005 and December 2012. All participants were restaged according to the American Joint Committee on Cancer (AJCC) Staging Manual, Eighth Edition by an experienced radiation oncologist after reviewing medical records. The institutional tumor board performed central review of each new case. Before the routine use of positron emission tomography (PET) imaging (2009), staging was performed with computed tomography (CT) or magnetic resonance (MR) imaging along with abdominal ultrasound and bone scan. Currently, both MR and PET can be performed for staging purposes. As of 2009, tumor board routinely suggested a second PET scan (post-operative/pre-RT PET) prior to adjuvant treatment for high-risk patients (e.g., those presenting with extranodal spread) to detect early recurrences. Only patients who underwent surgery with curative intent (including neck dissection) and who received a radiation dose of 2 Gy per fraction were deemed eligible. Exclusion criteria were as follows: 1) history of second primary malignancies; 2) local, regional, or distant failure occurring during the course of RT; 3) total RT dose < 60 Gy or > 72 Gy; and 4) presence of distant recurrences identified on the second PET scan. Owing to the retrospective nature of the study, the need for informed consent was waived.

Treatment approach
Primary tumors were excised with ≥1 cm margins (both peripheral and deep margins). Patients with clinically positive nodal disease underwent level I-V neck dissections, whereas level I-III neck dissections were performed in presence of clinically negative nodes. The procedures for collection and classification of pathologic risk factors and the indications for adjuvant treatment have been previously described in detail [16,17]. Patients received homogeneous treatment according to our institutional guidelines (Supplementary Table 1). All patients underwent postoperative radiotherapy (PORT) consisting of a conventional fractionated daily dose of 2 Gy per fraction, 5 days per week. A 6-MV photon beam was used to achieve a target total dose between 60 and 66 Gy. Suspicious FDG-avid lesions detected on PET imaging before the beginning of RT received a simultaneous integrated boost at a dose of 70-72 Gy [18]. The initial treatment volume comprised the primary tumor bed and the regional cervical nodes. PORT was performed using different techniquesincluding conventional two-dimensional RT, three-dimensional conformal RT, intensity-modulated radiation therapy (IMRT), and volumetric-modulated arc therapy (VMAT). A conventional field arrangement generally included a bilateral opposing field and a low anterior portalwith the spinal cord being shielded upon delivering of a dose of 46 Gy or more. The dose delivered to the brain stem and spinal cord was limited to 54 Gy. Upon administration of 46-50 Gy, the irradiation area was reduced to include the tumor bed and metastatic nodes only. Concurrent chemotherapy was offered to patients harboring adverse prognostic factors [17]. Cisplatingenerally administered as a single dose of 100 mg/m 2 every 3 weeks or at a weekly dose of 40 mg/m 2was the most commonly used chemotherapy agent [19,20].

Definition of variables
The performance status was calculated with the Eastern Cooperative Oncology Group scale. Cigarette smoking was dichotomized as yes (subjects who smoked ≥100 cigarettes in their lifetime) versus no (subjects who smoked < 100 cigarettes in their lifetime and who were not currently smoking) [21]. Alcohol consumption (current or former drinkers versus nondrinkers) and betel quid chewing (current or former chewers versus non-chewers) were also considered as dichotomous variables. Chemotherapy was dichotomized as yes (concurrent chemotherapy or chemotherapy administered in the 2 weeks preceding the start of RT) versus no. The Charlson Comorbidity Index [22] was used to categorize the presence of comorbidities as yes (score ≥ 1) versus no. Preoperative PET imaging was dichotomized as yes versus no.

Radiotherapy-related variables
Because a prolonged RT course is known to be associated with a less favorable OS [23], we solely focused on patients with a radiation treatment time (RTT)defined as the time from the beginning to the end of RTof less than 8 weeks. The treatment package time (TPT) was calculated from the date of surgery to the last RT session. The interval between surgery and RT was calculated from the date of surgery to the first RT session. For the purpose of analysis, the study participants were divided into three groups based on the characteristics of missed RT, as follows: 1) early missed RT (defined as having received < 14 fractions in the first 3 weeks), 2) late missed RT (defined as having received ≥14 fractions in the first 3 weeks but less than 29 fractions in the first 6 weeks), and 3) RT as scheduled (defined as having received ≥14 fractions in the first 3 weeks and ≥ 29 fractions in the first 6 weeks).

Definition of outcomes
OScalculated as the time elapsed (in years) from the start of RT to the date of deathwas the main outcome measure. Secondary outcomes included LRC and FFDM rates. LRC was defined as the time from the start of RT to the date of local or regional recurrence, whereas FFDM was the time elapsed from the start of RT to the date of diagnosis of distant metastases.

Data analysis
Intergroup differences in terms of continuous variables were assessed with the Student's t-test, whereas the chisquare test was used for categorical data. Survival curves were plotted with the Kaplan-Meier method (log-rank test). Multivariate Cox proportional hazards regression analyses were used to identify independent predictors of OS, LRC, and FFDM rates. The following covariates were entered into the multivariate model: age, sex, pT, pN, tumor differentiation, TPT, pattern of missed RT sessions (early missed RT, late missed RT, RT as scheduled), cigarette smoking, betel quid chewing, alcohol consumption, presence of comorbidities, concurrent chemotherapy, and PET imaging. The results are expressed as hazard ratios (HRs) with 95% confidence intervals (CIs). In all analyses, two-tailed p values < 0.05 were considered statistically significant.

Patient characteristics
The median age of the 905 study participants was 50.8 years (range, 25.1-89.4 years) ( Table 1). There were 37 (3.1%) patients who had pathological stage I − II disease,

Missed radiation therapy sessions
There were 116, 341, and 448 patients in the early missed RT, late missed RT, and RT as scheduled groups, respectively. The reasons for early missed RT were as follows: operational causes (machine breakdown, public holidays; n = 69), treatment plan modifications because of physician's decision (including re-simulation and re-optimization of the treatment plan due to modifications of the facial profile, physician's discretion, missing of fixation cast or oral bite block; n = 13), patients taking leaves (unknown reasons; n = 34), frailty (hospital admissions, weight loss; n = 18), and mixed reasons (operational causes and other reasons; n = 32).

Survival outcomes
The median duration of follow-up was 6.

Discussion
The present retrospective study demonstrates that early missed RT (versus RT as scheduled) was an independent adverse predictor of OS in a large cohort of patients with OCSCC enrolled in an endemic betel quid chewing area. Moreover, early missed RT was independently associated with a higher occurrence of distant metastasis. Notably, late missed RT was an independent adverse predictor of local-regional control but not of OS. Taken together, our results indicate that the prognostic significance of missed sessions varies in relation to the course of RTwith early missing being independently associated with a less favorable OS. The clinical outcomes of our patients who completed RT as scheduled were in line with those reported in previous studies [24,25]. Conversely, growing evidence indicates that deviations from originally scheduled RT plans predict poor outcomes in patients with solid malignancies [26,27]. A prolonged TPT has been previously associated with less favorable survival figures in head and neck malignancies [25]. A TPT > 85 days and an interval from surgery to RT initiation > 6 weeks have been related to an increased likelihood of locoregional recurrences [25,28]. An RTT > 8 weeks was found to predict poor OS rates and a higher risk of local and distant recurrences [29] in different solid neoplasms [7,12,30]. Another report identified a prolonged TPT as an adverse predictor of cancer-specific survival and FFDM in patients with locally advanced laryngeal cancer [31].
Based on the available literature, it remains difficult to identify the most useful parameter for RT treatment gaps in relation to clinical outcomes. By taking advantage of a large clinical cohort of OCSCC patients treated in a homogenous manner, we deliberately used a different approach to this problem. Specifically, we investigated the prognostic impact of missed sessions according to their temporal occurrence during the course of RT. Notably, all of our patients did not have a total package time > 85 days and the time interval between surgery and RT initiation was well-balanced in the three study groups. Our findings indicate that early missedbut not late missed -RT sessions have an adverse impact on OS. Late missed RT sessions were associated with a less favorable local-regional control. While early missed sessions may exert a significant detrimental effect on survival possibly through an increased risk of distant metastases, only a trend was observed for late missed sessions. The association between early missed RT sessions and an increased occurrence of distant metastasis may be explained by the precocious effects elicited by radiation on target tissuesincluding alterations in immune response, cytokine signaling, and gene expression levels [32][33][34]. An escape of the tumor from such early effects may favor disease progression, which could account for the unfavorable prognostic significance attributable to early missed RT both in terms of OS and distant metastases. The RT-induced tissue effects elicited by initial sessions seem therefore to have a paramount prognostic significance, although the molecular underpinnings underlying this phenomenon deserve further scrutiny. The reasons for missing RT sessions can depend on the patient (e.g., avoidance of adverse events, lack of adherence) or other factors (e.g., national holidays, machine breakdown). In general, early missed RT sessions are unlikely to be caused by treatment toxicitywhose onset generally occurs following at least 3 weeks of treatment [35]. Our current data highlight the importance of compensatory strategies when unexpected deviations from the original RT plan occur. Strategies to achieve this goal include 1) the delivery of compensatory RT sessions on weekends aimed at preserving the originally planned treatment duration, total dose, and dose per fraction, 2) an increased number of daily fractions (e.g., deliver of two fractions on Fridays with an interval of 6 h between fractions) and 3) an increased dose per fraction [36].
Our findings need to be interpreted in the context of some limitations. First, the retrospective nature of our investigation is inherently subjected to selection biases and recall biases. Second, we cannot rule out residual confounding effects due to unmeasured variables. Additionally, this is a single-institution study that may have limited external validity because it was conducted in betel quid chewing endemic area. Findings from singlecenter investigations are not necessarily generalizable to all patients with OCSCC because of different institutional practices and disparate patient populations. Independent confirmation of our findings is necessary before drawing more definitive conclusions.
These caveats notwithstanding, our current data indicate that early missed RT was independently associated with less favorable outcomes in patients with OCSCC who had previously undergone surgery. Efforts to maximize early adherence to RT can ultimately improve prognosis in this patient group.
Additional file 1: Table S1. Guidelines for postoperative treatment of oral cavity cancer in our institution.