ABSTRACT
BACKGROUND. O-RADS ultrasound (US) and O-RADS MRI have been developed to standardize risk stratification of ovarian and adnexal lesions. OBJECTIVE. The purpose of this study was to perform a meta-analysis evaluating the diagnostic performance of O-RADS US and O-RADS MRI for risk stratification of ovarian and adnexal lesions. EVIDENCE ACQUISITION. We searched the Web of Science, PubMed, Cochrane Library, Embase, and Google Scholar databases from January 1, 2020, until October 31, 2022, for studies reporting on the performance of O-RADS US or O-RADS MRI in the diagnosis of malignancy of ovarian or adnexal lesions. Study quality was assessed with QUADAS-2. A hierarchic summary ROC model was used to estimate pooled sensitivity and specificity. Heterogeneity was assessed with the Q statistic. Metaregression analysis was performed to explore potential sources of heterogeneity. O-RADS US was compared with the International Ovarian Tumor Analysis (IOTA) simple rules and Assessment of Different Neoplasias in the Adnexa (ADNEX) model in studies providing head-to-head comparisons. EVIDENCE SYNTHESIS. Twenty-six studies comprising 9520 patients were included. O-RADS US was evaluated in 15 and O-RADS MRI in 12 studies; both systems were evaluated in one of the studies. Quality assessment revealed that risk of bias or concern about applicability most commonly related to patient selection. Pooled sensitivity and specificity of O-RADS US were 95% (95% CI, 91-97%) and 82% (95% CI, 76-87%) and of O-RADS MRI were 95% (95% CI, 92-97%) and 90% (95% CI, 84-94%). Analysis with the Q statistic revealed significant heterogeneity among studies of O-RADS US in both sensitivity and specificity (both p < .001) and among studies of O-RADS MRI in specificity (p < .001) but not sensitivity (p = .07). In metaregression, no factor was significantly associated with sensitivity or specificity of either system (all p > .05). O-RADS US showed no significant difference in sensitivity or specificity versus IOTA simple rules in four studies (sensitivity, 96% vs 93%; specificity, 76% vs 82%) or versus the ADNEX model in three studies (sensitivity, 96% vs 96%; specificity, 79% vs 78%). CONCLUSION. O-RADS US and O-RADS MRI both have high sensitivity for ovarian or adnexal malignancy. O-RADS MRI, but not O-RADS US, also has high specificity. CLINICAL IMPACT. Awareness of the diagnostic performance results regarding O-RADS US and O-RADS MRI will be helpful as these systems are increasingly implemented into clinical practice.
Subject(s)
Adnexal Diseases , Ovarian Neoplasms , Female , Humans , Ovarian Neoplasms/diagnostic imaging , Ovarian Neoplasms/pathology , Sensitivity and Specificity , Magnetic Resonance Imaging , Ultrasonography/methods , Risk Assessment/methods , Adnexal Diseases/diagnostic imagingABSTRACT
OBJECTIVES: To evaluate the individual and combined performances of the Ovarian-adnexal Reporting and Data System Ultrasound (O-RADS US) and serum cancer antigen 125 (CA-125) in assessing adnexal malignancy risk in women with different menopausal status. METHODS: This retrospective study included patients with adnexal masses scheduled for surgery based on their preoperative US and histopathology results between January 2018 and January 2020. O-RADS were used to assess adnexal malignancy by two experienced radiologists. The area under the receiver operating characteristic curves (AUCs) were used to compare the accuracy of O-RADS and a combination of O-RADS and CA-125. The weighted κ index was used to evaluate the inter-reviewer agreement. RESULTS: Overall, the data of 443 lesions in 443 patients were included, involving 312 benign lesions and 131 malignant lesions. There were 361 premenopausal and 82 postmenopausal patients. The inter-reviewer agreement for the two radiologists was very good (weighted κ: 0.833). Combing O-RADS US and CA-125 significantly increased diagnostic accuracy for classifying malignant from benign adnexal masses, compared with O-RADS US alone (AUC: 0.97 vs 0.95, P < .001 for premenopausal population and AUC: 0.93 vs 0.85, P < .001 for postmenopausal population). The AUCs of O-RADS with and without CA-125 ranged from 0.50 to 0.99 for different adnexal pathology subtypes (ie, benign, borderline, Stage I-IV, and metastatic tumors). CONCLUSION: The addition of CA-125 helps improve discrimination of O-RADS US between benign and malignant adnexal masses, especially in postmenopausal women.
Subject(s)
Adnexal Diseases , Neoplasms , Ovarian Neoplasms , Female , Humans , Retrospective Studies , CA-125 Antigen , Ovary/pathology , Adnexal Diseases/diagnostic imaging , Premenopause , Ovarian Neoplasms/diagnostic imaging , Ultrasonography/methods , Sensitivity and SpecificityABSTRACT
OBJECTIVE: While there are a number of benefits to minimally invasive surgery (MIS) for women with ovarian cysts, there is an increased risk of ovarian capsule rupture during the procedure, which could potentially seed the abdominal cavity with malignant cells. We developed a decision model to compare the risks, benefits, effectiveness and cost of MIS versus laparotomy in women with ovarian masses. DESIGN: Cost-effectiveness study POPULATION: Hypothetical cohort of 10 000 women with ovarian masses who were undergoing surgical management. METHODS: The initial decision point in the model was performance of surgery via laparotomy or a MIS approach. Model probabilities, costs and utility values were derived from published literature and administrative data sources. Extensive sensitivity analyses were conducted to assess the robustness of the findings. MAIN OUTCOME MEASURES: The primary outcome was the cost-effectiveness of MIS versus laparotomy for women with a pelvic mass measured by incremental cost-effectiveness ratios (ICERs). RESULTS: MIS was the least costly strategy at $7,732 per women on average, compared with $17,899 for laparotomy. In our hypothetical cohort of 10 000 women, there were 64 cases of ovarian rupture in the MIS group and 53 in the laparotomy group, while there were 26 cancer-related deaths in the MIS group and 25 in the laparotomy group. MIS was more effective than laparotomy (188 462 QALYs for MIS versus 187 631 quality adjusted life years [QALYs] for laparotomy). Thus, MIS was a dominant strategy, being both less costly and more effective than laparotomy. These results were robust in a variety of sensitivity analyses. CONCLUSION: MIS constitutes a cost-effective management strategy for women with suspicious ovarian masses. TWEETABLE ABSTRACT: MIS is a cost-effective management strategy for women with suspicious ovarian masses.
Subject(s)
Minimally Invasive Surgical Procedures , Ovarian Neoplasms , Cost-Benefit Analysis , Female , Humans , Laparotomy/adverse effects , Laparotomy/methods , Minimally Invasive Surgical Procedures/adverse effects , Minimally Invasive Surgical Procedures/methods , Ovarian Neoplasms/pathology , Quality-Adjusted Life YearsABSTRACT
OBJECTIVES: To evaluate the performance of a two-step strategy compared with the International Ovarian Tumor Analysis (IOTA) - Assessment of Different NEoplasias in the adneXa (ADNEX) model for preoperative classification of adnexal masses. METHODS: An ambispective diagnostic accuracy study based on ultrasound data collected at one university hospital between 2012 and 2018. Two ultrasonographers classified the adnexal masses using IOTA Simple Rules (first step). Not classifiable masses were evaluated using the IOTA ADNEX model (second step). Also, all masses were classified using the IOTA ADNEX model. The sensitivity, specificity, positive predictive value (PPV) and negative predictive value (NPV), positive likelihood ratio (LR+) and negative likelihood ratio (LR-), and receiver operating characteristic (ROC) curve were estimated. A P value of <.05 was used to determine statistical significance. RESULTS: The study included 548 patients and 606 masses. Patients' median age was 41 years with an interquartile range between 32 and 51 years. In the first step, 89 (14%) masses were not classifiable. In the second step, 55 (61.8%) masses were classified as malignant. Furthermore, for the totality of 606 masses, the IOTA ADNEX model estimated the probability that 126 (20.8%) masses were malignant. The two-step strategy had a sensitivity, specificity, PPV, NPV, LR+, LR-, and ROC curve of 86.8%, 91.01%, 51.9%, 98.4%, 9.7, 0.1, and 0.889, respectively; compared to IOTA ADNEX model that had values of 91.8%, 87.16%, 44.4%, 99%, 7.1, 0.09, and 0.895, respectively. CONCLUSION: The two-step strategy shows a similar diagnostic performance when compared to the IOTA ADNEX model. The IOTA ADNEX model involves only one step and can be more practical, and thus would be recommended to use.
Subject(s)
Adnexal Diseases , Ovarian Neoplasms , Adnexa Uteri/diagnostic imaging , Adnexal Diseases/diagnostic imaging , Adult , Diagnosis, Differential , Female , Hospitals , Humans , Middle Aged , Ovarian Neoplasms/diagnostic imaging , Sensitivity and Specificity , UltrasonographyABSTRACT
OBJECTIVE: To externally validate the Ovarian-adnexal Reporting and Data System (O-RADS) and evaluate its performance in differentiating benign from malignant adnexal masses (AMs) compared with the Gynecologic Imaging Reporting and Data System (GI-RADS) and Assessment of Different NEoplasias in the adneXa (ADNEX). METHODS: A retrospective analysis was performed on 734 cases from the Second Affiliated Hospital of Fujian Medical University. All patients underwent transvaginal or transabdominal ultrasound examination. Pathological diagnoses were obtained for all the included AMs. O-RADS, GI-RADS, and ADNEX were used to evaluate AMs by two sonologists, and the diagnostic efficacy of the three systems was analyzed and compared using pathology as the gold standard. We used the kappa index to evaluate the inter-reviewer agreement (IRA). RESULTS: A total of 734 AMs, including 564 benign masses, 69 borderline masses, and 101 malignant masses were included in this study. O-RADS (0.88) and GI-RADS (0.90) had lower sensitivity than ADNEX (0.95) (P < .05), and the PPV of O-RADS (0.98) was higher than that of ADNEX (0.96) (P < .05). These three systems showed good IRA. CONCLUSION: O-RADS, GI-RADS, and ADNEX showed little difference in diagnostic performance among resident sonologists. These three systems have their own characteristics and can be selected according to the type of center, access to patients' clinical data, or personal comfort.
Subject(s)
Adnexal Diseases , Ovarian Neoplasms , Adnexal Diseases/diagnostic imaging , Data Systems , Female , Humans , Ovarian Neoplasms/pathology , Retrospective Studies , Sensitivity and Specificity , Ultrasonography/methodsABSTRACT
BACKGROUND: The diagnosis of sonographically indeterminate adnexal masses (AM) signifies a major challenge in clinical practice. Early detection and characterization have increased the need for accurate imaging evaluation before treatment. PURPOSE: To assess the validity and reproducibility of the ADNEX MR Scoring system in the diagnosis of sonographically indeterminate AM. STUDY TYPE: A prospective multicenter study. POPULATION: In all, 531 women (mean age, 44 ± 11.2 years; range, 21-79 years) with 572 sonographically indeterminate AM. FIELD STRENGTH/SEQUENCE: 1.5T/precontrast T1 -weighted imaging (WI) fast spin echo (FSE) (in-phase and out-of-phase, with and without fat suppression); T2 -WI FSE; diffusion-WI single-shot echo planner with b-values of 0 and 1000 s/mm2 ; and dynamic contrast-enhanced perfusion T1 -WI liver acquisition with volume acceleration (LAVA). ASSESSMENT: All MRI examinations were evaluated by three radiologists, and the AM were categorized into five scores based on the ADNEX MR Scoring system. Score 1: no AM; 2: benign AM; 3: probably benign AM; 4: indeterminate AM; 5: probably malignant AM. Histopathology and imaging follow-up were used as the standard references for evaluating the validity of the ADNEX MR Scoring system for detecting ovarian malignancy. STATISTICAL TESTS: Four-fold table test, kappa statistics (κ), and receiver operating characteristic (ROC) curve. RESULTS: In all, 136 (23.8%) AM were malignant, and 436 (76.2%) were benign. Of the 350 AM classified as score 2, one (0.3%) was malignant; of the 62 AM classified as score 3, six (9.7%) were malignant; of the 73 AM classified as score 4, 43 (58.9%) were malignant; and of the 87 AM categorized as score 5, 86 (98.9%) were malignant. The best cutoff value for predicting malignant AM was score >3 with sensitivity and specificity of 92.9% and 94.9%, respectively. The interreader agreement of the ADNEX MR Scoring was very good (κ = 0.861). DATA CONCLUSION: The current study supports the high validity and reproducibility of the ADNEX MR Scoring system for the diagnosis of sonographically indeterminate AM. LEVEL OF EVIDENCE: 1 TECHNICAL EFFICACY STAGE: 2.
Subject(s)
Adnexal Diseases , Adnexa Uteri , Adnexal Diseases/diagnostic imaging , Adult , Female , Humans , Magnetic Resonance Imaging , Middle Aged , Prospective Studies , Reproducibility of Results , Sensitivity and SpecificityABSTRACT
OBJECTIVE: To assess the diagnostic performance and inter-observer agreement of the American College of Radiology (ACR) Ovarian-Adnexal Reporting and Data System Ultrasound (O-RADS US). METHODS: From January 2016 to December 2018 a total of 1054 adnexal lesions in 1035 patients with pathologic results from two hospitals were retrospectively included. Each lesion was assigned to an O-RADS US category according to the criteria. Kappa (κ) statistics were applied to assess inter-observer agreement between a less experienced and an expert radiologist. RESULTS: Of the 1054 adnexal lesions, 750 were benign and 304 were malignant. The malignancy rates of O-RADS 5, O-RADS 4, O-RADS 3, and O-RADS 2 lesions were 89.57%, 34.46%, 1.10%, and 0.45% respectively. Area under the receiver operating characteristic curve was 0.960 (95% CI, 0.947-0.971). The optimal cutoff value for predicting malignancy was >O-RADS 3 with a sensitivity and specificity of 98.7% (95% CI, 0.964-0.996) and 83.2% (95% CI, 0.802-0.858) respectively. When sub-classifying multilocular cysts and smooth solid lesions in O-RADS 4 lesions as O-RADS 4a lesions and the rest cystic lesions with solid components as O-RADS 4b lesions, the malignancy rate were 17.02% and 42.57% respectively, which showed better risk stratification (P < 0.001). The inter-observer agreement between a less-experienced and an expert radiologist of O-RADS categorization was good (κ = 0.714). CONCLUSIONS: The ACR O-RADS US provides effective malignancy risk stratification for adnexal lesions with high reliability for radiologists with different experience. Sub-grouping of O-RADS 4 lesions into two groups facilitated better stratification of the intermediate risk.
Subject(s)
Adnexa Uteri/diagnostic imaging , Genital Neoplasms, Female/diagnostic imaging , Ovary/diagnostic imaging , Adnexal Diseases/diagnostic imaging , Adult , Female , Humans , Middle Aged , Ovarian Neoplasms/diagnostic imaging , Radiology/methods , Radiology/standards , Reproducibility of Results , Research Design/standards , Retrospective Studies , Ultrasonography/methods , Ultrasonography/standardsABSTRACT
PURPOSE: To validate the diagnostic performance of the Early-stage Ovarian Malignancy (EOM) score in an external dataset that includes advanced-stage and metastatic ovarian cancer. METHODS: The data from two cross-sectional cohorts were used in the statistical analysis. The development dataset of the EOM score was collected in Phrapokklao Hospital between September 2013 and December 2017. The validation dataset was collected in Maharaj Nakorn Chiang Mai Hospital between April 2010 and March 2018. The internal and external performance of the EOM score was evaluated in terms of discrimination via area under the receiver-operating characteristic curve (AuROC) and calibration. RESULTS: There were 270 and 479 patients included in the development and validation datasets, respectively. The prevalence of ovarian malignancy was 20.0% (54/270) in the development set and 30.3% (145/479) in the validation set. The EOM score had excellent discriminative ability in both the development and validation sets (AuROC 88.0 (95% CI 82.6, 93.9) and 88.0 (95% CI 84.3, 91.4), respectively). The EOM score also showed good calibration in both datasets. CONCLUSIONS: The EOM score had consistent diagnostic performance in the external validation data. It is recommended for use as a triage tool in patient referrals instead of the RMI in settings where experienced sonographers are not available.
Subject(s)
Ovarian Neoplasms , Cross-Sectional Studies , Female , Humans , Neoplasm Metastasis , Ovarian Neoplasms/diagnosis , Ovarian Neoplasms/epidemiology , Prevalence , ROC Curve , Risk Assessment , TriageABSTRACT
Most adnexal masses are benign, incidental findings of pregnancy which resolve spontaneously. They may present clinically due to haemorrhage, rupture, torsion and mass effect. Aetiological classification includes ovarian benign, ovarian malignant, non-ovarian, gynaecological, non-ovarian non-gynaecological and an additional subset of pathologies unique to pregnancy. Ultrasound is the first-line imaging modality for the evaluation of adnexal masses. This may be supplemented with magnetic resonance imaging. Tumour markers support evaluation of malignant potential, but interpretation of results in pregnancy is challenging. Surgical intervention requires consideration of gestation, lesion characteristics and presence of complications. Laparoscopy is preferred owing to shorter operative time, quicker recovery and resultant lower thrombotic risk. Post-viability, fetal wellbeing and assessment must be considered. Management of the pregnancy may include cardiotocography, steroids, non-teratogenic antibiotics and tocolytics. In rare cases, particularly related to malignancy, termination of pregnancy may be required to enable immediate management where there are concerns for maternal wellbeing.
Subject(s)
Ovarian Cysts , Ovarian Neoplasms , Patient Care Management/methods , Pregnancy Complications/therapy , Biomarkers, Tumor , Female , Humans , Laparoscopy/methods , Magnetic Resonance Imaging/methods , Ovarian Cysts/complications , Ovarian Cysts/diagnostic imaging , Ovarian Cysts/therapy , Ovarian Neoplasms/complications , Ovarian Neoplasms/pathology , Ovarian Neoplasms/therapy , Pregnancy , Risk Adjustment , Ultrasonography/methodsABSTRACT
CONTEXT: Adnexal masses in girls represent a wide pathological spectrum. We performed a retrospective analysis of clinical and diagnostic aspects of adnexal masses in girls. AIMS: To analyze the clinical characteristics and surgical management of adnexal masses in children and adolescents. SETTINGS AND DESIGN: Retrospective observational analysis from 2000 to 2020. SUBJECTS AND METHODS: This analysis was performed on 28 children under the age of 17 years with adnexal masses who were managed by us at tertiary care centers of Delhi-NCR. Patients were analyzed based on their age at the time of admission, their presenting complaints, clinical and radiological findings, tumor markers, management, and follow-up. RESULTS: The age ranged between newborn and 17 years. Abdominal pain, nausea with vomiting, and abdominal lump was the most common presenting complaints. Pelvic ultrasound with or without color Doppler done in all patients and computed tomography, magnetic resonance imaging was performed in seven patients preoperatively. Adnexal masses were unilateral in 26 (92.85%) patients and bilateral in 2 (7.15%) patients. Five babies had antenatal diagnosis of ovarian cysts. Serum alpha fetoprotein (AFP) and beta-human chorionic gonadotropin (b-HCG) were normal in all 19 tested patients. Cancer antigen 125 (CA-125) was raised in three ovarian tumors out of 9 tested patients. Laparoscopy was performed in 23 out of 28 patients (30 ovaries). Ovarian cyst torsion was present in 50% patients. Ovarian cystectomy was done in 10 (33.3%) patients. Six (20%) ovaries were saved by detorsion of the ovary and deroofing of the cyst with or without ovarian biopsy. Oophorectomy was done in five (16.7%) patients. Salpingo-oopherectomy had to be done in seven (23.3%) patients. Histopathology revealed functional nonneoplastic lesions in 18 cases (66.7%), benign neoplastic lesions in 8 cases (29.6%), and malignant neoplastic lesion in 1 case (3.7%). CONCLUSIONS: Adnexal masses in children are generally benign. AFP, b-HCG, and CA-125 in ovarian torsion are within normal limits. Urgent surgery is required if torsion is established. The ovary should be preserved wherever possible.
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Cancer complicates 1 in 1000 pregnancies. Multidisciplinary consensus comprised of Gynecologic Oncology, Pathology, Neonatology, Radiology, Anesthesiology, Maternal Fetal Medicine, and Social Work should be convened. Pregnancy provides an opportunity for cervical cancer screening, with deliberate delays in treatment permissible for early stage carcinoma. Vaginal delivery is contraindicated in the presence of gross lesion(s) and radical hysterectomy with lymphadenectomy at cesarean delivery is recommended. Women with locally advanced and metastatic/recurrent disease should commence treatment at diagnosis with chemoradiation and systemic therapy, respectively; neoadjuvant chemotherapy to permit gestational advancement may be considered in select cases. Most adnexal masses are benign and resolve by the second trimester. Persistent, asymptomatic, benign-appearing masses can be managed conservatively; surgery, if indicated, is best deferred to 15-20 weeks, with laparoscopy preferable over laparotomy whenever possible. Benign and malignant germ cell tumors and borderline tumors are occasionally encountered, with unilateral adnexectomy and preservation of the uterus and contralateral ovary being the rule. Epithelial ovarian cancer is exceedingly rare. Ultrasonography and magnetic resonance imaging lack ionizing radiation and can be employed to evaluate disease extent. Tumor markers, including CA-125, AFP, LDH, inhibin-B, and even CEA and ßhCG may be informative. If required, chemotherapy can be administered following organogenesis during the second and third trimesters. Because platinum and other anti-neoplastic agents cross the placenta, chemotherapy should be withheld after 34 weeks to avoid neonatal myelosuppression. Bevacizumab, immune checkpoint inhibitors, and PARP inhibitors should be avoided throughout pregnancy. Although antenatal glucocorticoids to facilitate fetal pulmonary maturation and amniotic fluid index assessment can be considered, there is no demonstrable benefit of tocolytics, antepartum fetal heart rate monitoring, and/or amniocentesis. Endometrial, vulvar, and vaginal cancer in pregnancy are curiosities, although leiomyosarcoma and the dreaded twin fetus/hydatidiform mole have been reported. For gynecologic malignancies, pregnancy does not impart aggressive clinical behavior and/or worse prognosis.
Subject(s)
Genital Neoplasms, Female/etiology , Female , Genital Neoplasms, Female/pathology , Humans , PregnancyABSTRACT
OBJECTIVES: This pilot study evaluated whether contrast-enhanced subharmonic imaging (SHI) could be used to characterize adnexal masses before surgical intervention. METHODS: Ten women (with 12 lesions) scheduled for surgery of an ovarian mass underwent an SHI examination of their adnexal region using a modified LOGIQ E9 scanner (GE Healthcare, Waukesha, WI) with an endocavitary transducer, in which digital clips were acquired by pulse destruction-replenishment SHI across the lesions. Time-intensity curves were created offline to quantitatively evaluate SHI parameters (fractional tumor perfusion, peak contrast intensity, time to peak contrast enhancement, and area under the time-intensity curve), which were compared to pathologic characterizations of the lesions. RESULTS: Of the 12 masses, 8 were benign, and 4 were malignant. A qualitative analysis of the SHI images by an experienced radiologist resulted in diagnostic accuracy of 70%, compared to 56% without contrast, whereas an inexperienced radiologist improved from 50% to 58% accuracy, demonstrating the benefit of SHI. A quantitative analysis of SHI parameters produced diagnostic accuracy as high as 81%. Peak contrast intensity was significantly greater in malignant than benign masses (mean ± SD, 0.109 ± 0.088 versus 0.046 ± 0.030 arbitrary units; P = .046). Malignant masses also showed significantly greater perfusion than benign masses (24.79% ± 25.34% versus 7.62% ± 6.50%; P = .045). When the radiologist reads were combined with the most predictive quantitative SHI parameter (percent perfusion), diagnostic accuracy improved to 84% for the experienced radiologist and 96% for the novice radiologist. CONCLUSIONS: Results indicate that SHI for presurgical characterization of adnexal masses may improve the determination of malignancy and diagnostic accuracy, albeit based on a small sample size.
Subject(s)
Adnexal Diseases/diagnostic imaging , Contrast Media , Image Enhancement/methods , Ovarian Neoplasms/diagnostic imaging , Ultrasonography/methods , Adnexa Uteri/diagnostic imaging , Adult , Aged , Diagnosis, Differential , Female , Humans , Middle Aged , Pilot Projects , Reproducibility of ResultsABSTRACT
PURPOSE: The objective of this meta-analysis is to investigate and compare the pregnancy outcomes of laparoscopy and open surgery in the treatment of ovarian tumors during pregnancy. METHODS: Search was conducted using MEDLINE, EMBASE, and Cochrane Databases from January 1990 to November 2018. A broad search strategy was used to identify studies comparing laparoscopy and open surgery in pregnancy. Inclusion criteria included comparative studies with the quantitative outcome data on gravida. Two authors independently reviewed and assessed for the quality of included studies according to the Newcastle-Ottawa Scale. Data were extracted for fetal loss, preterm delivery, duration of surgery, blood loss and length of hospital stay. RESULTS: Nine retrospective trials were identified involving 985 patients. No statistical significance was found in fetal loss between laparoscopy and open surgery (P value = 0.334). The pooled estimate for preterm labor statistically significantly decreased for laparoscopy group (P value = 0.014). Reduced operative blood loss was found in laparoscopy group by 83.81 ml (P value = 0.015). Duration of operation may be longer in the laparoscopy group, but without statistical significance (P value = 0.346). Length of hospital stay was shorter in the laparoscopy group with reduction of 1.95 days (P value < 0.001). CONCLUSIONS: The available low-grade evidence suggests that laparoscopic surgery might be a feasible alternative for pregnant women with adnexal masses.
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AIM OF THE STUDY: To detect the clinical and pathological features of women with adnexal masses (AMs) admitted as emergency cases to the Gynaecology Department of West Kazakhstan University. MATERIAL AND METHODS: A retrospective analysis of the data of women with AMs admitted as an emergency cases to the Gynaecology Department of West Kazakhstan University. The collected data include: age, age of menarche and age of menopause, presenting symptoms, admission criteria - either self-referral or refereed from another department, ultrasound findings, associated pregnancy, associated pathology of the female genital tract, and post-operative histological results of surgically excised AMs (gold standard). RESULTS: 77.04% (245/318) of the studied AMs were found in the reproductive age group. The main causes for surgical intervention for the studied AMs was ruptured ovarian cyst in 27.1% or adnexal torsion in 9.7%. The available histological results of the surgically managed AMs showed the following: functional ovarian cyst in 36.2% (115/318), benign ovarian neoplasms (BONs) in 18.55% (59/318), and borderline malignant ovarian tumours in 0.63% (2/318). 44.34% of the studied AMs were associated with pregnancy, 49.3% with chronic tubo-ovarain diseases such as salpingo-oophoritis, 14.8% with cervical pathology and pelvic inflammatory diseases, 11.3% with uterine leiomyomas, and 4.4% with endometrial hyperplasia. CONCLUSIONS: AMs were more common in the reproductive age group (77.04%), and 44.34% of the studied AMs were associated with pregnancy. The main causes of surgical intervention for the studied AMs were ruptured ovarian cyst in 27.1% or adnexal torsion in 9.7%.
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PURPOSE: To develop a one-step quantification approach that accounts for joint preprocessing and quantification of whole-range kinetics (early and late-phase washout) of dynamic contrast-enhanced (DCE) MRI of indeterminate adnexal masses. METHODS: Preoperative DCE-MRI of 43 (24 benign, 19 malignant) sonographically indeterminate adnexal masses were analyzed prospectively. A five-parameter sigmoid function was implemented to model the enhancement curves calculated within regions of interest. Diagnostic performance of five-parameter sigmoid model parameters (P1 through P5 ) was compared with pharmacokinetic (PK) modeling, semiquantitative analysis, and three-parameter sigmoid. Statistical analysis was performed using two-tailed student's t-test. RESULTS: The results revealed that P2 , representing the enhancement amplitude, is significantly higher, and P5 , indicating the terminal phase, is generally negative in malignant lesions (P < 0.001). P2 (sensitivity = 79%, specificity = 87.5%, accuracy = 84%, area under the receiver operating characteristic curve = 91%) outperforms classification performances of PK and semiquantitative parameters. A combination of P2 and P5 shows comparable performance (sensitivity = 79%, specificity = 87.5%, accuracy = 84%, area under the receiver operating characteristic curve = 92%) to that of the combination of PK parameters, whereas the five-parameter sigmoid function maintains fewer assumptions than PK. CONCLUSIONS: The presented one-step quantification approach is helpful for accurate discrimination of benign from malignant indeterminate adnexal masses. Accordingly, P2 has considerably high diagnostic performance and terminal slope (P5 ), as a previously overlooked feature, contributes more than widely accepted early-enhancement kinetic features. Magn Reson Med 79:1165-1171, 2018. © 2017 International Society for Magnetic Resonance in Medicine.
Subject(s)
Adnexal Diseases/diagnostic imaging , Genital Neoplasms, Female/diagnostic imaging , Image Interpretation, Computer-Assisted/methods , Magnetic Resonance Imaging/methods , Adolescent , Adult , Biomarkers, Tumor/analysis , Contrast Media/chemistry , Contrast Media/pharmacokinetics , Female , Humans , Middle Aged , Prospective Studies , Young AdultABSTRACT
BACKGROUND: Adnexal masses indicate a variety of gynecological and nongynecological disorders, which may be benign or malignant. Early detection of malignancy is crucial to a proper planning of treatment and improvement of survival. OBJECTIVE: To determine the accuracy of risk of malignancy index (RMI) in prediction of malignant adnexal mass. SUBJECTS AND METHODS: This was a prospective multicenter study which included 101 women with adnexal masses. RMI2 with cutoff value of 200 was used to discriminate between benign and malignant tumors. Histopathological examination was used to confirm the final diagnosis. RESULTS: Out of the studied women, 20.8% proved to have malignant tumors. The RMI showed a sensitivity of 100%, a specificity of 96.2%, a positive predictive value of 87.5%, and a negative predictive value (NPV) of 100%. The RMI identified malignant cases more accurately than any individual criterion in diagnosing ovarian cancer. The receiver operating characteristic analysis showed that the area under the curve of the RMI, CA 125, ultrasound, and menopausal status were significantly high with values of 1.0, 0.99, 0.86, and 0.85, respectively. CONCLUSION: The RMI is a simple sensitive, practical, and reliable tool in preoperative discrimination between benign and malignant adnexal masses that can facilitate selection of cases for timely referral to oncology center.
Subject(s)
Adnexa Uteri/pathology , Adnexal Diseases/pathology , CA-125 Antigen/blood , Ovarian Neoplasms/diagnosis , Risk Assessment/methods , Ultrasonography , Adnexa Uteri/diagnostic imaging , Adnexal Diseases/blood , Adult , Aged , Female , Humans , Iraq , Middle Aged , Ovarian Neoplasms/blood , Ovarian Neoplasms/pathology , Predictive Value of Tests , Prospective Studies , ROC Curve , Sensitivity and SpecificityABSTRACT
PURPOSE: To evaluate the value of quantifying dynamic contrast-enhanced magnetic resonance imaging (DCE-MRI) heterogeneity to characterize adnexal masses. MATERIALS AND METHODS: Our database was retrospectively queried to identify all surgically proven adnexal masses characterized with a 1.5T DCE-MRI between January 1st 2008 and February 28th 2010 (n = 113 masses, including 52 benign, 11 borderline, and 50 invasive malignant tumors). The solid component of the adnexal mass was segmented. Quantitative analysis with a compartmental model was performed to calculate microvascular parameters, including tissue blood flow (FT ), blood volume fraction (Vb ), lag time (DAT ), interstitial volume fraction (Ve ), permeability-surface area product (PS), and relative area under curve (r AUC), were calculated. Then heterogeneity parameters were evaluated using the analysis of the evolution of the standard deviation (SD) of signal intensities on DCE-MRI series. The area under the receiver operating characteristic (AUROC) curve was calculated to assess the overall discrimination of parameters. RESULTS: Malignant tumors displayed higher FT , Vb , and r AUC and lower DAT than benign tumors (P = 0.01, P < 0.0001, and P < 0.0001, respectively). Invasive malignant tumors displayed lower Vb and r AUC than borderline tumors (P < 0.01). After injection, whenever the heterogeneity parameter was considered, malignant tumors were more heterogeneous than benign tumors, invasive tumors were more heterogeneous than borderline ovarian tumors, and malignant tumors with carcinomatosis were more heterogeneous than tumors without carcinomatosis (P < 0.001). The most discriminant parameter was the SD during the 90 seconds after injection related to arterial input function (ΔSDEARLY/AIF ) with an AUROC between 0.715 and 0.808. CONCLUSION: This study proposes heterogeneity parameters as a new tool with a potential for clinical application, given that the technique uses routine imaging sequences. LEVEL OF EVIDENCE: 3 Technical Efficacy: Stage 2 J. Magn. Reson. Imaging 2017;46:1776-1785.
Subject(s)
Adnexal Diseases/diagnostic imaging , Contrast Media , Image Enhancement/methods , Magnetic Resonance Imaging/methods , Ovarian Neoplasms/blood supply , Ovarian Neoplasms/diagnostic imaging , Adnexa Uteri/blood supply , Adnexa Uteri/diagnostic imaging , Adolescent , Adult , Aged , Aged, 80 and over , Diagnosis, Differential , Female , Humans , Middle Aged , Retrospective Studies , Sensitivity and Specificity , Young AdultABSTRACT
OBJECTIVE: To evaluate the performance of the International Ovarian Tumor Analysis (IOTA) ADNEX model in the preoperative discrimination between benign ovarian (including tubal and para-ovarian) tumors, borderline ovarian tumors (BOT), Stage I ovarian cancer (OC), Stage II-IV OC and ovarian metastasis in a gynecological oncology center in Brazil. METHODS: This was a diagnostic accuracy study including 131 women with an adnexal mass invited to participate between February 2014 and November 2015. Before surgery, pelvic ultrasound examination was performed and serum levels of tumor marker CA 125 were measured in all women. Adnexal masses were classified according to the IOTA ADNEX model. Histopathological diagnosis was the gold standard. Receiver-operating characteristics (ROC) curve analysis was used to determine the diagnostic accuracy of the model to classify tumors into different histological types. RESULTS: Of 131 women, 63 (48.1%) had a benign ovarian tumor, 16 (12.2%) had a BOT, 17 (13.0%) had Stage I OC, 24 (18.3%) had Stage II-IV OC and 11 (8.4%) had ovarian metastasis. The area under the ROC curve (AUC) was 0.92 (95% CI, 0.88-0.97) for the basic discrimination between benign vs malignant tumors using the IOTA ADNEX model. Performance was high for the discrimination between benign vs Stage II-IV OC, BOT vs Stage II-IV OC and Stage I OC vs Stage II-IV OC, with AUCs of 0.99, 0.97 and 0.94, respectively. Performance was poor for the differentiation between BOT vs Stage I OC and between Stage I OC vs ovarian metastasis with AUCs of 0.64. CONCLUSION: The majority of adnexal masses in our study were classified correctly using the IOTA ADNEX model. On the basis of our findings, we would expect the model to aid in the management of women with an adnexal mass presenting to a gynecological oncology center. Copyright © 2016 ISUOG. Published by John Wiley & Sons Ltd.
Subject(s)
Adnexal Diseases/diagnostic imaging , Neoplasm Staging , Adnexal Diseases/pathology , Adnexal Diseases/surgery , Adult , Brazil , Female , Humans , Middle Aged , Models, Theoretical , Ovarian Neoplasms/diagnostic imaging , Ovarian Neoplasms/pathology , Ovarian Neoplasms/surgery , Reproducibility of Results , Sensitivity and Specificity , UltrasonographyABSTRACT
STUDY OBJECTIVE: To report surgical and pathologic outcomes after single-port laparoscopy (SPL) for adnexal masses in patients referred to a gynecologic oncology practice at a single academic institution. DESIGN: A retrospective analysis (Canadian Task Force Classification II.2). SETTING: A single academic institution with multiple hospital centers. PATIENTS: Women who underwent at least 1 single-port laparoscopic surgery for the treatment of an adnexal mass from 2009 to 2015 after referral to a gynecologic oncology practice. INTERVENTION: Data were collected on the surgical procedure, patient demographic variables, 30-day surgical outcomes, and hernia development. MEASUREMENTS AND MAIN RESULTS: Three hundred twenty-five surgeries were performed in 322 patients with a median follow-up of 42.7 months. The median age was 54.5 years, and the median body mass index was 28.1 kg/m2. All patients underwent unilateral or bilateral salpingectomy or oophorectomy with or without hysterectomy (26.5%). The median operative time was 90.0 minutes. The median mass dimension was 6.4 cm with 17.9% (n = 60) greater than 10 cm. Masses were categorized as simple (11.4%) and complex (69.5%). Although the majority (87.4%) of masses were benign, 7.4% were malignant, and 5.2% were borderline. Benign masses were physiologic (16.6%), serous cystadenomas (19.1%), mucinous cystadenomas (6.8%), endometriomas (12.3%), myomas (12.3%), and mature teratomas (9.2%). In malignant cases (7.4%), serous carcinoma was the most frequent histology (58.3%). The rate of adverse outcomes within 30 days, including reoperation (0.0%), intraoperative injury (1.5%), venous thromboembolism (0.3%), and transfusion (0.6%), was low. The development of incisional cellulitis was 4.6%. The rate of incisional hernia was 4.0%, with a median occurrence of 18.3 months. Diabetes mellitus (p = .03) and obesity (p = .04) were significant predictors for a hernia, but mass complexity (p = .28), American Society of Anesthesiologists class (p = .83), and smoking (p = .82) were not. CONCLUSION: In patients undergoing SPL for the removal of adnexal masses in a gynecologic oncology practice, the rate of benign disease is high. SPL removal of adnexal masses is feasible and safe with favorable surgical outcomes, rare short-term adverse outcomes, and a low incisional hernia rate.
Subject(s)
Adnexal Diseases/surgery , Laparoscopy/methods , Adnexal Diseases/epidemiology , Adult , Aged , Blood Transfusion , Endometriosis/epidemiology , Endometriosis/surgery , Female , Humans , Hysterectomy/methods , Hysterectomy/statistics & numerical data , Incisional Hernia/epidemiology , Incisional Hernia/etiology , Laparoscopy/adverse effects , Laparoscopy/statistics & numerical data , Middle Aged , Operative Time , Ovariectomy/methods , Ovariectomy/statistics & numerical data , Postoperative Complications/epidemiology , Postoperative Complications/etiology , Postoperative Period , Reoperation/statistics & numerical data , Retrospective Studies , Salpingectomy/methods , Salpingectomy/statistics & numerical data , Venous Thromboembolism/etiologyABSTRACT
Adnexal masses are a common indication for surgery in the United States. This article reviews the clinical features that may suggest an underlying malignancy, including ultrasound and biomarkers. The decision regarding how to remove an adnexal mass involves consideration of several factors, including body habitus, intra-abdominal anatomy, concomitant procedures planned, characteristics of the adnexal mass, and concern for underlying malignancy. Minimally invasive techniques for removal of adnexal masses are discussed in detail, with a review of the risk of an unexpected underlying malignancy.