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Polycystic hydatidosis and hepatocellular carcinoma

Danielly Moreira Gonçalves

Acre State Hospital Foundation, Rio Branco, Estado do Acre, Brazil

Rita de Cassia Ribeiro Pereira

Acre State Hospital Foundation, Rio Branco, Estado do Acre, Brazil

Federal University of Acre, Medical School, Rio Branco, Estado do Acre, Brazil

Idila Mont'AlverneXavier de Oliveira

Acre State Hospital Foundation, Rio Branco, Estado do Acre, Brazil

Irenilce Souza de Matos

Acre State Hospital Foundation, Rio Branco, Estado do Acre, Brazil

Rogerio Ferraz Baquette

Acre State Hospital Foundation, Rio Branco, Estado do Acre, Brazil

Rosangela Rodrigues-Silva

Laboratory of Helminth Parasites of Vertebrates, Osvaldo Cruz Foundation, Rio de Janeiro, Brazil

Nilton Ghiotti de Siqueira

Acre State Hospital Foundation, Rio Branco, Estado do Acre, Brazil

Federal University of Acre, Medical School, Rio Branco, Estado do Acre, Brazil

DOI: 10.15761/GHE.1000172

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Abstract

Polycystic hydatidosis (Neotropical echinococcosis) is a zoonosis, with Echinococcus vogeli acting as the etiological agent. It occurs solely in the New World, with reports of cases coming almost exclusively from the Amazon region. This condition has a chronic evolution, the symptoms of which only manifest in the most advanced stage of the disease with symptoms of palpable abdominal mass. The organ most frequently affected is typically the liver. Hepatocellular Carcinoma (HCC) is prevalent in more than 1.5 million people worldwide. In Brazil, Hepatocellular Carcinoma is related to Hepatitis B and C viral infections in 68.5% of cases. The hepatitis incidence in the Amazon region is higher than in other regions of the country and is one of the differential diagnoses of polycystic hydatidosis. The concomitance of these infections has not yet been described in the literature.

Key words

polycystic hydatidosis; Echinococcus vogeli; hepatocellular carcinoma

Introduction

Polycystic Hydatidosis (Neotropical echinococcosis) is a zoonosis, with Echinococcus vogeli acting as the etiological agent. It occurs solely in the New World [1,2], with reports of cases coming almost exclusively from the Amazon region. Its biological cycle involves two hosts: the Bush Dog (Speothos venaticus), and rodents, particularly the Lowland Paca (Cuniculus paca). Human beings are affected upon ingesting E. vogeli eggs which are eliminated along with the feces of domestic dogs. The dogs are infected when, during hunting, they are fed viscera contaminated with the larval form of E. vogeli [3-5]. This condition has a chronic evolution, the symptoms of which only manifest in the most advanced stage of the disease with symptoms of palpable abdominal mass. The organ most frequently affected is typically the liver. Other organs that may be involved include the diaphragm, spleen, pancreas, omentum, mesentery and uterus [3,6,7].

Hepatocellular Carcinoma (HCC) is prevalent in more than 1.5 million people worldwide, with approximately 20,000 new cases in the United States and Brazil. HCC is the fifth most common malignant neoplasm in men, and the seventh in women. Most patients are found in poorly developed countries, notably in regions in where the Hepatitis B virus is endemic, such as in southern Asia and Sub-Saharan Africa. In Brazil, this affliction affects about 10/100,000 individuals. HCC is rarely found in individuals below the age of 40, while peaking at approximately 70 years of age. This neoplasia affects the male gender 2 to 4 times than the female [8,9]. In Brazil, Hepatocellular Carcinoma is related to Hepatitis B and C viral infections in 68.5% of cases. The hepatitis incidence in the Amazon region is higher than in other regions of the country [10].

Case report

The patient is a 40-year-old male, hailing from Santa Rosa do Purús, AC. The patient was sent to the Gastroenterology Service. He presented epigastric pain over a 3-month period, associated with nausea, heartburn, postprandial fullness and early satiety. He lost 6 kg during that period. System Review and Previous Pathological History contained no relevant data. Epidemiological History included the subject’s habit of hunting, and his Social History of having dogs present at his place of residence. The physical examination returned with normal results with the exception of the presence of a palpable liver of 4 cm from the right costal margin, painless and with a smooth surface.

Ultrasound on 4/11/15: Two isoechoic images, rounded and heterogeneous, exhibiting defined limits with posterior acoustic shadow; Solid, and located in Seg. II; Measuring 9 cm at its greatest, and 3 cm at its smallest; Absence of intra or extrahepatic dilatation. Computerized tomography on 11/17/15: Liver nodules exhibit neoplastic aspects, with agglomerated and confluent cysts in LD. Serology results for HIV 1 and 2, as well as Hepatitis B and C, negative. Alpha-fetal-protein: 17436 ng/mL. CEA: 4.86 ng/mL. UGIE on 1/15/16: Moderate endoscopic enanthematous Pangastritis. Colonoscopy on 1/18/16: Normal. Thoracic X-ray on 3/13/16: Normal. Other staging exams reveal NX M0.

On 29/01/2016, patient underwent a left hepatectomy and resection of lesion in Seg. VII, as well as alcoholization of 2 nodules, each 1 cm, in Seg. V. The patient was discharged on the 7th postoperative day, without intercurrences. Histopathology: Left lobe - Moderately differentiated Hepatocellular Carcinoma, surgical margins unaffected, intact Glisson's capsule. Cystic lesion: Hydatidosis (Figure 1-3).

Figure 1. Computerized tomography with contrast, portal phase, voluminous lesion in Segments II and IVa, and cystic lesions grouped in Segment VIII.

Figure 2. Aspects of the surgery: a) In situ lesions in Segments IVa and II; b) cystic lesions of Segment VII and solid lesions in Segments IVa and II; c) macroscopic aspect of the cystic lesions, observation of vesicles on the interior of the lesions.

Figure 3. Characteristic histological appearance of the laminated membrane showing a cerebral aspect, one of the characteristics of Echinococcus vogeli (green arrows) and protoscoleces (black arrows) (HE).

Discussion and conclusion

Hydatidosis is a disease that can manifest as abdominal palpable mass, and cystic lesions are found in infected organs, notably in the liver [11,12]. This affliction may mimic neoplastic lesions in affected patients, which may compromise the management of these patients. Said patients are usually treated with chemotherapy (albendazole) and/or surgery. The combination of these forms of treatment is safer and more effective [7,13]. Surgical findings are also important for diagnostic confirmation, as well as to rule out neoplasia. The resected cysts must be sent for anatomopathological analysis in order to identify characteristics of the cyst capsules and aculeus which are consistent with E. vogeli infection [6,14].

The findings of cystic lesions with peripheral calcifications in patients with compatible epidemiological history through imaging exams, particularly Computerized Tomography, are also considered as diagnostic criteria for Hydatidosis. Serological tests may also be used for diagnostic evaluation. There are, however, limitations on sensitivity and specificity [3,12].

Imaging methods are important tools in the detection and establishment of a noninvasive diagnosis of HCC, with its diagnosis being possible even without biopsy. Cases of non-classical HCC are confirmed by anatomopathological study [15].

The coexistence of cystic hydatidosis (CH), whose etiologic agent consists of E. granulosus and hepatocellular carcinoma, is a rare event [16-22]. However, there is no mention in the literature of the correlation between HCC and polycystic hydatidosis, the etiological agent of which is E. vogeli. The latter is generally found in the Amazon Region and its frequency is high in populations of the State of Acre [3,23-26].

CH can manifest as tumor-like, and with lesions in the liver, which have been caused by the parasite; it may be infiltrative in nature, whereas the parasites may reside in their hosts and remain clinically unnoticed for long periods [27]. On the other hand, it is speculated that the metacestode may acquire some means of modulating the human immune response, neutralizing the adverse reactions of the host and, in turn, influencing the physiology of the peri-parasitic area to its own advantage. Similarly, the cancer is also related to changes in the immune system [27,28].

Recently, Stadelmann et al. [29] reported that phosphoglucose isomerase from E. multilocularis (EmPGI), a component of the metacestode laminar layer, showed a similarity in the amino acid sequence of 86%, with that of human PGI. PGI in mammals consists of a multifunctional protein that can act as a cytokine, growth factor and inducer of angiogenesis. This plays a role in tumor development and metastasis. Based on this information, the possibility that echinococcosis may play a role in the development and metastasis of HCC in humans is demonstrated [30].

In the State of Acre, where the case in question occurred, co-infection of polycystic hydatidosis, hepatitis B and C virus, as well as HIV, was identified. However, despite the risk factors for HCC, this patient had exhibited no evidence of primary malignant neoplasm of the liver [31]. In contrast, the subject of this study had no risk factors for HCC and presented this primary neoplasia.

References

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Editorial Information

Editor-in-Chief

Marcel CC Machado
University of Brazil

Article Type

Case Report

Publication history

Received date: August 28, 2018
Accepted date: September 17, 2018
Published date: September 21, 2018

Copyright

©2018 Gonçalves DM. This is an open-access article distributed under the terms of the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original author and source are credited.

Citation

Gonçalves DM, Pereira RCR, Xavier de Oliveira IMA, Souza de Matos I, Rodrigues-Silva R, et al. (2018) Polycystic hydatidosis and hepatocellular carcinoma. Gastroenterol Hepatol Endosc 3: DOI: 10.15761/GHE.1000172

Corresponding author

Nilton Ghiotti de Siqueira

Acre State Hospital Foundation, Rio Branco, Estado do Acre Brazil

E-mail : bhuvaneswari.bibleraaj@uhsm.nhs.uk

Figure 1. Computerized tomography with contrast, portal phase, voluminous lesion in Segments II and IVa, and cystic lesions grouped in Segment VIII.

Figure 2. Aspects of the surgery: a) In situ lesions in Segments IVa and II; b) cystic lesions of Segment VII and solid lesions in Segments IVa and II; c) macroscopic aspect of the cystic lesions, observation of vesicles on the interior of the lesions.

Figure 3. Characteristic histological appearance of the laminated membrane showing a cerebral aspect, one of the characteristics of Echinococcus vogeli (green arrows) and protoscoleces (black arrows) (HE).