Case Report Open Access
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World J Clin Cases. Nov 26, 2022; 10(33): 12380-12387
Published online Nov 26, 2022. doi: 10.12998/wjcc.v10.i33.12380
Primary malignant pericardial mesothelioma with difficult antemortem diagnosis: A case report
Naoya Oka, Department of Clinical Immunology and Rheumatology, Hiroshima University Hospital, Hiroshima 734-8551, Japan
Yuichi Orita, Chikage Oshita, Hiroki Teragawa, Department of Cardiovascular Medicine, JR Hiroshima Hospital, Hiroshima 732-0057, Japan
Hirofumi Nakayama, Department of Pathology, JR Hiroshima Hospital, Hiroshima 732-0057, Japan
ORCID number: Naoya Oka (0000-0001-8894-6535); Yuichi Orita (0000-0002-3524-1619); Chikage Oshita (0000-0003-3471-2543); Hirofumi Nakayama (0000-0001-9135-8101); Hiroki Teragawa (0000-0002-0183-2541).
Author contributions: Oka N, Orita Y, Oshita C and Teragawa H were the patient’s physicians, reviewed the literature and contributed to manuscript drafting; Nakayama H performed the histopathological analyses and interpretation and contributed to manuscript drafting; all authors issued final approval for the version to be submitted.
Informed consent statement: Written informed consent was obtained from the patient for the autopsy and the publication of this report and any accompanying images.
Conflict-of-interest statement: All the authors report no relevant conflicts of interest for this article.
CARE Checklist (2016) statement: The authors have read the CARE Checklist (2016), and the manuscript was prepared and revised according to the CARE Checklist (2016).
Open-Access: This article is an open-access article that was selected by an in-house editor and fully peer-reviewed by external reviewers. It is distributed in accordance with the Creative Commons Attribution NonCommercial (CC BY-NC 4.0) license, which permits others to distribute, remix, adapt, build upon this work non-commercially, and license their derivative works on different terms, provided the original work is properly cited and the use is non-commercial. See: https://creativecommons.org/Licenses/by-nc/4.0/
Corresponding author: Hiroki Teragawa, FACC, FACP, FAHA, FESC, MD, PhD, Chief Physician, Doctor, Department of Cardiovascular Medicine, JR Hiroshima Hospital, 3-1-36 Futabanosato, Higashi-ku, Hiroshima 732-0057, Japan. hiroki-teragawa@jrhh.or.jp
Received: August 17, 2022
Peer-review started: August 17, 2022
First decision: September 5, 2022
Revised: September 19, 2022
Accepted: October 26, 2022
Article in press: October 26, 2022
Published online: November 26, 2022
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Abstract
BACKGROUND

Primary malignant pericardial mesothelioma (PMPM) is an extremely rare malignant tumor, and it is difficult to diagnose definitively before death. We present a case in which PMPM was diagnosed at autopsy. We consider this case to be highly suggestive and report it here.

CASE SUMMARY

A 78-year-old male presented with transient loss of consciousness and falls. The transient loss of consciousness was considered to result from complications of diastolic dysfunction due to pericardial disease, fever with dehydration, and paroxysmal atrial fibrillation. Ultrasound cardiography (UCG) and computed tomography showed cardiac enlargement and high-density pericardial effusion. We considered pericardial disease to be the main pathogenesis of this case. Cardiac magnetic resonance imaging and gadolinium contrast-enhanced T1-weighted images showed thick staining inside and outside the pericardium. Pericardial biopsy was considered to establish a definitive diagnosis, but the patient and his family refused further treatment and examinations, and the patient was followed conservatively. We noticed a thickening of the pericardium and massive changes in the pericardium on UCG over time. We performed an autopsy 60 h after the patient died of pneumonia. Giemsa staining of the autopsy tissue showed an epithelial-like arrangement in the pericardial tumor, and immunostaining showed positive and negative factors for the diagnosis of PMPM. Based on these findings, the final diagnosis of PMPM was made.

CONCLUSION

PMPM has a poor prognosis, and early diagnosis and treatment are important. The temporal echocardiographic findings may provide a clue for the diagnosis of PMPM.

Key Words: Primary malignant pericardial mesothelioma; Antemortem diagnosis; Pericardial disease; Temporal echocardiographic; Case report

Core Tip: Primary malignant pericardial mesothelioma (PMPM) is an extremely rare malignant tumor that is difficult to diagnose definitively before death. We encountered a case of PMPM that could not be diagnosed before death. A 78-year-old male was admitted to our emergency department with the chief complaint of loss of consciousness. In his lifetime, PMPM had not been listed as a differential diagnosis based on several imaging examinations, but it was eventually diagnosed at autopsy. Imaging findings on ultrasound cardiography may aid in the antemortem diagnosis of PMPM, which is one of the differential diagnoses for pericardial disease.



INTRODUCTION

Primary malignant pericardial mesothelioma (PMPM) is an extremely rare malignant tumor[1]. PMPM-related symptoms are also nonspecific, and histological evaluation is necessary according to the current diagnostic criteria[2]. Diagnostic examinations other than autopsy include pericardiocentesis and pericardiotomy; however, such examinations cannot always be performed in all patients suspected of PMPM because of their invasiveness or poor conditions. Here, we present a case of PMPM in which the diagnosis was not made by several imaging examinations in the patient’s lifetime but was made by autopsy.

CASE PRESENTATION
Chief complaints

A 78-year-old male was admitted to our emergency department in September 2019 because of transient loss of consciousness and falls.

History of present illness

The patient reported a transient loss of consciousness and falls while walking in the morning after breakfast. He regained consciousness immediately.

History of past illness

The patient had been receiving treatment for paroxysmal atrial fibrillation, diabetes mellitus, and chronic kidney disease at our hospital and at the family physician’s clinic. The patient was receiving direct oral anticoagulants and amiodarone for paroxysmal atrial fibrillation and dipeptidyl peptidase 4 inhibitor and sodium-glucose cotransporter 2 inhibitor for diabetes mellitus.

Personal and family history

The patient had been smoking 20 cigarettes daily for 58 years, and his history of asbestos exposure was unknown.

Physical examination

The results of his physical examination were as follows: height, 1.58 m; weight, 51.6 kg; body mass index, 20.59 kg/m2; blood pressure, 91/53 mmHg; pulse rate, 92 beats/min and irregular; oxygen saturation in room air, 97%; body temperature, 37.9 °C; and respiratory rate, 16 breaths/min. At the time of the visit, the patient's level of consciousness was clear, and no obvious neurological abnormalities were observed. Mild anemia was observed in the ocular conjunctiva. Jugular venous distension was marked. On auscultation, the heart sounds were irregular but well audible, and there was no clear heart murmur or pericardial friction rub. In the lung field, normal breath sounds were present with no rales. There were no abnormal findings in the abdomen. Bilateral marked leg edema was noted.

Laboratory examinations

The laboratory findings showed a high inflammatory response (white blood cell count, 17970/μL; C-reactive protein level, 16.58 mg/dL) and anemia (hemoglobin level, 9.8 g/dL). Renal function was reduced, and the brain natriuretic peptide level was slightly elevated at 370 pg/dL. Blood and urine cultures were negative for sepsis. A close examination for collagen disease was negative, as was a quantitative test for tuberculosis. Regarding tumor markers, the carcinoembryonic antigen (CEA) level was slightly elevated (5.6 ng/dL), and the soluble interleukin-2 receptor level was elevated at 1760 U/mL.

Imaging examinations

Electrocardiography showed the presence of atrial fibrillation. Chest radiography showed an increased cardiothoracic ratio of 68.7% and cardiac shadow enlargement, but no pleural effusion was noted. Plain computed tomography (CT) showed cardiac enlargement, a high density of pericardial effusion, and bilateral pleural effusion (Figure 1A). Circular nodular shadows (8 mm in diameter at the largest) were noted in the lungs (Figure 1B). Ultrasound cardiography (UCG) on admission also showed pericardial effusion with normal left ventricular ejection fraction (LVEF). Regarding pericardial effusion, mild to moderate pericardial effusion was seen in all circumferential areas but seemed slightly more common in the posterior left ventricular (LV). There was no evidence of right ventricular or atrial collapse or septal bounce, which was not supportive of the presence of cardiac tamponade or constrictive pericarditis. Cardiac magnetic resonance imaging (MRI) showed faint high-signal areas in the pericardium on both T1- and T2-weighted images, and gadolinium contrast-enhanced T1-weighted images showed thick staining inside and outside the pericardium and a small amount of pericardial fluid (Figure 1C). The thickening of the pericardium was diffuse and did not present a clear tumor shadow. Gallium scintigraphy showed fluid accumulation in the pericardial cavity (Figure 1D).

Figure 1
Figure 1 Imaging examinations of the present case. A: Computed tomography showed cardiac enlargement and high-density pericardial effusion; B: Computed tomography also showed multiple lung metastases (indicated by a red arrow); C: Gadolinium contrast-enhanced T1-weighted images showed thick staining inside and outside the pericardium and a small amount of pericardial fluid; D: Gallium scintigraphy showed several accumulations in the pericardial cavity.
Further diagnostic work-up

The transient loss of consciousness may have been caused by diastolic dysfunction due to pericardial disease, dehydration due to fever and inflammation, and decreased cardiac output due to the appearance of paroxysmal atrial fibrillation. Regarding pericardial disease, which was considered the main pathology, in this case, we considered pericarditis or pericardial invasion or metastasis of the malignant disease. As shown above, CT showed nodular shadows in the lungs, and the possibility of malignancy could not be ruled out. Pericardial infiltration of this lung cancer was not actively suspected. Upper and lower gastrointestinal endoscopies were performed to exclude malignant disease, but no significant findings were observed. To confirm the final diagnosis, cardiac catheterization, thoracoscopic lung biopsy, chest CT-guided lung biopsy, and pericardial biopsy were recommended, while pericardiocentesis could not be performed because several images did not show pure pericardial effusion. We strongly recommended to the patient and his family that he undergo such examinations, but they refused further examinations and treatment, so these examinations were not performed.

Furthermore, UCG on the 23rd day after admission showed that the LVEF was maintained within normal limits (66%). Pericardial effusions were slightly more observed near the posterior LV, but the degree of effusion was unchanged (Figure 2A). At this time, we found mass-like echogenicity at the apex, which was not present at the time of admission (Figure 2B). The E/A ratio was increased to 1.55, and the deceleration time was 140 ms on regular sinus rhythm, indicating progression of the restrictive disorder. On the 58th day after admission, because of an increase in pleural effusion, left thoracentesis was performed after obtaining consent; the effusion was exudative with no obvious atypical cells, suggesting some kind of inflammation.

Figure 2
Figure 2 Ultrasound cardiography on day 23. A: Pericardial effusion was observed, especially in the posterior left ventricle. The degree of pericardial effusion was unchanged; B: Mass-like echogenicity at the apex, which was not present on admission, was evident on the 23rd day (indicated by a red arrow).
FINAL DIAGNOSIS

Pericardial disease was the main pathology in this case, and although blood tests and as many imaging studies as possible were performed, a definitive diagnosis was not reached. A pericardial biopsy was recommended, but the patient did not wish to undergo aggressive examinations and/or treatment, and a definitive diagnosis was not reached before his death.

TREATMENT

On admission, the patient’s loss of consciousness had improved, but because of possible complications of dehydration and inflammation, extracellular fluid replacement and antibiotics were administered, and the fever improved. On approximately the 20th day after admission, the patient again developed a fever with elevated inflammatory findings, and antibiotics were administered after culture tests were performed. From admission, rehabilitation had been performed, but after a fall on the 30th day after admission, rehabilitation had not progressed as expected. Around the 66th day, edema of both lower limbs became prominent, and the patient was treated with an increased dose of diuretics. In addition, he developed pneumonia and was treated with external fluid replacement, antibiotics, and intravenous dopamine infusion, but these measures were ineffective, and he died on his 77th day after admission.

OUTCOME AND FOLLOW-UP

An autopsy, which was performed 60 h after death, showed a large tumor surrounding the pericardium and infiltration of the myocardium (Figure 3A). Giemsa staining showed an epithelial-like arrangement on the pericardial tumor (Figure 3B), and epithelial-type cells were also found in both lungs (subpleural). Immunostaining was positive for calretinin (Figure 3C) and podoplanin/D2-40 and negative for CEA, thyroid transcription factor-1 (TTF-1), napsin A, and claudin 4. Based on the autopsy findings, the final diagnosis of PMPM was made (Table 1).

Figure 3
Figure 3 Autopsy findings. A: A circumferential pericardial tumor (indicated by a red arrow) was directly invading the myocardium; B: The tumor cells showed a tubular structure (hematoxylin and eosin staining, × 400); C: Both the cytoplasm and nucleus were positive for calretinin in the tumor cells.
Table 1 Selection of positive or negative immunostaining chemical markers.
Antigen
Clone
Immunoreactivity
CalretininDAK Calret+
Cytokeratin 5/6D5/16 B4+
WT-16F-H2-
PodoplaninD2-40+
Claudin 4EPRR17575-
Epithelial related antigenMOC-31-
CEAII-7-
Epithelial antigenBerEP-4-
TTF-18G7G3/1-
Napsin Apolyclonal-
p4011F12.1-
p634A4-
MTAP2G4-
DISCUSSION

We reported a case of PMPM in which the final diagnosis was made based on autopsy. In the patient’s lifetime, PMPM had not been listed as a differential diagnosis based on several imaging examinations; meanwhile, we considered pericardial invasion or metastasis of other malignant disease.

PMPM is an extremely rare malignant tumor. In a large autopsy study, the prevalence was < 0.0022%[1,3]. Compared with pleural malignant mesothelioma, PMPM is less likely to be associated with asbestos exposure[4]. In the current case, the patient’s history of asbestos exposure was unknown. PMPM is difficult to diagnose and is often misdiagnosed. One reason is that it lacks the specificity of clinical symptoms, such as dyspnea and cough. These symptoms are common and are caused by many cardiac diseases, such as constrictive pericarditis, pericardial effusion, cardiac tamponade, and heart failure[1]. In this context, echocardiographic evaluation is the most commonly used diagnostic tool. In UCG, pericardial effusion (85.9%) was the most common finding, followed by pericardial mass (36.4%) and thickening (17.3%)[5]. In the present case, UCG on admission showed only pericardial effusion. However, UCG on the 23rd day showed not only pericardial effusion but also pericardial mass and pericardial thickening in the apex of the heart, accompanied by a restrictive pattern. These findings are suggestive of PMPM but are not always simultaneously present, and the successive performance of UCG may provide any hints for the diagnosis of PMPM.

Certainly, pathologic findings are needed for a definitive diagnosis. Andersen and Hansen set the criteria for PMPM in 1974, as follows: (1) The tumor is localized to the visceral side and wall of the epicardium; (2) When there is metastasis, it is localized only to the affiliated lymph nodes; (3) There are no other primary tumors; and (4) The autopsy has been completely performed[2]. Of the cases reported before 1985, 75% were postmortem diagnoses[6]. Regarding pathological evaluation in the patient’s lifetime, pericardial fluid cytology is sometimes difficult to diagnose, and pericardiocentesis can only diagnose 10%-30% of cases[3,4,7]. Even in the present case, pericardiocentesis was not performed because pericardial effusion did not mainly involve fluid, judging from several imaging examinations. Therefore, most definitive diagnoses are made by autopsy. In this case, a definitive diagnosis was made by autopsy, although our case met three of the four criteria (did not meet the second criterion) posited by Andersen and Hansen[2]. In our case, malignant mesothelioma was noted in the lung; however, considering the large tumor over the pericardium, these findings in the lungs were caused by lung metastasis.

Malignant mesothelioma is histologically classified into three types: epithelial type, sarcomatoid type, and biphasic type[8]. Epithelial types are the most frequent types, biphasic types are the least frequent[3], and the tumor classification in the present patient was epithelial. Immunostaining is essential for the pathological diagnosis of mesothelioma. When epithelial or biphasic mesothelioma is suspected, positive markers include calretinin, Wilms tumor-1 (WT-1), and podoplanin/D2-40, and negative markers include CEA, TTF-1, napsin A, and claudin 4[9]. Since there are no markers with 100% sensitivity and specificity, it is recommended that at least two positive markers and at least two negative markers be used as the basis for the diagnosis of epithelial mesothelioma[9]. In this case, calretinin and podoplanin/D2-40 were positive as positive markers, and CEA, TTF-1, napsin A, and claudin 4 were negative as negative markers, which was one of the reasons for the diagnosis. In the present case, WT-1, a positive marker, was negative. An autopsy of this case was performed 60 h postmortem, and this time course may have affected the immunostaining results (Table 1).

PMPM is difficult to diagnose and highly malignant, so the stage is often advanced when it is diagnosed. The prognosis for life is poor, and even if treated, the prognosis is within 10 mo[10]. Lymph node metastasis is found in 30%-50% of cases, and the prognosis is extremely poor with lymph node metastasis[3,7,11]. There is no effective or standard treatment for this disease. Localized lesions are the only lesions that can be surgically resected for curative purposes, but diffuse lesions are difficult to access[12]. Although there may have been no effective treatment even if an antemortem diagnosis had been made in this case, chemotherapy and radiotherapy have been effective[1,4,11,13,14], and it was necessary to list this case in the differential diagnosis based on the UCG findings.

Looking back on the examinations and progress of the present case, there were several points for improvement, which are listed here. First, in this case, a close examination of the gastrointestinal tract was performed to rule out malignant disease of the gastrointestinal tract. Nevertheless, this examination alone was not sufficient and may have placed an additional burden on the patient. Second, in the present study, we performed gallium scintigraphy; however, 18F-fluorodeoxyglucose positron emission tomography (FDG PET) has been established as the standard examination for malignancies, and it seems superior to gallium scintigraphy in identifying inflammation[15]. Nevertheless, we do not have FDG PET equipment at our hospital. It is difficult under the Japanese insurance system for hospitalized patients to have FDG PET performed at other facilities. Thus, in the present case, 18F-FDG PET was not performed, which could have provided more clinical information. Third, other than T1W, T2W, and gadolinium-enhanced T1W images, many MRI sequences and findings are valuable in the diagnosis of cardiac/pericardial masses, such as perfusion images (to see tumor vascularity), T1W with fat suppression images (to exclude pericardial lipoma), and advanced images if available (native T1 mapping, T2 mapping, extracellular volume mapping, etc.). Although the specific imaging and/or analyses might have helped in differentiation, we did not perform the MRI examination after listing sufficient differential diseases and providing imaging conditions. In addition, some analyses cannot be performed with our MRI equipment. Finally, a pericardial biopsy was still preferred for a definitive diagnosis. We were not able to perform the biopsy because the patient and family did not wish to do so, but we could have made more effort to explain the procedure to them.

CONCLUSION

In conclusion, we encountered a case of PMPM, which was difficult to diagnose definitively during the patient’s lifetime based on several imaging examinations. For early diagnosis or diagnosis in the patient’s lifetime, the combination of the presence of pericardial effusion, mass, and thickening on successive UCG may suggest the presence of PMPM, which should be one of the differential diagnoses for pericardial disease, irrespective of the absence of asbestos exposure.

Footnotes

Provenance and peer review: Unsolicited article; Externally peer reviewed.

Peer-review model: Single blind

Specialty type: Medicine, research and experimental

Country/Territory of origin: Japan

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P-Reviewer: Theerasuwipakorn N, Thailand; Yang L, China S-Editor: Gao CC L-Editor: A P-Editor: Gao CC

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