ULTRASONOGRAPHY VERSUS COMPUTED TOMOGRAPHY IN DIAGNOSIS OF ACUTE APPENDICITIS | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Al-Azhar Medical Journal | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Article 17, Volume 46, Issue 4, October 2017, Page 981-994 PDF (4.99 MB) | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Document Type: Original Article | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
DOI: 10.12816/0045180 | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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Ahmed F. El-Deek1; Ibrahim M. El-Sayaad2 | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
1Departments of Radiology, Faculty of Medicine, Al-Azhar University (New Damietta) | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
2Departments of General Surgery, Faculty of Medicine, Al-Azhar University (New Damietta) | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Abstract | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
Background: Acute appendicitis (AA) is among the most common cause of acute abdominal pain. Imaging methods, such as ultrasonography (US) and computed tomography (CT), aimed at avoiding a misdiagnosis and facilitating earlier surgery, when necessary, have become increasingly important for decreasing the morbidity of the disease. Objective: This study aimed to compare the accuracy of US and CT in the diagnosis of AA. Patients and Methods: After local ethical approval and written consent taken, 107 patients with signs and symptoms suggesting AA, selected from emergency department of Al-Azhar University Hospital, New Damietta during the period from March, 2016 to April 2017. They were 63 males and 44 females, mean age was 17.09±3.02 years. 90 (84.11%) underwent surgery, and 17 patients (15.9%) were hospitalized for clinical observation after imaging (12 patients (11.2%) were dismissed from the hospital while 5 cases (4.7%) presented with positive CT findings underwent surgery). After history taking, full clinical examination and laboratory investigations, all patients were subjected to US and CT examination. All patients were reevaluated clinically, and a correlation was made between both sets of results. Accordingly, final decision was made. Accuracy was ascertained intra-operatively for those underwent appendectomy, and the results were compared with those found by radiological examination. The results were correlated with surgical and histopathologic findings. Results: Males affected more than females, and abdominal pain was present in 100%. The sensitivity, specificity, positive predictive value, negative predictive value and overall accuracy of US in diagnosis of AA in our study were found to be 91.7 %, 77.8 %, 94.3%, 70.0% and 88.9 % respectively.The sensitivity, specificity, positive predictive value, negative predictive value and overall accuracy of CT in diagnosis of AA were 98.8 %, 88.9 %, 98.8%, 88.9% and 97.8 % respectively. Conclusion: US should be the first-line imaging modality. As US sensitivity is limited, and non-confirmed US examinations, diagnostic strategies and algorithms should focus on clinical reassessment and CT examination. | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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acute appendicitis; Computed tomography; Ultrasound | ||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||||
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ULTRASONOGRAPHY VERSUS COMPUTED TOMOGRAPHY IN DIAGNOSIS OF ACUTE APPENDICITIS
By
*Ahmed F. El-Deek and **Ibrahim M. El-Sayaad
Departments of Radiology *and General Surgery**, Faculty of Medicine, Al-Azhar University (New Damietta)
ABSTRACT Background: Acute appendicitis (AA) is among the most common cause of acute abdominal pain. Imaging methods, such as ultrasonography (US) and computed tomography (CT), aimed at avoiding a misdiagnosis and facilitating earlier surgery, when necessary, have become increasingly important for decreasing the morbidity of the disease. Objective: This study aimed to compare the accuracy of US and CT in the diagnosis of AA. Patients and Methods: After local ethical approval and written consent taken, 107 patients with signs and symptoms suggesting AA, selected from emergency department of Al-Azhar University Hospital, New Damietta during the period from March, 2016 to April 2017. They were 63 males and 44 females, mean age was 17.09±3.02 years. 90 (84.11%) underwent surgery, and 17 patients (15.9%) were hospitalized for clinical observation after imaging (12 patients (11.2%) were dismissed from the hospital while 5 cases (4.7%) presented with positive CT findings underwent surgery). After history taking, full clinical examination and laboratory investigations, all patients were subjected to US and CT examination. All patients were reevaluated clinically, and a correlation was made between both sets of results. Accordingly, final decision was made. Accuracy was ascertained intra-operatively for those underwent appendectomy, and the results were compared with those found by radiological examination. The results were correlated with surgical and histopathologic findings. Results: Males affected more than females, and abdominal pain was present in 100%. The sensitivity, specificity, positive predictive value, negative predictive value and overall accuracy of US in diagnosis of AA in our study were found to be 91.7 %, 77.8 %, 94.3%, 70.0% and 88.9 % respectively.The sensitivity, specificity, positive predictive value, negative predictive value and overall accuracy of CT in diagnosis of AA were 98.8 %, 88.9 %, 98.8%, 88.9% and 97.8 % respectively. Conclusion: US should be the first-line imaging modality. As US sensitivity is limited, and non-confirmed US examinations, diagnostic strategies and algorithms should focus on clinical reassessment and CT examination. Key words: Acute appendicitis,computed tomography, ultrasound.
INTRODUCTION Acute appendicitis (AA) is the most common indicator for emergency abdominal surgery. Early appendicitis may present itself atypically and it is difficult to distinguish from a myriad of gastrointestinal, genitourinary and gynaecological conditions (des Plantes et al., 2016). The diagnosis of AA is a constellation of history, physical examination coupled with laboratory investigations, supplemen-ted by selective focused imaging. The role of diagnostic imaging; ultrasound (US), computed tomography (CT) or magnetic resonance imaging (MRI) is another major controversy (Scott, 2015). The applicability of US in diagnosing appendicitis is good, but the accuracy of US is operator dependent (Lee et al., 2005). The base of appendix is connected to the cecum, but its head can be placed in different situations. The diversity of situations is categorized into six locations: retrocecal, pelvic, subcecal, preileal, retroileal, and ectopic (Ghorbani et al., 2014). Potential pitfalls in the sonographic diagnosis of appendicitis include an incomplete investigation of the appendix resulting in failure to identify segmental or tip appendicitis and overestimation of an increased appendiceal diameter leading to a false positive diagnosis. Anatomical variation can also complicate diagnosis (Mostbeck et al., 2016). Higher sensitivity, specificity and precision of CT scan is adequate, however the ionizing radiation is a disadvantage, especially in younger patients (Kim et al., 2012). The present study was to compare the accuracy of US and CT in the diagnosis of acute appendicitis in patients with suspected acute appendicitis. PATIENT AND METHODS Of the 107 patients included, 63 males and 44 females presented with signs and symptoms suggesting AA. They were selected from Emergency Department of Al-Azhar University Hospital, New Damietta during the period from March, 2016 to April 2017. The study protocol was approved by local hospital’s ethical committee for human studies. If the history, physical examination findings and laboratory test results raised the suspicion of acute appendicitis, patients were asked to participate in this study. The patients were admitted to the hospital either for observation or for surgery. Patients who needed to undergo urgent surgery were excluded. In these cases, no imaging was performed. Exclusion criteria were pregnancy and patients with high creatinine level. The radiologic procedures and logistics of the study were explained to the patients, and informed consent was obtained from each patient or from a parents in cases of children. Patients underwent US and CT examinations before undergoing surgery or during the first 24 hr of observation. The decision of whether to operate or not was based on the clinical parameters and laboratory findings. The operation strategy, i.e. laparoscopy or laparotomy, was determined and documented before US and CT were performed. Graded-compression US was performed in a step-wise approach and aimed to optimize visualization of the appendix using 4-10–MHz linear array and 2-5–MHz curved array transducers (Voluson E6, GE Medical Systems, Germany). Curved array transducers were used in obese patients to allow deeper penetration.
Direct US signs of acute appendicitis:
Indirect US signs of acute appen-dicitis:
All patients underwent CT examinations following a single identical protocol that had been prepared for patients referred from the Emergency Department having a complaint of acute abdominal pain. Patients were placed in the supine position and scanned from the diaphragm to the symphysis pubis by 160 slices multidetector scanner (Aquilion PRIME; Toshiba Medical System, America). Non-contrast images were routinely incorporated in the given protocol in order to make an alternative diagnosis of urinary stone. The scanning parameters were 120 kVp, reference effective 160 mAs with automatic dose modulation, detector collimation of 64 x 0.6 mm, a rotation time of 0.5 seconds, and a pitch of 1.2. CT images were reconstructed with 5-mm slice thickness in the transverse plane and 4-mm in the coronal plane, and with no overlap. In all the patients, a single-phase contrast-enhanced scan was performed and was acquired 65 seconds after starting the administration of IV contrast agent. Using an Automatic power injector, 100–120 mL (2 mL/kg of body weight) of nonionic iodinated contrast agent (iohexol, Omnipaque 350; Nycomed Amersham, Princeton, NJ, USA) was injected into the antecubital vein through an 18-gauge needle, at a rate of 3 mL/sec, followed by a 20-mL saline flush. Oral or rectal contrast material was not administered. In this study, CT findings were interpreted as positive for acute appendicitis with, enlarged appendix (≥6 mm in outer diameter), appendiceal wall thickening (≥ 3 mm), appendiceal wall hyperenhancement, peri- appendiceal fat stranding (Figure 1B, 2B-C, Figure 3 C-D and Figure 6D), periappendiceal abscess which usually indicated perforated appendicitis and is associated with extraluminal air, ileocecal inflammation, and localized peritonitis in the right lower quadrant. Ancillary signs of appendicitis including right lower quadrant inflammation, appendicoliths (Figure 4B-C), lymphadenopathy and appendicular mass which appears as complex right iliac mass composed of edematous caecal wall and loops of dilated small intestine with thickened mesentery (Figure 5B). CT findings were interpreted as negative if the appendix was visualized with intraluminal air. An appendix less than 6 mm in outer diameter was also diagnosed as normal. If an appendix was not visualized and ancillary signs were or were not present, the findings were interpreted as negative. If findings other than appendicitis that had possible clinical consequences were diagnosed on US or CT, an independent surgeon was informed. The independent surgeon decided whether the radiologic diagnosis was of consequence for the surgical strategy and whether the operation should be cancelled or the type of operation should be changed, i.e. laparotomy by split-muscle incision or laparoscopy. The diagnosis of acute appendicitis at surgery was established on the basis of macroscopic findings. All excised appendixes were microscopically analyzed by histology using paraffin sections.
Figure (1): A. Graded compression longitudinal ultarsound scan of acute appendecitis with dilated, non compressible, tubular appendix with thickening of the appendicular wall. B. Coronal CT cuts demonstated dilated appendix with distended lumen more than 6 mm, thicekened, enhancing wall and periappendicular inflammation including adjacent fat.
Figure (3): A. and B. Graded compression longitudinal ultarsound scan of acute appendecitis with dilated, non compressible, bilnd end, tubular appendix with thickening of the appendicular wall. C. and D. Coronal CT cuts demonstrated dilated appendix with distended lumen more than 6 mm, thicekened, enhancing wall and periappendicular inflammation including strandling of the adjacent fat.
Figure (4): A. Graded compression ultrasound showed dilated appaendix with calcified appendicolith casting an acoustic shadow. B. Axial CT scan showed calcified appendicolith in the dilated appendix with dilated, thickened caecum. C. Coronal CT of the abdomen showed thickening of the cecuma and dilated thick walled appendix with calcified appendicolith inside. Peri-appendicular inflammation with stranding of the adjacent fat was noted .
Figure (6): A., B. and C. Color Doppler US showed dilated appendix with distinct appendicular wall layers and positive ring or target sign with echogenic prominent pericaecal fat. On color Doppler there was circumferential color flow was observed in the wall of the inflamed appendix. D. axial CT scan showed dilated appendix with distended lumen, thick enhancing wall and stranding of the adjacent fat.
Statistical analysis The data were coded, entered and processed on an IBM-PC compatible computer using SPSS (version 20). Descriptive analysis was performed. Data are reported as frequencies and percentages, mean (SD). Significance was considered at P <0.05. Sensitivity, specificity, and negative and positive predictive values of each imaging pathway for diagnosis of appendicitis were determined by using contingency tables. RESULTS Of the 107 patients considered for inclusion in the study, 63 males and 44 females, ranging in age from 14 to 30 years (mean, 17.09±3.02 years). Most patients (90 [84.11%]) underwent surgery immediately or within 24 hr of observation after imaging. The clinical findings of studied cases were presented in Table (1). Seventeen patients (15.9%) were hospitalized for clinical observation after imaging. The results of US and CT in these 17 patients were presented in Table (2). Twelve patients (11.2%) were dismissed from the hospital after observation confirmed by negative US and CT findings. Five cases (4.7%) of the observed patients presented with positive CT findings underwent surgery (Table 2). The overall number of diagnosed cases underwent surgery after imaging is 95 cases (88.8%). In 69 (72.6%) of the 95 patients with appendicitis at surgery, the US showed signs of acute appendicitis. 4 patients (4.2%) appeared to have no acute appendicitis at surgery, although US showed positive findings for appendicitis. 6 patients (6.3%) appeared to have acute appendicitis at surgery, although US showed negative findings for appendicitis. In 16 (16.8%) of the patients without signs of appendicitis at surgery, US also did not reveal appendicitis. CT results for the patients who underwent surgery are listed in Table 3. In 85 (89.4%) of the 95 patients with appendicitis at surgery, the CT showed signs of acute appendicitis. One patient (1.1%) appeared to has no acute appendicitis at surgery, although the CT showed positive findings for appendicitis. One patient (1.1%) appeared to has acute appendicitis at surgery, although the CT showed negative findings for appendicitis. In 8 (8.4%) of the patients without signs of appendicitis at surgery, CT also did not reveal appendicitis (Table 3). Histopathologic Findings Appendicitis was confirmed in 86 patients (90.5%) by histopathological examination in the form of acute appen-dicitis (n = 74), gangrenous appendicitis (n = 4), sub-acute appendicitis (n = 3), periappendicular abscess (n = 4) and acute appendicitis with oxyurius (n = 1). Out of them perforated appendix was found in 6 patients during surgery. The number of appendicectomies with negative appen-dicitis were 9 with a negative rate of (9.5%) (Table 4). Diagnostic role of US and CT was evaluated by calculating sensitivity, specificity, positive predictive value, negative predictive value and overall diagnostic accuracy using standard formulae and values obtained are shown in Table 4. After appendectomy, the final situation revealed that the diagnostic accuracy of US was 88.9% success rate in diagnosis of AA while CT showed diagnostic accuracy of 97.8% success rate in diagnosis of AA. (Table 5).
Table (1): Demographic and clinical parameters of studied cases (N=107)
Table (2): Correlation of US and CT in the Diagnosis of Acute Appendicitis in 17 Observed Patients
Table (3): Distribution of various pathological subgroups according to intra-operative gross evaluation (n=95)
AA, acute appendicitis; SAA, subacute appendicitis, GA, gangrenous appendicitis; PAA, periappendicular abscess
Table (4): Results of radiological studies in diagnosis of acute appendicitis proved by surgical or histopathological findings (no=95)
Table (5): Sensitivity, specificity and accuracy of radiological maneuvers in diagnosis of AA.
DISCUSSION Imaging techniques such as US and CT offer to improve clinical outcome by increasing the accuracy of diagnosis. US has the great advantage of being radiation free, however it is operator dependant. It may be difficult in patients with a retrocaecal appendix and has limited sensitivity. In comparison, CT can overcome these limitations and greater sensitivity in the diagnosis of AA (Pipal et al., 2017). Early US detection and surgical intervention is the best way to manage AA in order to reduce complications and mortality. Use of US for the diagnosis of AA is growing and does not expose patients to radiation. However, US is highly operator dependent, with a consequently wide reported sensitivity range (44%–100%) (Ayaz, 2009; Al-Ajerami, 2012 and Chaudhari & Jawale, 2015). If the appendix located retrocaecally or lies deep in the pelvis or excess overlying bowel gas leading to incorrect diagnosis of AA by US (Chaudhari and Jawale, 2015). CT has been considered the gold standard for diagnosis of AA with higher sensitivity and specificity than US (Hernanz-Schulman, 2010). Advantages of CT include less operator dependence, easier visualization of retrocecal appendix, less interference of bowel gas, obesity, or patient’s pain, and tenderness with image quality (Saito et al., 2013). The present study was conducted among 107 patients suspected to have acute appendicitis and observed that males (58.9%) affected than female (41.4%). The male predominance in AA is one of the notable factor which is similar to 60 - 72% in male in several reports (Estey et al., 2013; Nshuti et al., 2014; Salwe et al., 2014; Chaudhari & Jawale, 2015 and Kamath, 2015). In the literature, the peak incidence of acute appendicitis worldwide is between 10 and 30 years of age (John & Kirkwood, 2008; Nshuti et al., 2014 and Chaudhari and Jawale, 2015). In agreement with this, our study shows that acute appendicitis is common in young adults with a mean age of 17.09 years. We observed in the present study that abdominal pain was present in 100%, fever present in 88% and vomiting present in 74% of the patients which is almost close to 99%, 76% and 56% respectively, a study conducted by Kamath (2015). Nshuti et al. (2014) found that the predominant presenting symptoms were right iliac fossa pain (95%), nausea (80%), and vomiting (73%), with 63% of patients presenting 2 days after onset of symptoms. Fever was present in 15% and only 31% of patients gave atypical history of AA of vague peri-umbilical pain. Pathological examination after appen-dectomy follows two main goals: 1) It can confirm the diagnosis of appendicitis especially when it is not obvious at the time of surgery. The apparently normal appendices may have evidence of an inflammatory condition at microscopic observation (Jones et al., 2007). Similarly, we found that nearly a quarter of grossly normal appendices were pathologically abnormal. 2) It may reveal some other pathologic conditions that substantially influence the treatment strategy. For instance, appendiceal tumors that may be distinguishable during operation. Furthermore, abnormal pathologic results which need additional examination or treatment may be missed intra-operatively (Monajemza-deh et al., 2011). Moreover, other pathologies such as inflammatory bowel disease, parasitic infections, endometriosis, and mycobacterial infection may be retrieved from appendectomy specimens (Chang et al., 2010). In the current study, pathological examination revealed specific pathologies that need additional treatment in 1% of all appendectomies. In our study, the sensitivity, specificity, positive predictive value, negative predictive value and overall accuracy of US in diagnosis of AA in our study were found to be 91.7 %, 77.8 %, 94.3%, 70.0% and 88.9 % respectively.While, the sensitivity, specificity, positive predictive value, negative predictive value and overall accuracy of CT in diagnosis of AA were 98.8 %, 88.9 %, 98.8%, 88.9% and 97.8 % respectively.Our results compare well with other studies reported sensitivity 75%–98%, specificity 86%–100% with positive and negative predictive values of 91%–100% and 89%–99% (Summa, 2007; Ayaz, 2009 and Al-Ajerami, 2012). Several studies have shown significantly lower sensitivity and specificity for US compared with CT scan (Al-Khayal & Al-Omran, 2007 and Pickhardt et al., 2011). In 2007 a systematic review including 9121 patients of 25 studies reported a sensitivity of 83.7 %, a specificity of 95.9 %, an accuracy of 92.2 %, a positive predictive value (PPV) of 89.8 % and an NPV of 93.2 % for the US diagnosis of AA (Al-Khayal and Al-Omran, 2007). The overall pooled estimates for the diagnostic value of CT were: sensitivity 93.4%, specificity 93.3 %, accuracy 93.4 %, PPV 90.3 % and NPV 95.5 %. Al-Khayal and Al-Omran (2007) found that CT more sensitive (88.4 % vs 76 %) and a little bit more specific (90.4 % vs 89.4 %) than US. In 2011, Pickhardt et al. showed a sensitivity of 98.5 % and a specificity of 98 % for the diagnosis of AA in 2871 patients. Pinto et al. (2013) stated that there was an extremely variable diagnostic accuracy of US with sensitivities ranging from 44 % to 100 % and specificities ranging from 47 % to 100 %. 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Int J Advanced Physiology Allied Sci., 2(1):31-41. 23. Scott AJ (2015): Risk stratification by the Appendicitis Inflammatory Response score to guide decision-making in patients with suspected appendicitis. Br J Surg., 102(5):563–72. 24. Summa M (2007): Integrated clinical-ultra-sonographic diagnosis in acute appendicitis. Journal de Radiologie., 10:175–178.
مقارنة الموجات فوق الصوتیة بالأشعة المقطعیة فی تشخیص إلتهابات الزائدة الدودیة الحادة أحمد فکرىالدیک* - إبراهیم محمود الصیاد**
قسم الأشعة التشخیصیة* وقسم الجراحة العامة** - کلیة طب الأزهر )دمیاط( خلفیةالبحث:یعتبر إلتهاب الزائدة الدودیة الحادة من أشهر أسباب ألام البطن الحادة. وتهدف الطرق التصویریة مثل الموجات فوق الصوتیة و الأشعة المقطعیة إلى تفادی التشخیص الخاطئ و سرعة التدخل الجراحی إن أمکن للتقلیل من مضاعفات هذا المرض. الهدف من البحث: مقارنة دقة الموجات فوق الصوتیة بالأشعة المقطعیة فی تشخیص إلتهابات الزائدة الدودیة الحادة. المرضیوطرقالبحث:تمت الدراسة الحالیة علی 107 من المرضی الذین یعانون من أعراض إلتهابات الزائدة الدودیة الحادة والذین تم إختیارهم من قسم الطوارئ بمستشفى الأزهر الجامعی بدمیاط فی الفترة من شهر مارس 2016 وحتى شهر أبریل 2017. و قد تم بالفعل إستئصال الزائدة الدودیة لتسعین مریضا سواء جراحیًا أو عن طریق المنظار،بینما تم إحتجاز 17 مریضا بقسم الجراحة الداخلی للمتابعة وأخذ القرار المناسب ( 12 مریضا منهم تم صرفهم بعد المتابعة بینما تم عمل الجراحة للخمسة مرضى الباقین بعد عمل الأشعة اللازمة) . و بعد أخذ الموافقة المناسبة من المرضی وإجراء الفحص الإکلینیکی الشامل والفحوصات المعملیة وتم عمل الموجات فوق الصوتیة و الأشعة المقطعیة لجمیع المرضی. النتائج :أظهرت النتائج التحلیلیة إصابة الذکور أکثر من الإناث ، وکان ألم البطن الحاد هو أکثر الأعراض التی عانی منها المرضی. وکانت الحساسیة والخصوصیة والقیمة التنبؤیة الموجبة والقیمة التنبؤیة السالبة والدقة الکلیة للتشخیص بالموجات فوق الصوتیة هی 91,7% , 77,8 % , 94,3% , 70% , 88,9% بالترتیب مقارنة بالتشخیص بالأشعة المقطعیة 98,8% , 88,9% , 98,8% , 88,9% , 97,8% بالترتیب. الإستنتاج:علی الرغم من أهمیة الموجات فوق الصوتیة فی التشخیص الأولی إلا أنه فی بعض الأحیان یحتاج الجراح إلى تأکید التشخیص عن طریق إستخدام الأشعة المقطعیة.
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