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CASE REPORT
J Clin Imaging Sci 2018,  8:32

Mucinous Neoplasm of the Appendix as a Mimic of Cystic Adnexal Pathology


Department of Imaging, University of Alberta Hospital, Edmonton, Alberta, Canada

Date of Submission21-Apr-2018
Date of Acceptance13-Jun-2018
Date of Web Publication24-Aug-2018

Correspondence Address:
Dr. Chris Hutchinson
Department of Imaging, University of Alberta Hospital, Edmonton, Alberta
Canada
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Source of Support: None, Conflict of Interest: None


DOI: 10.4103/jcis.JCIS_27_18

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   Abstract 


Pelvic pain presents a common diagnostic conundrum with a myriad of causes ranging from benign and trivial to malignant and emergent. We present a case where a mucinous neoplasm of the appendix acted as a mimic for tubular adnexal pathology on imaging. With the associated imaging findings on ultrasound, computed tomography, and magnetic resonance imaging, we wish to raise awareness of mucinous tumors of the appendix when tubular right adnexal pathology is present both in the presence of pelvic or abdominal pain or when noted incidentally. Tubular pathology such as uncomplicated paraovarian cysts or hydrosalpinx is frequently treated conservatively with long-interval follow-up imaging or left to clinical follow-up. Thus, if incorrectly diagnosed as tubular pathology, an appendix mucocele or mucinous neoplasm of the appendix is likely to be undertreated. We wish to clarify some of the confusion around nomenclature and classification of the multiple entities that are comprised by the terms mucocele and mucinous tumor of the appendix.

Keywords: Adnexal, appendix neoplasm, mucocele, tubular


How to cite this article:
Hutchinson C, Lyske J, Patel V, Low G. Mucinous Neoplasm of the Appendix as a Mimic of Cystic Adnexal Pathology. J Clin Imaging Sci 2018;8:32

How to cite this URL:
Hutchinson C, Lyske J, Patel V, Low G. Mucinous Neoplasm of the Appendix as a Mimic of Cystic Adnexal Pathology. J Clin Imaging Sci [serial online] 2018 [cited 2018 Dec 13];8:32. Available from: http://www.clinicalimagingscience.org/text.asp?2018/8/1/32/239705






   Introduction Top


Mucinous neoplasms of the appendix are an enigmatic and controversial entity with unpredictable biological potential. Their significance is their potential to spread to the peritoneum and viscera and form gelatinous deposits through mucin-secreting malignant epithelial cells. This is the most common cause of pseudomyxoma peritonei (PMP) which is a descriptive term that covers several histological entities.[1] In its most aggressive form, the gelatinous deposits coalesce to form large volume mucinous ascites. This can cause bowel obstruction and death. Appendix mucocele can represent a benign retention cyst caused by luminal obstruction by a fecalith.

Being alert to the possibility of a mucinous neoplasm of the appendix allows prompt surgical excision. Appendectomy before appendiceal rupture is critical to outcome. Certainly, the clinical presentation of mucinous neoplasms of the appendix is highly nonspecific. Chronic right lower quadrant pain is the most common presentation. PMP frequently presents with increasing abdominal girth or with a large mass. By this stage, highly aggressive management is the patient's only hope for long term survival.[2]

We present a case where a young lady presented with minor chronic pelvic pain and who was otherwise asymptomatic with the imaging findings and selected images from her ultrasound, magnetic resonance imaging (MRI), and computed tomography (CT) to aid visualization. She was treated surgically and, at the time of writing, has not suffered from disease recurrence. We have reviewed the English language literature pertinent to mucinous tumors of the appendix and PMP and summarizes this complex topic in the discussion.


   Case Report Top


A 47-year-old lady presented to her family doctor with pelvic pain and secondary amenorrhea. She was referred for an ultrasound examination which showed complex fluid and a tubular lesion on the right side containing some sedimenting debris [Figure 1] and [Figure 2]. Overall impression was that of hydrosalpinx with adjacent loculated pelvic fluid. No vascular component was identified. The suggestion of layering of the echogenic material within the right-sided tube raised the possibility of previous hemorrhage or infection. Some fluid or low-density material appeared to undercut the thin wall of the structure, separating the layers. These somewhat atypical appearances led her to be referred for a pelvic MRI.
Figure 1: A 47-year-old lady presenting with pelvic pain and secondary amenorrhea. Transabdominal ultrasound of showing a dilated fluid-filled right adnexal lesion (arrows).

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Figure 2: A 47-year-old lady presenting with pelvic pain and secondary amenorrhea. Transvaginal ultrasound showing the thin-walled tubular structure (arrows) with adjacent pocket of free fluid (arrowheads).

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Our institutional routine pelvic MRI protocol was performed, and T2-weighted image (T2WI) HASTE sequences were obtained in three planes along the axis of the endometrial cavity. Axial T1WI and axial T1 fat saturated sequences were also obtained. Gadolinium was not administered [Figure 3]a-d] MRI showed no evidence of hydrosalpinx or any ovarian abnormality. In the right lower quadrant, apparently contiguous with the base of the cecum and separate from the right ovary, a vertically orientated tubular cystic lesion with low-T1W and high-T2W signal intensity was noted. This measured 3.1 cm AP × 3.5 cm TR × 8.9 cm CC. It contained thin walls with mild wall irregularity and was unilocular with no solid components. The findings raised the suspicion of an appendix mucocele possibly caused by a mucinous tumor.
Figure 3: A 47-year-old lady presenting with pelvic pain and secondary amenorrhea. (a and b) Axial and sagittal T2 turbo spin echo showing a vertically oriented tubular fluid-filled structured with thin wall, pointing toward the right lower quadrant (arrowheads). (c and d) Axial T1 fat sat and axial T1 show the structure to be low in T1-weighted signal (arrowheads).

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CT of the abdomen and pelvis with intravenous omnipaque in the portal venous phase was performed for confirmation and to allow evaluation of the remainder of the peritoneum and for staging.

A tubular fluid-filled lesion originating from the cecal pole with similar measurements to MRI was noted [Figure 4]. Coarse wall calcification was present with no obvious wall thickening or evidence of rupture. A small volume of free fluid was adjacent to its tip with no substantial ascites. No evidence of lymphadenopathy or other abnormalities were identified.
Figure 4: A 47-year-old lady presenting with pelvic pain and secondary amenorrhea. Coronal reformats from portal venous phase computed tomography abdomen and pelvis demonstrating the distended, mucous-filled appendix with thin walls and coarse wall calcification (arrowheads).

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During the surgery, an abnormal appendix with paper thin walls and tanned smooth serosa was found. The lumen was dilated and contains yellow-tan gelatinous material.

Histopathology showed carcinoma in situ with the epithelial invasion of lamina propria. Acellular mucin had invaded through the muscularis propria into the subserosa but not to the serosal surface. No invasion by the epithelial cells was present.

This is a controversial situation which can be classified by the latest AJCC classifications as pT3. The definition given currently for pT3 is that “Tumor extends through the muscularis propria into the subserosa or mesoappendix;” however, it has not been clarified as to whether the term “tumor” includes acellular mucin such as in this case or if it necessitates epithelial invasion, which is not present in this case.

The patient made an uneventful recovery from her appendectomy with no evidence of disease recurrence at this time, 6-month postprocedure.


   Discussion Top


Appendiceal tumors are very uncommon, if not exceedingly rare, with a large review of appendectomies finding primary appendiceal malignancies in 0.1% of specimens.[3] Malignancies can be epithelial, neuroendocrine tumours (NET) or lymphomatous. NETs were previously thought to be more common, but a large review has now demonstrated that epithelial tumors are more prevalent, with NETs only comprising 11% of appendiceal tumors.[4]

Epithelial tumors range from benign retention cysts to cystadenocarcinoma. Mucocele is a descriptive term to describe a distended appendix filled with mucoid fluid and covers a wide range of entities. Typically mural thickness in a mucocele is <6 mm and they can demonstrate an echogenic submucosal layer sandwiched by echogenic edematous layers which can give a characteristic targetoid appearance which is used to differentiate them from acute appendicitis.[5] Should a benign mucocele rupture, there is no risk of disease spread.

Mucoceles can also be caused by malignant epithelial tumors and imaging cannot reliably differentiate these from retention cysts. NETs most commonly arise at the tip of the appendix and hence rarely cause luminal obstruction. Lymphoma tends to be non-Hodgkin's type and is rarer than the other malignancies. It most frequently presents with perforation acutely and rarely causes mucocele formation.[6]

Mucinous tumors of the appendix underwent specialist review in 2016 by the Peritoneal Surface Oncology Group International to resolve some of the controversy surrounding their classification.[1] Various systems were previously in place including the WHO classification of 2010.[7] These were in consensus in defining a benign neoplastic adenoma as disease confined to the mucosa, without mucin or cells penetrating the muscularis mucosa or evidence of perforation. They are also concordant that adenocarcinoma is a frankly invasive neoplastic process with cellular invasion beyond the muscularis mucosa. The previous classifications differed in how they defined adenomatous growths with intermediate cellular atypia or with mucin dissection beyond the muscularis mucosa in the absence of cellular invasion.

Appendiceal adenomas are low grade, confined to the mucosa of the appendix with no evidence of invasion beyond the muscularis mucosa. They should be considered similar to traditional colorectal adenomatous polyps.

Low-grade appendiceal mucinous neoplasm (LAMN) is a term that should be reserved for histologically LAMN s with any of the following features: loss of muscularis mucosae, fibrosis of submucosa, dissection of acellular mucin into the appendix wall, rupture of the appendix, or presence of mucin or cells outside of the appendix. They must not include any of the features used to describe high-grade lesions or adenocarcinoma.[1]

The term high-grade appendiceal mucinous neoplasm (HAMN) was devised to describe lesions that had high-grade cellular atypia that could not be included in the LAMN but that did not have the infiltrative invasion of cystadenocarcinoma.[1]

Calcification, internal septations, and periappendiceal fat stranding can be present in LAMN or HAMN. The distinction between the two is histopathological and important for patient prognostication. Soft-tissue thickening inside the appendix, wall irregularity, or presence of PMP have been shown to be the most reliable markers for malignancy.[8]

When associated with LAMN, the presence of intraperitoneal extracellular mucin deposits (PMP) is classified as disseminated peritoneal adenomucinosis (DPAM). When associated with HAMN, PMP is classified as peritoneal mucinous carcinomatosis (PMCA). In one review undertaken as part of classification, 5-year survival rates were 84% for patients with DPAM and 6.7% for patients with PMCA, demonstrating the importance of histological grading.[9]

If PMP is present in the presence of cellular atypia (DPAM or PMCA), aggressive management involves debulking, peritonectomy, and hyperthermic intraperitoneal chemotherapy.[10],[11]

A distinctive feature of PMP is its redistribution phenomenon. The mucus follows the distribution of peritoneal fluid within the peritoneal cavity to sites of fluid absorption where the cells concentrate. Consequently, mobile loops of small intestine are spared, but the pelvis, paracolic gutters, omentum, and liver capsule are affected. The capsular involvement causes the almost pathognomonic “scalloped” appearance. These deposits can demonstrate coarse calcification on CT, a further specific finding.

MRI has been shown to be more sensitive in detecting peritoneal deposits than CT, usually with low T1WI, high T2WI, and variable enhancement. Cellular deposits frequently exhibit diffusion restriction.[10]


   Conclusions Top


In a female patient, a blind-ending, dilated and fluid-filled structure could reasonably be considered to represent a hydrosalpinx, paratubal, or paraovarian cyst on ultrasound.[12] Thus, if the reporting radiologist does not consider the possibility of an appendiceal mucinous neoplasm as a mimic for gynecological disease, the abnormality may be undermanaged, leading to long-term surveillance or no routine imaging follow-up at all.

Delay in diagnosis may allow for tumor progression to high grade or perforation with the subsequent dramatic increase in morbidity and mortality. Features to be aware of that may indicate appendiceal neoplasm rather than gynecological pathology and include lamellated appearance to the wall of the tubular structure, sedimenting debris, and an origin in the region of the cecal pole. We urge reporting radiologists to give consideration to the possibility of appendiceal tumors in these cases.

Financial support and sponsorship

Nil.

Conflicts of interest

There are no conflicts of interest.



 
   References Top

1.
Carr NJ, Cecil TD, Mohamed F, Sobin LH, Sugarbaker PH, González-Moreno S, et al. A consensus for classification and pathologic reporting of pseudomyxoma peritonei and associated appendiceal neoplasia: The results of the peritoneal surface oncology group international (PSOGI) modified delphi process. Am J Surg Pathol 2016;40:14-26.  Back to cited text no. 1
    
2.
Sugarbaker PH, Ronnett BM, Archer A, Averbach AM, Bland R, Chang D, et al. Pseudomyxoma peritonei syndrome. Adv Surg 1996;30:233-80.  Back to cited text no. 2
    
3.
Connor SJ, Hanna GB, Frizelle FA. Appendiceal tumors: Retrospective clinicopathologic analysis of appendiceal tumors from 7,970 appendectomies. Dis Colon Rectum 1998;41:75-80.  Back to cited text no. 3
    
4.
Turaga KK, Pappas SG, Gamblin T. Importance of histologic subtype in the staging of appendiceal tumors. Ann Surg Oncol 2012;19:1379-85.  Back to cited text no. 4
    
5.
Madwed D, Mindelzun R, Jeffrey RB Jr. Mucocele of the appendix: Imaging findings. AJR Am J Roentgenol 1992;159:69-72.  Back to cited text no. 5
    
6.
Pickhardt PJ, Levy AD, Rohrmann CA Jr., Abbondanzo SL, Kende AI. Non-Hodgkin's lymphoma of the appendix: Clinical and CT findings with pathologic correlation. AJR Am J Roentgenol 2002;178:1123-7.  Back to cited text no. 6
    
7.
Bosman FT, Carneiro F, Hruban RH, Theise ND. WHO Classification of Tumours of the Digestive System. World Health Organization; 2010.  Back to cited text no. 7
    
8.
Wang H, Chen YQ, Wei R, Wang QB, Song B, Wang CY, et al. Appendiceal mucocele: A diagnostic dilemma in differentiating malignant from benign lesions with CT. AJR Am J Roentgenol 2013;201:W590-5.  Back to cited text no. 8
    
9.
Ronnett BM, Zahn CM, Kurman RJ, Kass ME, Sugarbaker PH, Shmookler BM, et al. Disseminated peritoneal adenomucinosis and peritoneal mucinous carcinomatosis. A clinicopathologic analysis of 109 cases with emphasis on distinguishing pathologic features, site of origin, prognosis, and relationship to “pseudomyxoma peritonei”. Am J Surg Pathol 1995;19:1390-408.  Back to cited text no. 9
    
10.
Leonards LM, Pahwa A, Patel MK, Petersen J, Nguyen MJ, Jude CM, et al. Neoplasms of the appendix: Pictorial review with clinical and pathologic correlation. Radiographics 2017;37:1059-83.  Back to cited text no. 10
    
11.
Prayson RA, Hart WR, Petras RE. Pseudomyxoma peritonei. A clinicopathologic study of 19 cases with emphasis on site of origin and nature of associated ovarian tumors. Am J Surg Pathol 1994;18:591-603.  Back to cited text no. 11
    
12.
Puvaneswary M, Proietto A. Mucocele of the appendix with magnetic resonance imaging findings. Australas Radiol 2006;50:71-4.  Back to cited text no. 12
    

 
   Authors Top

Dr. Chris Hutchinson


    Figures

  [Figure 1], [Figure 2], [Figure 3], [Figure 4]



 

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