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vol. 17
 
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Case report

Isolated and solitary splenic metastasis detected by positron emission tomography in a patient with malignant melanoma: Case report and review of the literature

Cenk Ahmet Sen
,
Aysegul Kargi
,
Vildan Kaya
,
Ozgur Tanriverdi

Wspolczesna Onkol 2013; 17 (2): 214–217
Online publish date: 2013/04/29
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Introduction

Splenic metastasis is a very rare occurrence in solid tumors, especially melanoma, and is usually a co-morbidity to multiple organ involvement. Isolated splenic metastasis, however, is rarely observed [1, 2]. For a solitary mass which is isolated in the spleen and does not meet the features of radiological and functional imaging malignancy, invasive procedures are the secondary option in addition to constant follow-up. In such cases, it is very hard to decide to perform diagnostic techniques such as biopsy and splenectomy [1–3].

As imaging techniques are more frequently used and positron emission tomography/computed tomography (PET/CT) hybridization has increased the sensitivity, specificity and accuracy rates for diagnosis of malignant diseases, in comparison with traditional methods, splenic metastases are reported more often [3, 4]. Even though it is a commonly known fact that PET/CT is no help during primary staging and patient relations in malignant melanoma, several studies and meta-analyses have proven that it is more specific, sensitive and accurate to identify metastases than traditional methods [6, 7].

Our objective in this article is to present a patient with malignant melanoma and isolated and solitary splenic metastasis imaged by PET/CT by means of information available in the literature.

Case report

A 35-year-old male patient who presented with the complaint of swelling under his left arm was diagnosed with left axillary mass excision and malignant melanoma in 2008. Pathologically it was grossly 1.5 cm, microscopically Breslow 11 mm, Clark’s level IV (T4), number of mitoses 1.2 per mm2, without ulcerations, and all margins were negative. During imaging examinations, no distant metastasis was identified, nor was it assessed as stage 3 according to the American Joint Committee on Cancer 2002 staging system. The patient was treated with adjuvant high-dose interferon therapy. A 20 × 18 mm lesion in the lower spleen pole and splenomegaly was detected in the computed tomography (CT) after the treatment was completed and since there was no distinct contrast involvement, it was assessed as benign. Even though there was no significant growth in lesion size according to the imaging examinations that were performed every six months, because of the rise in activity values in F-18-fluorodeoxy-D-glucose PET/CT (Figs. 1, 2 and 3) a splenectomy was performed on the patient, in October 2011. As the splenectomy material was examined, it was assessed as melanoma metastasis (Fig. 4). The patient was started on treatment with temozolamide and is still being followed after the third year since the diagnosis at our department.

Discussion

Even though the spleen is a more vascularized organ, metastasis of solid tumors is a very rare observation. This situation is explained by spleen parenchyma’s natural ability to resist metastases. Forming a physical barrier by the splenic capsule, the immunological defense ability of the spleen against neoplastic cells, and angular and gyroid structure of the splenic artery are some of the explanations given for this resistance [8]. Before 1990, when imaging techniques were not used effectively, splenic metastasis rates were between 2.3% and 7.1% and most of them were found during autopsies or were just encountered coincidentally [9]. In one of these studies, in an autopsy study that Berg et al. performed in 1974, they reported that 4.3% of 7165 cases (n = 312) had splenic metastases. Again in this study, splenic metastases were observed in cases that had at least five visceral organs [10].

In the studies that were performed after 1990 when imaging techniques and life expectancy of patients had started to improve, the number of reports on multiple organ metastases or the number of cases with solitary spleen metastasis increased. In a study performed by Kraus et al., splenic metastasis was observed in 1.3% of 1280 cases that underwent a splenectomy, and in a Japanese study, 0.15% of 24 761 patients who underwent an ultrasonographic examination [11, 12]. The most important clinical result of these cases was the early diagnose of masses on kidneys using effective imaging techniques.

Among autopsy studies and clinical case series, the most common cancer types (except for lymphoma) that cause splenic metastasis are breast (22.9%), lung (20.2%), colorectal (9.4%), ovary (9%) and stomach (6.9%). Splenic metastases of other solid tumors are seen rarely and one of these is malignant melanoma. For malignant melanoma, the rate of multiple organ involvement with a co-morbid splenic metastasis is 5% but solitary splenic metastasis is reported to be 2%. There are some cases of splenic metastasis development with spontaneous splenic ruptures but the clinical course is followed only in splenomegaly [13–15]. Splenic metastasis is mostly seen as part of multiple organ metastases and, in some rare occasions, as solitary metastases. In a study of Compérat et al., only 2 of 94 patients with solitary splenic metastasis had malignant melanoma. When diagnosing solitary metastasis, splenectomy and invasive methods, tru-cut and fine needle biopsies were preferred [16]. PET/CT, being more specific and sensitive than traditional methods, was reported to have shortened the period leading to splenectomy, as in our case.

Most splenic metastases are asymptomatic. As the use of efficient imaging techniques, especially PET/CT, has become more common, asymptomatic splenic metastasis cases have been reported more often [2, 3]. Splenic metastasis may present with such symptoms as asthenia, weight loss, fever, stomach ache, splenomegaly, anemia caused by hypersplenism and/or thrombocytopenia and splenic rupture in rare instances [14, 15]. In our case, there were no clinical outcomes except for splenomegaly and mass lesion growth that could not be followed by conventional imaging techniques.

Distant metastasis development in a patient with malignant melanoma is a sign of poor prognosis and according to the American Joint Committee on Cancer staging system, for patients in stage IV, the average life period remaining is 4–8 months [17]. For patients with metastatic disease, suggested treatments are chemotherapy, radiotherapy or both. However, survival rates and patient response rates for these treatment modalities are quite low [17–19]. There are case reports and series about patients with stage 4 malignant melanoma that report long life expectancy after surgery. Especially with metastasectomies for isolated lung metastasis, gastrointestinal metastasis and metastases of other visceral organs, rates of 5-year survival have increased to 20–40%. But these rates reflect the results of certain specific patient groups. There is only one significant study in the literature about the effects of splenectomy on splenic metastases, consisting of 15 case series; this study reports survival time of 20 months. In this case series, there are 2 intriguing cases with survival times of 29 and 30 months [20–22].

In Conclusion, isolated and solitary splenic masses play an important role in diagnostic and treatment phases of malignant melanoma, as in all other solid tumors. Especially in cases such as malignant melanoma that is curable through surgical resection, traditional imaging techniques and false negative values hinder the period of diagnosis and splenectomy. Although there is no certainty of the effects of splenectomy on survival rate in malignant melanoma cases with isolated splenic metastasis, it can be assumed to have similar success as metastasectomy performed in other areas of metastasis. Therefore, using techniques with high specificity and accuracy rates such as PET/CT in the diagnosis of splenic metastasis in patients with malignant melanoma will increase the survival rate with an earlier splenectomy.



The authors declare no conflict of interest.

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Address for correspondence



Dr. Ozgur Tanriverdi

Mugla Universitesi Egitim ve Arastirma Hastanesi

Onkoloji Poliklinigi

48000 Mugla, Turkey

tel. +90 252 214 13 26

fax +90 252 212 68 04

e-mail: ozgurtanriverdi@hotmail.com



Submitted: 11.12.2011

Accepted: 23.07.2012
Copyright: © 2013 Termedia Sp. z o. o. This is an Open Access article distributed under the terms of the Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International (CC BY-NC-SA 4.0) License (http://creativecommons.org/licenses/by-nc-sa/4.0/), allowing third parties to copy and redistribute the material in any medium or format and to remix, transform, and build upon the material, provided the original work is properly cited and states its license.
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