Diagnostic Accuracy of Saline-Contrast Sonohysterography Guided Biopsy versus Office Biopsy in Endometrial Pathology: an Interventional Study

Citation: Faryal Khan, et al. (2016) Diagnostic Accuracy of Saline-Contrast Sonohysterography Guided Biopsy versus Office Biopsy in Endometrial Pathology: an Interventional Study. J Womens Health Gyn 1: 1-9. *Corresponding author: Mohamad Al-Tannir, Research Center, King Fahad Medical City, King Fahad Medical City, Riyadh 11525, Saudi Arabia, Tel: +966-1-288-9999 Ext. 10850, Fax: +966 1 1 288 9000 Ext.11299, E-mail: maltannir@kfmc.med.sa


Introduction
Abnormal Uterine Bleeding (AUB) is the most common complaint of premenopausal and postmenopausal (PMB) women. Early and complete investigations are recommended to exclude endometrial pathology [1][2][3][4]. More than 40% of affected women with AUB have been reported to have intrauterine pathologies [5].
The most common causes of AUB in women are endometrial polyps, submucosal fibroids, and endometrial hyperplasia [6]. The reported incidence of endometrial carcinoma is 5%-17%; therefore, a thorough investigation of women with AUB is warranted [2][3][4]7,8]. Endometrial Office Biopsy (EOB) is one of the initial investigations for women with AUB who are over the age of 40 years [1,3,4,9]. However, most pathological lesions are found to be benign and are most often missed with blind sampling techniques [3,7,[10][11][12].
J Womens Health Gyn 2016 | Vol 3: 103 The Saline Contrast Sonohysterography Guided Biopsy (SCSH GB) is another recommended and efficient method for diagnosing endometrial pathology [4,10,13,14]. Endometrial biopsy under diagnostic hysteroscopy is considered to be the 'gold standard' for the diagnosis of intrauterine abnormalities and is recommended for women with AUB [15]. However, it is expensive and invasive compared with SCSH GB and has proven to be unnecessary in 50% of all women who actually have normal uterine cavities [4,7,16,17]. The primary objective of this study was to evaluate the effectiveness of SCSH GB compared with EOB in the diagnosis of endometrial pathologies among pre-and post-menopausal women with AUB. The efficacy of the two methods was determined by the adequacies of the samples obtained and by comparison of the pathological diagnosis (histological and sonographic) as confirmed by hysteroscopy or hysterectomy.

Methods
An interventional study was performed in the ultrasound department and outpatient department (OPD) between December 2012 and March 2014. Patients who were over the age of 40 years, had AUB and exhibited abnormal endometria on transvaginal ultrasound (TVS) fit the inclusion criteria. Whereas, those who were pregnant, had uterine carcinoma, refused to participate in the study or were planning to move away from our area were excluded from the study. The institutional review board granted approval to conduct this study. Unselected consecutive 250 patients were screened for enrolment in the study, of whom 137 (54.8%) patients were either excluded from enrolment because they were not eligible according to the inclusion/exclusion criteria or they were not interesting to voluntary participate in the study. Thus, 113 (45.2%) patients fulfilled the inclusion criteria and agreed to participate. Patients were seen in the outpatient department at King Fahad Medical City by an obstetrics and gynecology (Ob/Gyn) physician and underwent a routine clinical assessment that included the basic demographic information, medical/family history, a routine physical examination, and initial laboratory investigations. These women were referred to the ultrasound department for two-and three-dimensional trans-vaginal ultrasound (2D and 3D TVS) as a routine initial investigation to determine the endometrial thickness. Qualified sonographers who were unaware of the purpose of the study performed the ultrasound. Patients who were found to have abnormal endometria (thickness >4 mm, inhomogeneous, indistinct margins or inconclusive) were asked to participate in the study. The primary investigator obtained informed consent from those who agreed to participate in this study. Both procedures (SCSH GB and EOB) were performed by using a single lumen catheter (Uterine Explora, Model 1; 3 mm OD curette with a Vacu-Loc Syringe; Cooper Surgical, Berlin, Germany). An Ob/ Gyn physician, who was not aware of the study's objective, performed the EOBs as an outpatient procedure.
Fifty percent of enrolled patients were initially booked for SCSH GB then scheduled for EOB. Whereas, the remaining 50% underwent EOB first and then had SCSH GB. This method was used to control the issue of insufficient biopsy. The gap between the two interventions was at least 4 days. The same patients were called between 5 to 10 day of last menstrual period (LMP) and pregnancy was excluded. A sterile bivalve vaginal speculum was used, and the cervix was visualised and cleaned with povidone iodine. The catheter was introduced through the cervix into the uterine cavity; the speculum was then removed, and a high-frequency (7 MHz) 3D trans-vaginal probe was introduced into the vagina. Following the visualisation of the endometrium, 10-20 ml of saline was instilled into the uterine cavity, which distended the inner walls of the endometrium leading to easy detection of any endometrial lesion. The sampling procedure was then performed under direct vision of real-time 2D ultrasound guidance by delicate vacuum aspiration using the 5-ml syringe attached to the same catheter that was initially introduced. Gentle rotational and up-and-down movements were performed at the site of the lesion before the catheter was withdrawn. All cases were examined using the same machine (Philips iU22 3D ultrasound machine, Bothell, WA, USA) by a single operator to increase the reliability, precision, and accuracy. Both physicians were blinded to the histopathology results of the other biopsy while performing their respective intervention, which was released three weeks later. The women were prospectively followed until the final diagnosis was achieved. The final diagnosis were categorised as follows: 1) physiological, i.e., one year of follow-up for the patients with physiological histopathology on the SCSH GB and EOB (physiological histopathology were defined as normal functional endometria in premenopausal women and atrophic endometria in PMB women) 2) benign polyps or submucosal fibroids and 3) hyperplasia/cancer. The second and third categories were confirmed by histological diagnosis obtained from hysteroscopy or hysterectomy, i.e., the gold standard.

Result
The mean age and parity of the 113 enrolled women were (48.9 ± 8.2) years and (5.42 ±4.9), respectively Twenty-seven cases (29%) were classified as PMB, and 86 (76.1%) were classified as premenopausal bleeding. Among the latter group, 33 patients (38.3%) had heavy menstrual bleeding, 35 (40.6%) had irregular HMB and 18 (20.9%) had inter-menstrual bleeding. One hundred nine patients underwent SCSH GB, and the procedure was well tolerated with no complications (4 patients were excluded due to cervical stenosis). EOB was performed in 97 women (11 women did not show up, and the catheter could not be introduced in 5 patients). Out of the 113 enrolled patients ninety-three patients efficaciously underwent both SCSH GB and EOB procedures and were considered into final data analysis for sample adequacy and appropriate diagnosis. J Womens Health Gyn 2016 | Vol 3: 103 Sample adequacy: Among the 93 patients who had completed both procedures (SCSH GB and EOB), we found that 88 (94.6%) patients out of the 93 had an adequate sample by SCSH GB procedure, and the remaining 5 (5.4%) were inadequate. As well as, for EOB procedure, we found that 80 (86%) patients out of the 93 had adequate sample, and 13 (14%) were insufficient for histopathology. The sample adequacy of SCSH GB was significantly higher than that of EOB (p=0.001). Among the 5 inadequate samples obtained with SCSH GB, one was identified as a large polyp during the procedure and further confirmed by hysteroscopic polypectomy to be a benign endometrial polyp. It was further, observed that the four samples that were inadequate by SCSH GB were also inadequate by EOB, and normal endometria were detected on repeated 3DTVS after 1 month and physiological examination after 1-yearfollow-up. These four cases were false positive by 3DTVS.
Pathological diagnosis: Of the 93 women who underwent SCSH GB and EOB, 29 women required an intervention, and the diagnosis was confirmed by either hysteroscopy (25 cases) or hysterectomy (4 cases). The SCSH GB technique resulted in correct diagnosis in all 29 cases (100%). In contrast, the EOB results agreed with the gold standard results in only 8 (27.5%) cases and this difference was significant (p<0.001). In this regard, SCSH GB results were obtained in 86 cases because 6 patients refused hysteroscopy, and one patient (age 54) died due to multiple medical conditions (

Discussion
The SCHS GB has an added advantage of direct visualization (sonographic diagnosis) of the endometrial lesions and the 3 Dimensional study of the saved images, thus enhancing the diagnostic capability of SCSH [18,19]. Further, biopsies were obtained with 2D visual guidance. This explains the diagnosis of the seven cases of submucous fibroids which were missed by EOB because it is difficult to harvest myometrial tissue using an office sampling device. In contrast, EOB is a blind procedure and has the potential to miss many focal lesions [10,11]. Thus, it is evident from our study that EOB performed poorly in the diagnosis of endometrial pathology in pre and postmenopausal women with AUB, particularly those with focal lesions. EOB missed 19 of the 24 focal lesions (79.2%), and this result is similar to that of a previous study [1]. Our study results are in agreement with the results of a prospective experimental study published in 2009 by Moschos et al in which SCSH endometrial sampling was found to provide a diagnosis in 89% of cases [1]. Similarly, another study conducted by Kraus and Boston on 54 patients with AUB who underwent SCSH GB endometrial sampling revealed the promising reliability and accuracy of this method as an initial investigation in addition to the good tolerance of this method in an outpatient setting [20].
Additionally, in 2007, Leone et al. concluded that SCSH-guided endometrial sampling is as good as hysteroscopic biopsy and should be considered a reliable outpatient procedure for women with AUB because it is very well tolerated and inexpensive [13]. The gold standard for the diagnosis of intrauterine abnormalities is diagnostic hysteroscopy combined with the histological examination of an endometrial aspiration or biopsy. However, hysteroscopy is invasive, reasonably expensive, time-consuming, and it is performed under general anaesthesia in some centres [8][9][10]. It is also associated with risks, such as uterine perforation and ascending genitourinary infection [12,19]. In contrast, SCSH GB has been proven to be a safe, cost-effective and comparative alternative diagnostic tool with a high level of accuracy and reliability in the initial diagnosis of women with AUB. Therefore, SCSH GB can reduce the number of patients undergoing hysteroscopy [21,22]. We recruited a larger sample size than those of previous studies and thus provided more reliable results [1,20]. Our study corroborates the findings of previous studies, ensures the generalizability of these findings and has established that SCSH GB is an accurate and reliable tool for initial diagnostic investigations in pre-and post-menopausal women with AUB [1,7,10]. In addition to a previous study by Epstein et al. highlighted the limitations of blind procedures in postmenopausal women with abnormal uterine bleeding as 40 to 90% of polyps and 43-66% of hyperplasias respectively were missed by D&C [23]. Furthermore, they indicated that both polyps and hyperplasia are risk factors for developing endometrial carcinoma [24]. Accordingly, D&C is not the best technique of examining postmenopausal women bleeding. Thus, SCSH GB could be a better alternative than the blind procedures. The limitation of our study in few cases was the inability to sustain uterine cavity distension due to the retrograde flow of the saline because the biopsy catheter did not have a balloon to occlude the internal OS. However, this difficulty was overcome by the rapidity of the automatic sweep of the 3D transducer. The uterine cavity distension can be effectively improved by substituting saline by gel instillation, but then compromising the image quality, until the air bubbles in the gel can be prevented [24]. Furthermore, all SCSH procedures were performed by the same sonologist; thus, inter-observer differences could not be monitored. However, it is now established that gynaecological ultrasound and SCSH GB can be performed by competent sonographers [11,14]. Additionally, in cases with heterogeneous uteruses and fibroids, shadowing partly obscured the cavity and caused difficulty in visualisation. Future developments in 3DTVS technology will overcome this concern. SCSH GB was significantly superior to EOB in terms of sample adequacy and the diagnosis of endometrial pathologies. The SCSH GB technique can be a reasonable alternative to EOB in pre-and post-menopausal women aged 40 and older with AUB.