Introduction
Primary lymphoma that originates from a body organ or tissue other than lymph nodes or spleen is classified as the primary extranodal lymphoma (PEL), accounting for 25–40% of all the primary lymphoma cases [
1]. Although PEL mostly involves the gastrointestinal (GI) tract, central nervous system (CNS), bone, while breast, skin, and testis have also been reported to be the primary sites of lymphomagenesis [
2]. Among all the PEL cases, involvement of the female genital tract is clinically rare (~ 1%), with only approximately 300 reported cases of primary cervical lymphoma (PCL) in English literatures [
3‐
5]. Patients with PCL usually present unspecified manifestations, such as abnormal uterine bleeding, that may be misdiagnosed for other common cervical diseases [
6]. Due to its rarity, there is no consensus management of PCL. Notably, effective treatment options are mainly derived from case reports and narrative reviews [
6‐
9]. Moreover, data on the survival outcomes and prognosis predictive factors remain insufficient.
Several research has investigated the treatment options and survival outcomes in patients with PCL. Evidence indicates the application of chemotherapy with or without radiotherapy in accordance with the guidelines for extranodal lymphoma as the preferred management [
3,
6,
9,
10], avoiding the surgical interventions [
3,
5]. Kosari et al. summarized the clinicopathological characteristics of the female genital tract lymphoma in 186 patients, where only 17 cases involved the uterine cervix, and 37% of total cases were secondary lymphoma [
4]. Both Harris et al. and Ahmad et al. reported a 5-year survival rate of 73–86% in small case series of PCL [
11,
12]. Additionally, Mandato et al. in 2014 and Hilal et al. in 2016 successively revealed a comparable overall survival (OS) rate of about 80% in two large cohorts, including more than 100 cases of PCL [
3,
6]. However, none had evaluated the confounding risk factors for OS and lymphoma recurrence. Recently, it has been revealed that a 5-year OS rate and cancer-specific survival rate of over 70% in 697 patients and proposed potential prognostic factors [
5]. Nonetheless, only 21.4% of patients in this cohort had PCL.
The objective of this study was to investigate the clinical characteristics and survival outcomes in patients with PCL, while also evaluating the risk factors of the OS, disease-specific survival (DSS), and recurrence-free survival (RFS).
Materials and methods
The Ethics Committee of the Yantai Yuhuangding Hospital approved this study. First, we retrospectively reviewed 8 cases of PCL treated in Yantai Yuhuangding Hospital between 2010 and 2022. Then a literature review of studies on PCL published between 1980 and 2022 was conducted to select eligible full-length reports in the English language. The keywords used for searching in the PubMed, Embase, and Scopus were as follows: “primary cervical lymphoma”; “primary lymphoma of the uterine cervix”; “primary cervical Hodgkin’s lymphoma”; “primary cervical non-Hodgkin’s lymphoma (NHL)”; “primary lymphoma of female genital tract”; “extranodal lymphoma”. Relevant references cited within these articles were also reviewed. The exclusion criteria included studies on patients with PEL of other sites, cases reported by letters or personal opinions, non-English literature, secondary cervical lymphoma, imaging studies on PCL, and reports with insufficient data on clinical characteristics and/or follow-up results. All the eligible studies were enrolled for final analysis. We included 169 cases of PCL reported in 86 studies following the screening according to the PRISMA (For details, see Supplementary Fig. S
1). The eight cases treated in our hospital were also incorporated into the analysis. Finally, we established a database of 177 patients, including their demographic and clinical characteristics, treatment strategies, and survival outcomes (Table S
1).
We conducted subgroup survival analysis of diffuse large B-cell lymphoma (DLBCL) because DLBCL was an aggressive lymphoma that predominant in this population. Other PCL pathologic subtypes were briefly analysis due to the limited cases. Clinical characteristics were analyzed to identify independent predictors of OS, DSS, and RFS, including age (< 60, ≥60 years, the cut-point was selected reference to the NCCN-IPI [
13]), Ann Arbor stage (stage IE-IIE or IIIE-IVE), cancer-directed surgery (yes or no), and chemo/radiotherapy (no treatment, single treatment, or combination therapy). Cancer-directed surgery (CDS) referred to surgeries that were aimed to cure the disease rather than collecting biopsy samples, such as radical trachelectomy, hysterectomy with/without bilateral salpingo-oophorectomy (H/BSO), and extended surgical resections (radical H/BSO plus retroperitoneal lymph nodes resection). The 2016 revision of the WHO classification of lymphoid neoplasms did not directly define the PCL. However, according to the classification of lymphoma based on anatomical sites, PCL can be classified as a subtype of PEL. Krol et al. [
14] proposed to use a liberal definition of primary extranodal NHL that includes all patients who present with NHL that apparently originated at an extranodal site, even in the presence of disseminated disease, as long as the extranodal component is clinically dominant. As most of the women presented lymphoma of cervix would visit gynecologic physicians, we think that retain the concept of PCL, this special situation, including localized and disseminated disease, and identifying the survival outcomes and risk factors are important and make sense. Therefore, we used the liberal definition of PEL described as Krol et al. [
14]. The disease stage was classified based on the Ann Arbor staging system for extranodal lymphoma [
7]. RFS was defined as the date from initial treatment intervention to confirmed tumor recurrence. OS was defined as the time from the date of initial diagnosis to death associated with any cause or the last follow-up. DSS was defined as the time from the date of the initial diagnosis to death related to PCL or the final follow-up.
Statistical analysis
Means ± standard deviation (SD, range) and medians and interquartile ranges (IQRs) were used to describe normally distributed continuous variables according to their distributions. Counts (percentages) were used to express discrete variables. Categorical variables were compared by the chi-squared (χ2) test or Fisher’s exact test. Survival analyses were performed using the Kaplan-Meier (log-rank test) analysis. Univariate analyses for OS, DSS, and RFS were performed to screen variables for further evaluation in multivariate models. Factors with P-value < 0.1 were included further in the multivariate analysis using the Cox regression model to identify potential independent prognostic predictors. A two-tailed P-value < 0.05 was considered statistically significant. We used SPSS (version 21.0; SPSS Inc., Chicago, IL, USA) or GraphPad Prism (version 8.0; GraphPad Software Inc., San Diego, CA, USA) software, wherever appropriate, to conduct statistical analyses.
Discussion
Our current study presented one of the largest cohorts emphasizing on the survival outcomes and related prognostic factors in patients with PCL. Furthermore, we firstly evaluated the prognostic predictors for OS, DSS, and RFS in patients with DLBCL subtype. This may help to improve the disease’s management through adding novel perspectives.
This is the first study showing satisfactory OS and DSS rates in patients with PCL. Previous several research on the primary lymphoma of female genital tract included lymphoma of the uterus corpus, vulvar-vagina, and ovary [
4,
5,
11,
12]. In 2016, Hilal et al. reported an OS rate of 81% in 61 cases but they did not clearly point out the exact timeline survival outcomes [
3]. Similarly, another study by Nasioudis et al. revealed a 5-year DSS rates of 75.2% in a cohort of 697 patients [
5]. However, only 129 patients presented lymphoma of the cervix and they did not conduct subgroup analysis of patients with DLBCL. Our current research further extended these findings, presenting respective higher rates of 5-year OS and DSS as 85.8 and 87.2%. The 5-year survival outcomes in this overall cohort were much better than that of both primary nodal lymphoma and extranodal lymphoma that the 5-year OS and DSS was about 60 to 70% [
14,
15]. This may be attributed to the fact that most patients in our cohort were in the early stage of the disease and more than 60% of them had the DLBCL subtype. Our study demonstrated both the 5-year OS and DSS of stage IE DLBCL were exceeding 90%, comparable with the 5-year OS rates in patients with extranodal stage-I DLBCL [
15]. Nonetheless, since specific information to determine the FIGO stage were unavailable because most cases were reviewed, it might be difficult to compare the survival outcomes with primary cervical cancer due to the different staging system.
There remains no practical risk stratification system for the PCL. We found that age over 60 years and Ann Arbor stage III-IVE were the two major factors predicting significantly worse OS and DSS rates in patients with PCL of DLBCL subtype. It is reasonable to consider that elderly patients have much less tolerance for rigorous treatment interventions and advanced-stage patients are associated with a higher tumor burden. Molecular characteristics such as ABC subtype, BCL2 expression, or cytogenetic complexity that associated with poor prognosis increased with age at diagnosis in patients with DLBCL [
16]. Moreover, age and Ann Arbor stage are two factors in the prognostic predictive model of aggressive NHL treated with CHOP-like chemotherapy [
17]. Compared with the previous study by Nasioudis et al. [
5], we set modified cut-off values for the age and Ann Arbor stage according to the International Prognostic Index (IPI). In their study, the age cut-off was set at 55 years and patients were divided into the stage I and stage II-IV disease, which might have factitiously underestimated the survival outcomes in some patients. Furthermore, we detected no potential prognostic predictors in patients with DLBCL of stage IE and the 5-year DSS rate was exceeding 90% in patients with stage IE-IIE, indicating that stage IIE maybe a better cut-off to predict survival outcomes.
Relapse risk after initial treatment varies in PCL patients that published studies have shown the range of recurrence from 2 to 19% [
3,
6,
10]. Our study demonstrated a comparable 5-year cumulative recurrent rate of 14.5% in overall population and 5-year RFS of 86.4% in DLBCL subtype. However, more than 70% of cases experiencing a relapse in less than 2 years after initial treatment. Furthermore, disease recurrence significantly impaired the survival outcomes in patients with PCL in this cohort, as more than half of them died of recurring PCL. Besides, in four patients with CNS relapse, 75% of them died, indicating the lethality of CNS recurrence. Indeed, the CNS recurrence in lymphoma is one of the most devastating complications [
18] and primary DLBCL of the female genital tract could associate with a high risk of CNS recurrence [
19]. This emphasized the importance of proper treatment to lower the recurrence rate.
Although there is no consensus on the management of PCL, prior studies have discussed the role of different therapeutic methods but mainly restricted to narrative descriptions [
3,
5,
6,
12]. We strongly recommend that treatment options for PCL should be in accordance with the guidelines for extranodal lymphoma. Chemotherapy and/or radiotherapy is the cornerstone in treating extranodal lymphoma, and the specific therapeutic scheme and dose depends on the corresponding pathological subtypes [
20]. The addition of rituximab or other monoclonal antibodies can significantly enhance the efficacy of the traditional chemotherapy of radiotherapy, and plays an important role in maintenances treatment or relapsed diseases [
21,
22]. In our study, CHOP or CHOP-like chemotherapy occupied the largest proportion of treatments; 39 patients were treated combined with rituximab (R-CHOP). This may attribute to the DLBCL as the predominant subtype and R-CHOP is the first-line mainstay treatment [
23]. Our research revealed that a combination of radiotherapy and chemotherapy tended to better improve the patients’ RFS, OS, and DSS compared with those treated with chemotherapy or radiotherapy alone. Moreover, one-third of patients underwent CDS but neither could improve the all-cause mortality/disease-specific death nor lower the probability of recurrence. Likewise, Nasioudis et al. also found no association between CDS and OS/DSS in a large cohort of 697 cases [
5]. However, currently there is no distinct imaging characteristic that can facilitate distinguishing between primary cervical cancer and cervical lymphoma [
12,
24], comprehensive evaluation, especially through biopsy of the lesion to confirm diagnosis before CDS is strongly recommended. Radical surgery should be avoided when the diagnosis is determined.
Several limitations that should be underlined. The heterogeneity of this study could not be neglected since most cases were retrieved from the literature. Besides, some important information had been missing in reviewed articles, such as the ECOG performance status. Prognostic predictors were unavailable in other pathologic subtypes due to extremely rarity. In addition, a small proportion of DLBCL received rituximab-based treatment, the current standard treatment of DLBCL. Moreover, we excluded cases reported in letters and non-English literature, and the median follow-up time was relatively short, which may bias the results. Further research to optimize the management of PCL is needed.
Publisher’s Note
Springer Nature remains neutral with regard to jurisdictional claims in published maps and institutional affiliations.