Recurrent pericardial effusion with pericardial amyloid deposition: a case report and literature review

Pericardial amyloidosis is a rare cause of pericardial effusion. Here, we report a case of recurrent pericardial effusion because of pericardial amyloid deposition. The patient was a man in his 40s admitted for pulmonary embolism. During hospitalization, arterial fibrillation and cardiac tamponade were observed, and an initial pericardial puncture was performed. Thereafter, pericardial puncture was repeated nine times over the next two years. Cytological examination of the pericardial effusion suggested malignant mesothelioma. Afterward, pericardial fenestration and partial resection were performed. Intraoperatively, a thickened pericardium and hemorrhagic pericardial effusion were noted. Histologically, the surface of the pericardium was covered by an eosinophilic amorphous material. Congo red and DYLON stains, electron microscopy, and immunohistochemical findings revealed localized amyloidosis composed of an immunoglobulin lambda light chain. Although the patient did not receive further treatment for 5 years postoperatively, his renal and cardiac functions remained within normal limits. Based on these findings, the patient was diagnosed with localized amyloidosis. So far, hemorrhagic pericardial effusion has been reported in few cases with systemic amyloidosis. Because localized immunoglobulin light-chain-derived (AL) amyloidosis may progress to systemic disease (although it is a very rare occurrence), long-term follow-up is necessary to detect recurrence or progression to a systemic form.

Normal Tumor Markers and Increased Adenosine Deaminase in Pericardial Effusion Misdiagnosed as Tuberculous Pericarditis Ultimately Proven as Lung Adenocarcinoma with Pericardial Metastasis: a Case Report and Literature Review

BACKGROUND

Elevated adenosine deaminase (ADA) and normal tumor markers in pericardial or pleural effusion are usually considered to be a specific manifestation of benign pericardial or pleural effusion. Here we report a case of lung adenocarcinoma with pericardial metastasis with elevated ADA and normal tumor markers in pericardial effusion.

METHODS

Pericardiocentesis and lung puncture combined laboratory indexes and pathology were performed for diagnosis.

RESULTS

Analysis of pericardial fluid revealed a white blood cell (WBC) count of 2,000 x 106/L (70% for lymphocytes) with an ADA level of 72.8 U/mL. Pathology of pericardial effusion found no malignant cells. Histopathology of percutaneous lung puncture showed adenocarcinoma.

CONCLUSIONS

ADA and tumor markers were not a specific index in differential diagnosis between tuberculosis and metastasis in pericardial effusion.

The dynamics of extracellular gadolinium-based contrast agent excretion into pleural and pericardial effusions quantified by T1 mapping cardiovascular magnetic resonance

INTRODUCTION

Excretion of cardiovascular magnetic resonance (CMR) extracellular gadolinium-based contrast agents (GBCA) into pleural and pericardial effusions, sometimes referred to as vicarious excretion, has been described as a rare occurrence using T1-weighted imaging. However, the T1 mapping characteristics as well as presence, magnitude and dynamics of contrast excretion into these effusions is not known.

AIMS

To investigate and compare the differences in T1 mapping characteristics and extracellular GBCA excretion dynamics in pleural and pericardial effusions.

METHODS

Clinically referred patients with a pericardial and/or pleural effusion underwent CMR T1 mapping at 1.5 T before, and at 3 (early) and at 27 (late) minutes after administration of an extracellular GBCA (0.2 mmol/kg, gadoteric acid). Analyzed effusion characteristics were native T1, ΔR1 early and late after contrast injection, and the effusion-volume-independent early-to-late contrast concentration ratio ΔR1early/ΔR1late, where ΔR1 = 1/T1post-contrast - 1/T1native.

RESULTS

Native T1 was lower in pericardial effusions (n = 69) than in pleural effusions (n = 54) (median [interquartile range], 2912 [2567-3152] vs 3148 [2692-3494] ms, p = 0.005). Pericardial and pleural effusions did not differ with regards to ΔR1early (0.05 [0.03-0.10] vs 0.07 [0.03-0.12] s- 1, p = 0.38). Compared to pleural effusions, pericardial effusions had a higher ΔR1late (0.8 [0.6-1.2] vs 0.4 [0.2-0.6] s- 1, p < 0.001) and ΔR1early/ΔR1late (0.19 [0.08-0.30] vs 0.12 [0.04-0.19], p < 0.001).

CONCLUSIONS

T1 mapping shows that extracellular GBCA is excreted into pericardial and pleural effusions. Consequently, the previously used term vicarious excretion is misleading. Compared to pleural effusions, pericardial effusions had both a lower native T1, consistent with lesser relative fluid content in relation to other components such as proteins, and more prominent early excretion dynamics, which could be related to inflammation. The clinical diagnostic utility of T1 mapping to determine quantitative contrast dynamics in pericardial and pleural effusions merits further investigation.

Overexpression of prostate specific membrane antigen by canine hemangiosarcoma cells provides opportunity for the molecular detection of disease burdens within hemorrhagic body cavity effusions

Background

Canine hemangiosarcoma (cHSA) is a highly metastatic mesenchymal cancer that disseminates by hematogenous and direct implantation routes. Therapies for cHSA are generally ineffective, in part due to advanced clinical disease stage at the time of diagnosis. The validation of conventional molecular methods for detecting novel biomarkers preferentially expressed by cHSA could lead to more timely diagnosis, earlier therapeutic interventions, and improved outcomes. In humans, prostate-specific membrane antigen (PSMA) is a transmembrane protein overexpressed by prostate carcinoma and tumor-associated endothelium of various solid cancer histologies. Importantly, the preferential overexpression of PSMA by certain cancers has been leveraged for the development of diagnostic molecular imaging reagents and targeted therapeutics. Recently, PSMA has been qualitatively demonstrated to be expressed in cHSA cell lines, however, quantitative PSMA expressions and the potential utility of PSMA transcript identification in biologic fluids to support the presence of microscopic cHSA burden has not been reported. Therefore, this study sought to characterize the differential quantitative expressions of PSMA between cHSA and non-malignant tissues, and to determine the potential diagnostic utility of PCR-generated PSMA amplicons as a surrogate of rare cHSA cells dwelling within peritoneal and pericardial cavities.

Methods

Quantitative gene and protein expressions for PSMA were compared between one normal endothelial and six cHSA cell lines by RT-PCR, western blot analysis, and fluorescent microscopy. Additionally, gene and protein expressions of PSMA in normal canine tissues were characterized. Graded expressions of PSMA were determined in spontaneously-arising cHSA tumor samples and the feasibility of qualitative PCR as a molecular diagnostic to detect PSMA transcripts in whole blood from healthy dogs and hemorrhagic effusions from cHSA-bearing dogs were evaluated.

Results

PSMA gene and protein expressions were elevated (up to 6-fold) in cHSA cells compared with non-malignant endothelium. By immunohistochemistry, protein expressions of PSMA were detectable in all cHSA tissue samples evaluated. As predicted by human protein atlas data, PSMA’s expression was comparably identified at substantial levels in select normal canine tissues including kidney, liver, and intestine. In young healthy pet dogs, PSMA amplicons could not be identified in circulating whole blood yet were detectable in hemorrhagic effusions collected from pet dogs with confirmed cHSA or PSMA-expressing cancer.

Conclusions

PSMA is quantitatively overexpressed in cHSA compared to normal endothelium, but its protein expression is not restricted to only cHSA tumor tissues, as specific visceral organs also substantively express PSMA. Optimized qualitative PCR methods failed to amplify PSMA amplicons sufficiently for visible detection in circulating whole blood derived from healthy young dogs, yet PSMA transcripts were readily identifiable in hemorrhagic effusions collected from pet dogs with histologically confirmed cHSA or PSMA-expressing cancer. While preliminary, findings derived from a limited cohort of normal and diseased pet dogs provocatively raise the potential value of PSMA amplicon detection as an ancillary molecular diagnostic test for supporting the presence of microscopic cHSA disease burden within hemorrhagic body cavity effusions.

Cytologic and Immunophenotypic Features of Malignant Cells in Pediatric Body Fluids

OBJECTIVE

Cytospin preparations and immunocytochemistry are common methods in hospitals to evaluate malignancies in body fluids. Characteristics of malignant cells in pediatric body fluids have not been adequately evaluated.

STUDY DESIGN

183 pleural, peritoneal and pericardial pediatric fluid specimens were examined by cytospin preparations and immunocytochemistry from two hospitals using similar procedural techniques. Cytologic diagnoses were correlated with the results of clinical history, histology and ancillary studies.

RESULTS

Forty cases with malignancy were identified (21.9%); the most common diagnoses were rhabdomyosarcoma and acute lymphoblastic lymphoma (9 and 8 cases, respectively). Small round cell tumors revealed similar morphology as clusters of small round cells with central nuclei and scant cytoplasm with frequent small vacuoles. Twenty-one cases were evaluated by immunocytochemistry, 12 by flow cytometry and 5 by cytogenetic analysis. CD3, CD20, TdT, CD10, desmin and myogenin were the most common markers. Staining artifacts causing interpretation difficulties were noted in 5 cases that were resolved by molecular studies and deferral for surgical specimens.

CONCLUSIONS

Small round cell tumors are the most common malignancies encountered in pediatric body fluids and share a nonspecific morphology. Although immunocytochemistry is helpful to arrive at the correct diagnosis, other ancillary studies may be necessary, particularly in hematologic malignancies and other difficult cases.

A case of anterior mediastinum paraganglioma presented with pericardial effusion two years before symptoms of catecholamine excess: first case report in Thailand

Pheochromocytoma (PCC) and paraganglioma (PGL) are uncommon tumors. Clinical manifestations are mass effect or hormone secretion. The initial manifestation with pericardial effusion is rare. The author presented a case of anterior mediastinum paraganglioma presenting with pericardial effusion two years before symptoms of catecholamine excess. This is the first case reported in Thailand. A 34 year-old female patient presented with dyspnea. There was pericardial effusion from echocardiography was diagnosed with no definite causes of pericardial effusion. After treatment with ibuprofen, pericardial effusion was absolutely resolved from repeated echocardiography. Two years later she had headache and hypertension. Chest X-ray, there was an anterior mediastinal mass. Her 24 hours urine metanephrine was very high. By imaging, an anterior mediastinal mass was observed from CT chest without adrenal mass from CT abdomen. The result of metaiodobenzylguanidine (MIBG) scan was compatible with paraganglioma. Symptoms of headache and hypertension disappeared after surgical removal of the mass. Pericardial effusion may be the first manifestation of paraganglioma especially if the patient had hypertension or could not find the etiology. Thus, pericardial effusion should be investigated for paraganglioma. Due to long term follow-up, this indolent growing tumor may respond to NSAIDs or regress spontaneously.

Delayed methotrexate excretion in infants and young children with primary central nervous system tumors and postoperative fluid collections

PURPOSE

High-dose methotrexate (HD-MTX) has been used to treat children with central nervous system tumors. Accumulation of MTX within pleural, peritoneal, or cardiac effusions has led to delayed excretion and increased risk of systemic toxicity. This retrospective study analyzed the association of intracranial post-resection fluid collections with MTX plasma disposition in infants and young children with brain tumors.

METHODS

Brain MRI findings were analyzed for postoperative intracranial fluid collections in 75 pediatric patients treated with HD-MTX and for whom serial MTX plasma concentrations (MTX) were collected. Delayed plasma excretion was defined as (MTX) ≥1 μM at 42 hours (h). Leucovorin was administered at 42 h and then every 6 h until (MTX) <0.1 μM. Population and individual MTX pharmacokinetic parameters were estimated by nonlinear mixed-effects modeling.

RESULTS

Fifty-eight patients had intracranial fluid collections present. Population average (inter-individual variation) MTX clearance was 96.0 ml/min/m² (41.1 CV %) and increased with age. Of the patients with intracranial fluid collections, 24 had delayed excretion; only 2 of the 17 without fluid collections (P < 0.04) had delayed excretion. Eleven patients had grade 3 or 4 toxicities attributed to HD-MTX. No significant difference was observed in intracranial fluid collection, total leucovorin dosing, or hydration fluids between those with and without toxicity.

CONCLUSIONS

Although an intracranial fluid collection is associated with delayed MTX excretion, HD-MTX can be safely administered with monitoring of infants and young children with intracranial fluid collections. Infants younger than 1 year may need additional monitoring to avoid toxicity.

The up-regulation of endothelin-1 and down-regulation of miRNA-125a-5p, -155, and -199a/b-3p in human atherosclerotic coronary artery

BACKGROUND

Previous studies have reported important roles of endothelin-1 (ET-1) and angiotensin II (Ang II) in the pathogenesis of atherosclerosis. However, the expression of these two proteins and the underlying mechanisms in human atherosclerotic coronary arteries are largely unknown.

METHODS

We examined the expression of ET-1 and Ang II in pericardial fluid and coronary arteries from 25 individuals (n = 25) using enzyme-linked immuno sorbent assay (ELISA) and immunohistochemistry. Twelve patients died from acute coronary syndrome were classified as atherosclerotic plaque group (AP group) (n = 12), while 13 patients died from other causes were classified as non-AP group (n = 13). Meanwhile, we performed reverse transcription-polymerase chain reaction (RT-PCR) to measure the expression of six microRNAs targeting ET-1 in formalin-fixed, paraffin-embedded coronary arteries.

RESULTS

Our data showed that ET-1 was significantly higher in both pericardial fluid and coronary arteries from AP group. However, Ang II showed no significant difference in pericardial fluid between the two groups, while it was even significantly lower in coronary arteries from AP group. Besides, miR-125a-5p, miR-155, and miR-199a/b-3p, which suppressed the expression of ET-1, were down-regulated in the coronary arteries from AP group.

CONCLUSION

The up-regulation of ET-1, regulated by miR-125a-5p, miR-155, and miR-199a/b-3p, indicated that ET-1 played an important role in human coronary atherosclerosis.

SUMMARY

We focused on the human coronary arteries with atherosclerotic plaques. The expression of ET-1, as well as its upstream miRNAs, was determined. Unlike any of previous study regarding miRNAs expression, we could exclude the discrepancy of artery-bed-specific miRNA expression. Besides, our data indicated, to some degree, that ET-1 might play a more vital role than Ang II in coronary atherosclerosis.

PAX2 and PAX8: useful markers for metastatic effusions

OBJECTIVE

It was the aim of this study to determine the utility of PAX2 and PAX8 in cytology effusions with metastatic tumor.

STUDY DESIGN

PAX2 and PAX8 immunohistochemical staining was performed on cell blocks of 89 pleural, pericardial and peritoneal effusions with benign diagnoses (18 cases), or secondary to renal cell carcinoma (RCC; 9 cases), müllerian carcinoma (21 cases) or non-müllerian carcinoma (41 cases).

RESULTS

PAX2 stained 0% (0/18) of controls, 100% (8/8) of RCCs, 35% (7/20) of müllerian carcinomas, and 2% (1/41) of non-müllerian carcinomas. PAX8 stained 6% (1/18) of control cases, 100% (9/9) of RCC cases, 100% (20/20) of müllerian carcinomas, and 5% (2/41) of non-müllerian carcinomas. PAX2 was 35% sensitive and 95% specific for müllerian carcinoma and 100% sensitive and 95% specific for RCC. PAX8 was 100% sensitive and 95% specific for müllerian carcinoma and 100% sensitive and 95% specific for RCC.

CONCLUSIONS

PAX8 is more sensitive than PAX2 for metastatic effusions from müllerian carcinomas (100 vs. 35%), while also having a higher intensity of staining than PAX2. However, PAX2 and PAX8 are both highly sensitive and specific for RCCs. PAX2 and PAX8 are valuable diagnostic markers for metastatic müllerian carcinomas and RCCs in effusion cytology. PAX8 is superior for carcinomas of müllerian origin.

Delayed chylous pericardial effusion after aortic valve replacement

Chylopericardium after cardiac surgery is rare, and there are few reports of its occurrence after aortic valve surgery. Chylous pericardial effusion 4 months after aortic valve replacement for endocarditis is highly unusual.Herein, we report the case of a 54-year-old man who had undergone bioprosthetic aortic valve replacement because of endocarditis and valvular dysfunction. Two months later, he underwent pericardiocentesis twice because of large pericardial effusions consisting of pinkish white fluid with predominant lymphocytes. Four months after valve replacement, he presented with recurrent effusion consistent with early tamponade, and a pericardial window was created. At surgery, 1,500 cc of milky white fluid was recovered, and the diagnosis of chylopericardium was made. Postoperative high-volume drainage prompted thoracic duct ligation, which was curative.

Importance of flow cytometric analysis of serous effusions in the diagnosis of hematopoietic neoplasms in patients with prior hematopoietic malignancies

OBJECTIVE

To determine the criteria for the use of immunophenotyping by flow cytometry (FCM) in the diagnosis of hematopoietic lesions.

STUDY DESIGN

A retrospective review of 89 consecutive body fluid specimens with concurrent FCM analysis during 2001 to 2006 was performed. The cytopathologic diagnosis was compared with the final diagnosis as modified by subsequent FCM.

RESULTS

The cytopathologic diagnosis was benign in 61 cases (69%), atypical in 20 cases (22%) and malignant in 8 cases (9%). In patients without any prior clinical history, FCM study was positive in 2 cases and negative in 49 cases. In these patients, the working cytopathologic diagnosis was modified from benign/atypical to malignant in 2 (11%) cases and atypical to benign in 11 (33%) cases. In patients with a prior clinical history, FCM was positive in 23 cases and negative in 15 cases.

CONCLUSION

FCM studies were helpful in the cytopathologic diagnosis in 35% of body fluid specimens, permitting appropriate cancer staging and management. In the absence of a prior clinical history, immunophenotyping by FCM in body fluid specimens should be ordered after adequacy studies when there is cytologic atypia or a strong suspicion of malignancy on the cytopathologic diagnosis.

[Laboratory methods for the diagnosis of postpericardiotomy syndrome]

The paper analyzes the diagnostic value of methods for the laboratory diagnosis of postpericardiotomy syndrome (PPS) in patients who have undergone open heart surgery. The prospective study included 63 patients, of whom 53 had the clinical manifestations of PPS. Ultrasensitive assay of serum procalcitonin and the determination of relative albumin levels in pleural and pericardial fluids are noted to be of high diagnostic value.

[Evaluation of immunohistochemistry staining and cytologic diagnosis by using cell block sections prepared with effusion fluid cytology specimens]

OBJECTIVE

To study the values of immunohistochemistry staining and cytological diagnosis by using cell block sections prepared with the effusion fluid cytology specimens.

METHODS

Ninety-nine effusion cytology specimens with the diagnoses of reactive mesothelial hyperplasia, atypical cells and metastatic carcinoma were enrolled into the study. The cytospin preparations/smears, cell block sections and immunohistochemical study were performed and correlated with the clinical findings and follow-up data.

RESULTS

Amongst the 99 cases studied, the percentage with positive diagnosis using cytospin preparations/smears was 68.7% (68/99). The percentages with negative and equivocal diagnoses were 16.2% (16/99) and 15.1% (15/99), respectively. As for cell block sections, the percentages were 71.7% (71/99), 16.2% (16/99) and 12.1% (12/99), respectively. On the other hands, the percentages became 76.8% (76/99), 20.2% (20/99) and 3.0% (3/99), respectively, when coupled with immunohistochemical findings. The overall percentages of positive, negative and equivocal diagnoses were 77.8% (77/99), 17.2% (17/99) and 5.0% (5/99), respectively, upon clinicopathologic correlation. The difference between cytospin preparations/smears and cell block sections was not statistically significant (P > 0.05). When coupled with immunohistochemical findings or clinicopathologic correlation, the difference in rates of equivocal diagnosis however carried statistical significance (P < 0.05). The false-negative rate of immunohistochemical study applied on cell block sections was 1.0% (1/99).

CONCLUSIONS

Immunohistochemistry, when applied on cell block sections, is useful in delineation of the primary origins of the tumor cells in effusion fluid cytology specimens. Combination of morphologic examination, immunohistochemical findings and clinicopathologic correlation can further improve the rate of positive diagnosis.

[Morphological prerequisites of heart ventricles fibrillation in sudden cardiac death]

We studied morphological changes in the myocardium and content of glucose, magnesium, calcium, sodium in pericardial fluid of victims of out of hospital sudden death due to acute coronary insufficiency and prenecrotic stage of myocardial infarction. We established that both in regions of ischemic injury appearing as III degree contracture lesions of cardiomyocytes, zones of intracellular myocytolysis and primary breakdown of myofibrils, as will as in zones of relaxation myocardium loses its contractile properties. This in turn leads to asynchronous contraction of left and right ventricles. As fibrillation develops in both ventricles simultaneously there are all grounds to believe that morphological prerequisite (source of origin) of fibrillation is the presence of areas of ischemic injury and relaxation in the myocardium.

Cardiomyopathy and pericardial effusion in a 7 year-old boy with beta-thalassaemia major, severe primary hypothyroidism and hypoparathyroidism due to iron overload

The primary cause of cardiac dysfunction in thalassemia is believed to be myocardial iron overload. Besides iron, other factors may play a role in the impairment of myocardial contractility, including prolonged heart tissue hypoxia, pericardial involvement, arrhythmias, endocrine complications and vitamin D deficiency. We present the case of a 7 year-old boy with ?-thalassaemia major and cardiac dysfunction, pericardial effusion and associated endocrinopathies. His serum thyrotropin (TSH) level was increased, and total and free thyroxine (FT4) were low. In addition, biochemical results and serum PTH level were compatible with a diagnosis of hypoparathyroidism. Other laboratory findings were not consistent with rheumatic heart disease, viral myocarditis or autoimmune disease. The child was treated with digoxin, diuretics, oral calcium, vitamin D, L-thyroxine (25 microg daily, which was later gradually increased) and subcutaneous iron chelation therapy (45 mg/kg, six days/week). The patient was discharged from our Unit after 7 days and within 3 months he had appreciable myocardial improvement and disappearance of the pericardial effusion.

Pericardial and abdominal fluid accumulation in congenital disorder of glycosylation type Ia

The association of fetal hydrops with Congenital Disorders of Glycosylation (CDG) has been reported previously. Pericardial fluid accumulation and ascites were also observed in a few young patients with CDG type Ia. Here we describe the clinical and biochemical features in three children developing life-threatening extravascular fluid accumulation. All patients carried severe PMM2 mutations comparable to the earlier reported patients with fetal hydrops. One patient was successfully treated with a pericardial-pleural shunt placement. Pericardial fluid accumulation and generalized oedema resolved temporarily in the other two children on regular albumin infusions and the use of diuretics. Sequential abdominal punctures were unsuccessful in the treatment of the extensive ascites production. The use of non-steroid anti-inflammatory agents and the application of high dose steroids had no clinical effect. Severe extravascular fluid accumulation progressed to decompensation and death. Biochemical investigations of the abdominal fluid and pericardial fluid demonstrated a high extracellular protein concentration, increased cytokine concentrations and an abnormal transferrin isoelectric focusing pattern characteristic of CDG type I. Our results are consistent with a local activation of the cytokine pathways and subsequent protein transport through the endothelial surface to the extravascular space. Normal glycosylation of cell surface proteins is essential for the normal fluid balance and protein transport through the pericardial and peritoneal membrane. Future therapeutic efforts should be directed to inhibit the abnormal immune response and excessive protein transport in this life-threatening complication of CDG syndrome.

Diagnostic value of the biochemical composition of pericardial effusions in patients undergoing pericardiocentesis

In contrast to pleural effusion or ascites, there are few data regarding the chemical and cell-count parameters of pericardial effusions (PEs) to aid diagnosis. In the present work, all patients who underwent pericardiocentesis during a 9-year period (1995 to 2004) at a tertiary hospital and who had available fluid laboratory results were retrospectively identified. Causes of PE were diagnosed using predetermined criteria. The results of pericardial fluid biochemical and hematologic tests were compared with blood test results and analyzed to identify cut-off points that could distinguish among the various causes or among various groups of causes. Of 173 patients who underwent pericardiocentesis in the study period, 120 had available fluid laboratory results, and these patients constituted the study population. The most common causes of PE were neoplastic, idiopathic, and effusion related to acute pericarditis (accounting for 42, 22, and 17 of 120 patients, respectively). Most fluids (118 of 120) would have been classified as exudates by adopting Light's pleural effusion criteria. Moreover, in all parameters examined, there was a considerable overlap of test results among the different pericardial disorders. Thus, no biochemical or cell-count parameter was found useful at reasonable accuracy for differentiating among the individual causes or among various groups of pericardial disorders. In conclusion, most PEs are exudates. The analysis of pericardial fluid biochemical and cell-count composition is generally not helpful for the diagnosis of most PEs.

Analysis of C-reactive protein and biochemical parameters in pericardial fluid

This study was designed to examine the relationship between pericardial fluid and plasma CRP levels, and to alterations in other biochemical parameters in patients undergoing Coronary Artery Bypass Grafting (CABG). The study group consisted of 96 Coronary Artery Disease (CAD) patients who were referred to our clinic for a CABG procedure and from whom sufficient amount of pericardial fluid could be collected. The patients were classified into 3 groups: Stable Angina Pectoris (SAP) (n=27), Unstable Angina Pectoris (USAP) (n=36), and Post-Myocardial Infarction (PMI) (n=33). Levels of CRP, glucose, albumin, total protein, Creatine Kinase (CK), Creatine Kinase-MB (CK-MB), and Lactate Dehydrogenase (LDH) were determined in pericardial fluid samples and in simultaneously collected blood samples from radial artery. The pericardial CRP and LDH levels in the PMI group were higher than in the SAP (p=0.015 and p=0.000, respectively) and USAP (p=0.011, p=0.047) groups. Serum CRP levels in USAP (p=0.014) and PMI (p= 0.000) groups were higher than those in the SAP group. Pericardial albumin levels in the PMI group were higher than in the USAP group (p=0.038). In all groups, the pericardial fluid/serum protein ratio was > 0.5, the LDL ratio was > 0.6, and pericardial fluid LDH concentrations were > 300 mg/dl. CRP level of pericardial fluid was significantly higher in the PMI group than in other groups. However, pericardial fluid LDH levels were higher than blood LDH levels in this group and were also higher than pericardial fluid LDH levels of other groups.

Immunocytochemical panel for distinguishing between carcinoma and reactive mesothelial cells in body cavity fluids

The morphological evaluation of cytological specimens from body cavity fluids presents difficulties in the differential diagnosis between benign reactive mesothelial (RM) cells and adenocarcinoma (AC) or malignant mesothelioma (MM). The aim of our study was to investigate whether a panel of five different antibodies can offer reliable markers in the differential diagnosis of RM, AC, and MM in serous effusions. A total of 134 cytological specimens of serous effusions from 80 ACs, 50 RMs, and 4 MMs, previously stained with Papanicolaou stain, were selected retrospectively from our files and stained with anti-human mesothelial cell (HBME-1), calretinin, epithelial specific antigen (MOC-31), Ber-EP4, and BG8. Statistical significance was found with HBME-1, calretinin, MOC-31, anti-human epithelial antigen (Ber-EP4), and blood group related antigen (BG8) when comparing AC vs. any type of mesothelial proliferation (MM or RM). The sensitivity of HBME-1 and calretinin for mesothelial cells was 98 and 100%, respectively, and the specificity was 71 and 80%, respectively. Both antibodies stained reactive mesothelial as well as MM cells, with calretinin showing a stronger intensity of immunostaining. The sensitivity of the stain for AC was 86.25% for MOC-31, 77.5% for Ber-EP4, and 67.5% for BG8, and, when combined, the sensitivity was 100%. Our data suggest that immunocytochemical studies performed on Papanicolaou-stained cytological smears with HBME-1, calretinin, MOC-31, Ber-EP4, and BG8 proved to be useful in the differentiation between metastatic AC and mesothelial proliferation. Probably, calretinin is a more preferred marker for mesothelial cells as evidenced by a more intense staining reaction.

Angiostatin is negatively associated with coronary collateral growth in patients with coronary artery disease

Angiostatin, an inhibitor of tumor angiogenesis, is produced by the actions of matrix metalloproteinases (MMP) on plasminogen. Recently, we reported that angiostatin levels are increased in a model of inadequate coronary collateral growth and angiogenesis in response to ischemia, despite high levels of vascular endothelial growth factor (VEGF). We hypothesized that angiostatin levels are negatively associated with collateral formation in patients. Coronary angiograms from 37 patients undergoing coronary bypass surgery were evaluated for the absence of angiographically visible collaterals (Rentrop scores of 0) or the presence of Rentrop classification grade 3 (well developed) collaterals. Pericardial fluid was obtained from each patient during the bypass procedure, and the sample was analyzed for angiostatin, plasminogen, and VEGF (Western analysis) and for combined activities of MMP-2 and MMP-9 (zymographic analysis). In patients with no collaterals, angiostatin level was greater compared with that in patients with well-developed collaterals (3.1 +/- 0.2 vs. 2.3 +/- 0.1 optical density units, P < 0.05). Neither MMP activities nor VEGF levels were different between the two groups of patients. The higher levels of angiostatin in patients with no visible collaterals were reflective of a higher concentration of plasmin/plasminogen (6.2 +/- 0.7 vs. 4.2 +/- 0.5 optical density units, P < 0.05) compared with those in patients with well-developed collateral vessels. Our results support the concept that the growth inhibitor angiostatin may have a negative impact on coronary collateral growth in patients. Perhaps therapies attempting to provoke coronary collateral growth should incorporate approaches to limit or neutralize the effects of growth inhibitors.

Oxidative stress in pericardial fluid and plasma and its association with ventricular function

There are no studies evaluating oxidative stress markers both in pericardial fluid and plasma and whether they correlate with cardiac function indexes. The purpose of the study was to investigate whether oxidative stress markers in pericardial fluid and plasma are associated with left ventricular function.

METHODS AND RESULTS

Twenty-eight consecutive patients (class I or II NYHA) scheduled for myocardial revascularization, valve replacement, valve repair or closure of atrial septal defect. Plasma and pericardial fluid were collected and malondialdehyde, catalase, superoxide dismutase and glutathione peroxidase were determined. Left ventricular ejection fraction, left ventricular end diastolic diameter and left ventricular end systolic diameter were determined as echocardiographic indexes of ventricular function. We found that oxidative stress determined by a simple malondialdehyde (MDA) assay, correlated in plasma and pericardial fluid, and this parameter was associated with left ventricular end systolic diameter.

CONCLUSION

Plasma and pericardial fluid malondialdehyde levels can be used as an early marker of ventricular dysfunction.

Biochemical analysis of pleural, peritoneal and pericardial effusions

Body fluids other than blood, urine and cerebrospinal fluid are often submitted for biochemical analysis. Of these, pleural, peritoneal and pericardial fluids are the most common. Laboratory tests are a useful tool to assess the aetiology, pathophysiology and subsequent treatment of effusions. A wide range of biochemical tests may be requested. This review critically examines the various analytes that have been used to investigate these body fluids.

The beta subunit of human chorionic gonadotropin lacks specificity for malignant cells in serous effusions

The cytologic diagnosis of malignancy is frequently straightforward. For difficult cases, multiple immunostains and immunostain panels have been investigated without consensus. beta-human chorionic gonadotropin (hCG) has been reportedly expressed in malignancies, but not in normal tissue. HCG also has been reported as a specific marker of metastases in serous fluids when detected with laboratory assays. We investigated the clinical utility of hCG in this cytologic setting. A total of 97 cases of benign and malignant effusions were studied. Each case was immunostained with monoclonal hCG using the avidin-biotin technique and diaminobenzidine as a chromogen. Additionally, a mucicarmine stain was performed on most cases. Cases were evaluated for hCG expression and mucin in a blinded fashion. After the cases were reviewed, the diagnoses were unblinded and staining patterns were evaluated. Of the 47 benign cases studied, 23 (49%) exhibited immunoreactivity to hCG in at least 5% of mesothelial cells present. In contrast, 28 of 44 (64%) adenocarcionomas exhibited a similar degree of immunostaining. In all, 21 (48%) of the adenocarcinomas were also positive for mucin; five of these mucin-positive cases were negative for hCG. The combination of mucin and hCG detected 33 of 44 (75%) adenocarcinomas. We conclude that hCG lacks the specificity for malignant cells to be of clinical use in effusion cytology.

Concentrations of Hepatocyte Growth Factor, Basic Fibroblast Growth Factor, and Vascular Endothelial Growth Factor in Pericardial Fluid and Plasma

Some angiogenic factors, including hepatocyte growth factor (HGF), basic fibroblast growth factor (bFGF), and vascular endothelial growth factor (VEGF), have been reported to promote angiogenesis and improve myocardial perfusion in experimental models of ischemic heart disease. These factors are produced in various tissues, including myocardium. We measured the concentrations of HGF, bFGF, and VEGF by enzyme-linked immunosorbent assay in plasma and in pericardial fluid sampled during open heart surgery (12 patients with ischemic heart disease and 17 with nonischemic heart disease). HGF levels were significantly higher in plasma than in pericardial fluid (12.0 +/- 1.8 versus 0.26 +/- 0.04 ng/mL, P < 0.0001). On the other hand, bFGF levels were significantly higher in pericardial fluid than in plasma (243.5 +/- 50.9 versus 49.6 +/- 7.8 pg/mL, P = 0.009). VEGF levels were not significantly different between pericardial fluid and plasma (47.2 +/- 17.6 versus 24.5 +/- 3.6 pg/mL, P = 0.23). Concentrations of angiogenic factors in pericardial fluid and in plasma were not significantly different between patients with ischemic and nonischemic heart disease. These results suggest that the production, secretion, and kinetics of HGF, bFGF, and VEGF are different. These angiogenic factors may have different pathophysiologic roles.

Flow cytometry as an adjunct to cytomorphologic analysis of serous effusions

The role of flow cytometry (FC) in the diagnosis of lymphoid lesions by fine-needle aspiration (FNA) is well established. However, studies evaluating the usefulness of FC in serous cavity effusions (SCE) are few. We performed a retrospective review of 115 consecutive SCE with concurrent FC analysis, comparing the provisional cytopathologic diagnosis (PCD), i.e., before the FC results were added, with final diagnoses as modified by subsequent FC immunophenotyping. The predominant clinical indication for the FC analysis was the presence of a spontaneous SCE in a patient with a history of malignant lymphoma. Three- or four-color analysis was performed using antibodies against CD45, CD71, CD33, CD22, CD19, CD20, kappa, lambda, CD5, CD3, and CD56. The PCD was benign in 47%, atypical in 16%, and malignant in 37% of cases. The latter category consisted mostly of malignant lymphoma (n = 32), but also included acute lymphoblastic leukemia (1 case), T-cell lymphoma/leukemia (2 cases), acute myelogenous leukemia (1 case), multiple myeloma (1 case), Hodgkin's lymphoma (1 case), sarcoma (1 case), and adenocarcinoma (4 cases). In 18 cases (16%), the PCD was later modified by the FC results from atypical/suspicious to benign (8) and from benign or atypical/suspicious to malignant (10 cases). The latter group included acute natural killer (NK) cell leukemia (1 case), chronic lymphocytic leukemia (1 case), mantle cell lymphoma (2 cases), follicular lymphoma (3 cases), angioimmunoblastic lymphoma (1 case), large cell lymphoma (1 case), and multiple myeloma (1 case). As expected, FC was noncontributory in cases of Hodgkin's lymphoma and nonlymphoid malignancies. In summary, immunophenotyping by FC modified the PCD significantly in 16% of SCE, permitting appropriate cancer staging and management. The above data underscore the importance of FC as an adjunct to cytomorphology in SCE.

[Changes of prostaglandin E2 levels in periapical exudates after root canal treatment]

OBJECTIVE

The aim of this study was to examine the levels of prostaglandin E2 in periapical exudates before and after root canal treatment.

METHODS

Periapical exudates specimens were quantitatively sampled from root canals of 25 teeth at consecutive treatment visits, and the concentration of prostaglandin E2 in each sample was determined using a commercial kit.

RESULTS

The mean prostaglandin E2 levels significantly decreased after the endodontic therapy. Significant correlations between the levels of prostaglandin E2 and the clinical features of periapical periodontitis were also found in this study.

CONCLUSION

The results suggest that the level of prostaglandin E2 in periapical exudates reflects the state of periapical periodontitis.

The effect of malignant effusions on methotrexate disposition

PURPOSE

The purpose of this study was to evaluate the effect of malignant effusions on the pharmacokinetics of methotrexate (MTX).

METHODS

Simulated drug concentrations in blood, tissues and effusion fluid spaces were generated using a previously published physiologically based pharmacokinetic (PBPK) model for MTX in humans. The model was expanded to incorporate effusion spaces with permeability rate-limited drug transport. The model was used first to simulate MTX plasma concentrations in patients without effusions. Then the effects of cardiac, peritoneal and pleural effusions on MTX plasma concentrations were investigated followed by an examination of the influence of effusion volume, binding in the effusate, and effusion space permeability clearance (PA) on MTX plasma pharmacokinetics. In addition, the effect of the disposition characteristics (e.g. volume of distribution) of the anticancer drug on the overall influence of an effusate was evaluated. Finally, the simulations were compared with MTX concentrations observed in the plasma and pleural fluid of a patient with a pleural effusion treated with MTX.

RESULTS

There was good agreement between the PBPK-simulated MTX plasma concentrations and observed values in patients without effusions. There was also a remarkable similarity between simulated and measured plasma and effusion MTX concentrations in a pediatric patient with a malignant pleural effusion. The physiological characteristics of an effusion, i.e. fluid volume, protein binding and membrane permeability clearance, modulate the influence of an effusion on the drug plasma concentration-time course. In general, effusions cause an increase in the steady-state volume of distribution but no change in the overall clearance of a drug. Malignant effusions were noticeable only in the disposition phase of MTX resulting in an apparent "third space." This was most prominent when the effusion fluid volume was large, the binding of MTX in the effusion fluid was greater than in plasma and the PA value was low. The percentage change in terminal half-life due to an effusion is significant for drugs with small volumes of distribution (332%) but not for those with large volumes of distribution (1.29%). In the case of MTX, and probably other anticancer drugs, the resulting increase in half-life may be associated with unanticipated toxicity.

Locally different role of atrial natriuretic peptide (ANP) in the pericardial fluid

Pericardial fluid (PF) contains several vasoactive agents in higher concentrations than venous plasma (VP). However, with human atrial natriuretic peptide (ANP) controversial data have been reported in earlier studies performed on a limited number of patients (less than 20). The present study was designed to characterize the ANP levels in human PF and cardiac tissues, and to ascertain whether myocardial ischemic state is a major factor in determining ANP production of the human heart. In a total of 316 consecutive patients undergoing open heart surgery ANP levels in VP, PF, atrial and ventricular tissues were measured by radioimmunoassay and analyzed by high-performance liquid chromatography (HPLC). The data are presented as median and 25th-75th percentiles. Our results showed ANP concentration [ANP] of PF significantly exceeded that of VP and [ANP] in the atrial tissue was significantly higher than in the ventricular tissue (p < 0.001). In patients without myocardial ischemia (valvular heart disease) [ANP] in the PF was 258.3 (189.9-342.5) pg/ml, in the VP 28.4 (11.7-57.6) pg/ml and 151.7 (78.4-447.6) ng/mg in the atrial, 0.4 (0.2-1.6) ng/mg in the ventricular tissue. The corresponding values for patients with coronary artery disease were 208.1 (153.8-318.9) pg/ml in the PF, 19.8 (9.4-27.9) pg/ml in the VP, 129.6 (66.5-455.0) ng/mg in the atrial and 1.0 (0.1-1.8) ng/mg in the ventricular tissue. The ventricular tissue levels correlated to the atrial tissue levels (r = 0.317; p < 0.05). Great difference (p < 0.001) was found in the atrial tissue levels between females [414.6 (119.7-734.4) ng/mg] and males [105.4 (65.3-204.2) ng/mg]. In HPLC analysis the majority of the pericardial fluid and tissue ir-ANP coeluted with human ANP [99-126]. In conclusion, [ANP] in PF of cardiosurgical patients is higher by an order of magnitude than in VP. Intrapericardial ANP may reflect the peptide concentration in the myocardial interstitium and may represent a paracrine regulatory mechanism, which seems independent of ANP-induced putative antiischemic influences.

Lymphatic transport of pericardial effusate in sheep

In this report, we quantified fluid loss from the pericardial cavity during simulated saline effusions and determined what proportion of this loss occurred through lymphatics. Fifty or 100 ml of Ringers lactate solution [containing 0.5% sheep albumin and (131)I-human serum albumin (HSA)] was injected into the pericardial cavity of sheep. Pericardial pressures, systemic arterial pressures, and plasma/pericardial fluid concentrations of the radioactive tracer were measured. Lymph transport of pericardial fluid was estimated from the plasma recovery of tracer using a mass balance equation. Plasma recoveries were corrected for tracer loss using a coefficient of elimination calculated from the plasma disappearance curve of intravenously administered (125)I-HSA. Over 4 h, 27.6 +/- 4.9 (+/-SE) and 36.7 +/- 4.2 ml were lost from the pericardial cavity in the 50- and 100-ml effusion series, respectively, of which 5.2 +/- 0.8 (20.2 +/- 3.8% of volume lost) and 7.7 +/- 1.6 ml (21.5 +/- 3.3% of volume lost) could be attributed to lymphatic transport. We conclude that lymphatic transport is one of the factors that contribute to pericardial "reserve" function by helping to restore pericardial fluid volume to resting levels.

Pharmacokinetic advantage of intrapericardially applied substances in the rat

Intrapericardial application of therapeutic agents may open perspectives for target-directed therapy of the diseased heart. This study was performed to investigate whether intrapericardial drug application is beneficial from a pharmacokinetic point of view. Male Wistar rats were provided with intrapericardial and intravascular catheters for substance administration and sampling. Intrapericardial bolus injections of fluorescent macromolecules [fluorescein isothiocyanate (FITC)-rat IgG, molecular weight about 155 kDa; Texas Red rat serum albumin, mol. wt. 67 kDa; Texas Red fibroblast growth factor (FGF), mol. wt. 18 kDa; and FITC heparin, mean mol. wt. 18 kDa] resulted in substance concentrations in pericardial fluid that exceeded those in plasma, for several hours. Pericardial fluid volumes of catheter-instrumented rats, derived from (initial) central compartment volumes, ranged between 0.5 and 0.9 ml/kg. After chronic (7 days) intrapericardial infusions with osmotic minipumps, pericardial fluid/plasma concentration ratios (local advantages) were 7 to 10 for the fluorescent proteins and >30 for FITC-heparin. This can be explained by the low substance clearances in pericardial fluid compared with plasma. Local advantages of the small substances cortisol (mol. wt. = 362.5) and a carbonic acid derivative thereof (mol. wt. = 348) were 14 and 420. Intrapericardial infusion of (125)I-FGF-2 yielded 8 times higher cardiac tissue levels than systemic infusion, whereas (125)I-FGF-2 was found in the entire heart. Pharmacokinetic profiles of intrapericardially applied substances are such that desired local drug concentrations can be obtained at lower dosages, whereas systemic concentrations remain low (thus reducing the potential risk of peripheral side effects). Therefore, intrapericardial application of therapeutic agents provides a promising strategy for site-specific treatment of heart or coronary diseases.

WT1, estrogen receptor, and progesterone receptor as markers for breast or ovarian primary sites in metastatic adenocarcinoma to body fluids

In tissue sections, detection of the Wilms tumor susceptibility gene 1 (WTI) protein, the hormonal receptors for estrogen (ER) and progesterone (PR), and gross cystic disease fluid protein (GCDFP) are useful for diagnosing ovarian and breast adenocarcinomas. We evaluated these markers for cytology cell-block preparations from 96 effusion specimens (metastases from 29 breast, 22 ovarian, and 45 adenocarcinomas from other sites). WTI protein was reactive in 19 cases inetastatic from ovary (86%), 2 from breast (7%), and none from other sites (specificity; 97%). Of the metastatic breast carcinomas, 21(72%) were reactive for ER, 15(52%) for PR, and 13 (45%) for both (combined specificity, 84%). GCDEP was reactive in only 4 breast cancer cases (14%). Ovarian tumors also were frequently positive for ER (19 [86%]), PR (II [SO%]), or both (10 [45%]). WTI protein is an effective marker for ovarian adenocarcinoma, especially in ascites. The detection of ER and PR in metastatic adenocarcinoma from pleural or pericardial efflusions can distinguish breast from lung primary sites. Reactivity for ER and PR did not distinguish between breast and ovarian metastases; however; studies for WTI protein and GCDFP may aid in making this distinction.

Vascular endothelial growth factor concentrations in body cavity effusions in dogs

Vascular endothelial growth factor (VEGF) has potent angiogenic, mitogenic, and vascular permeability enhancing properties specific for endothelial cells. VEGF is present in high concentrations in inflammatory and neoplastic body cavity effusions and has been implicated in the pathogenesis of neoplastic and inflammatory effusion formation. In this study, VEGF was quantitated by solid-phase enzyme-linked immunoadsorbent assay (ELISA) in samples of pericardial, pleural, and peritoneal effusions (N = 38) from dogs (N = 35) with neoplastic and non-neoplastic diseases. VEGF was detected in 37 of 38 effusions (median, 754; range, 18-3,669 pg/mL) and was present in much higher concentrations than in previously established normal concentrations for canine plasma (median, < 1 pg/mL; range, < 1-18 pg/mL) or in those previously noted in the plasma of dogs with hemangiosarcoma (HSA; median, 17 pg/mL; range, < 1-67 pg/mL). In 4 dogs with HSA, the concurrent plasma VEGF concentration was much lower than in the abdominal effusion (P = .029). No significant correlation was demonstrated between VEGF effusion concentration and effusion total protein content or nucleated cell count. Mean VEGF concentrations were significantly higher in pericardial (median, 3,533; range, 709-3,669 pg/mL) and pleural effusions (median, 3,144; range, 0-3,663 pg/mL) compared to peritoneal effusions (median, 288; range, 18-2,607 pg/mL; P < .05). There was no marked difference demonstrated between effusions associated with malignant and nonmalignant diseases. Further studies are necessary to elucidate the role of VEGF in body cavity effusion formation in dogs.

Role of biochemical tests in the diagnosis of large pericardial effusions

STUDY OBJECTIVES

To determine the biochemical characteristics of large pericardial effusions in various disease states, and to assess their utility as diagnostic tools.

SETTING

An academic university hospital in the Western Cape, South Africa.

DESIGN

Consecutive, prospective case series.

PATIENTS

One hundred ten hospital patients > 12 years old, who presented to the echocardiography department with large pericardial effusions, and 12 control subjects who underwent open-heart surgery (coronary artery bypass graft or aortic valve replacement).

MEASUREMENTS

Fluid was sent for examination of biochemistry, adenosine deaminase, microbiology, hematology, and cytology. The etiology of each pericardial fluid sample was established using predetermined criteria.

RESULTS

The biochemistry of pericardial exudates differed significantly from pericardial transudates. Light' s criteria (whereby an exudate is defined as having one or more of the following: pleural fluid/serum protein ratio > 0.5; pleural fluid/serum lactate dehydrogenase [LDH] ratio > 0.6; and/or pleural fluid LDH level > 200 U/L) were applied to pericardial fluids and demonstrated to be the most reliable diagnostic tool for identifying pericardial exudates. The corresponding sensitivity was 98%.

CONCLUSION

Although laboratory tests are a useful guideline when assessing the etiology and pathophysiology of pericardial effusions, the majority of large, clinically significant pericardial effusions result from exudative causes.

Preoperative prediction of pediatric patients with effusions and edema following cardiopulmonary bypass surgery by serological and routine laboratory data

AIM

Postoperative effusions and edema and capillary leak syndrome in children after cardiac surgery with cardiopulmonary bypass constitute considerable clinical problems. Overshooting immune response is held to be the cause. In a prospective study we investigated whether preoperative immune status differences exist in patients at risk for postsurgical effusions and edema, and to what extent these differences permit prediction of the postoperative outcome.

METHODS

One-day preoperative serum levels of immunoglobulins, complement, cytokines and chemokines, soluble adhesion molecules and receptors as well as clinical chemistry parameters such as differential counts, creatinine, blood coagulation status (altogether 56 parameters) were analyzed in peripheral blood samples of 75 children (aged 3-18 years) undergoing cardiopulmonary bypass surgery (29 with postoperative effusions and edema within the first postoperative week).

RESULTS

Preoperative elevation of the serum level of C3 and C5 complement components, tumor necrosis factor-alpha, percentage of leukocytes that are neutrophils, body weight and decreased percentage of lymphocytes (all P < 0.03) occurred in children developing postoperative effusions and edema. While single parameters did not predict individual outcome, >86% of the patients with postoperative effusions and oedema were correctly predicted using two different classification algorithms. Data mining by both methods selected nine partially overlapping parameters. The prediction quality was independent of the congenital heart defect.

CONCLUSION

Indicators of inflammation were selected as risk indicators by explorative data analysis. This suggests that preoperative differences in the immune system and capillary permeability status exist in patients at risk for postoperative effusions. These differences are suitable for preoperative risk assessment and may be used for the benefit of the patient and to improve cost effectiveness.

Preoperative prediction of postoperative edema and effusion in pediatric cardiac surgery by altered antigen expression patterns on granulocytes and monocytes

Postoperative edema and effusion (POEE) following cardiopulmonary bypass (CPB) surgery in children retards recovery and may aggravate postpericardiotomy (PPS), capillary leak syndrome (CLS), or multiorgan failure (MOF). Compared with complication-free children, POEE affected children have different preoperative serum levels of circulating cytokines and adhesion molecules. These levels may be used preoperatively to assess POEE, but their determination is time consuming, costly, and a substantial blood volume is required. Altered serum levels of cytokines and adhesion molecules also may be reflected in altered antigen expression on circulating blood leukocytes. The predictive potential of flow cytometric (FCM) leukocyte immunophenotyping was explored as a sensitive and fast method that required small blood samples. Blood samples taken 24 h preoperatively from 49 patients (3-18 years old) were stained with monoclonal antibodies for adhesion molecules (ICAM-1, LFA-1, Mac-1) or constitutive/activation markers (CD4, CD14, CD16, CD25, CD54, CD69, HLA-DR) and measured on a microbead calibrated FCM. Neutrophils, monocytes, and eosinophils from POEE patients express higher preoperative levels of LFA-1, monocytes, HLA-DR, and other activation markers (all P < 0.03). Over 89% of the patients were classified correctly by using two discriminant analysis methods (sensitivity, >76%; specificity, >86%; positive prediction, >80%; negative prediction, >83%). Granulocytes and monocytes of postoperative POEE patients exhibit significant preoperative immune activation, suggesting an increased risk for patients with atopic/allergic predisposition. Surgical trauma and CPB cause additional immune activation, leading to POEE by a summative response. Most patients at risk for POEE can be identified preoperatively by using data pattern analysis on FCM-derived parameters.

A case of POEMS syndrome with high concentrations of interleukin-6 in pericardial fluid

The POEMS syndrome (plasma cell dyscrasia with polyneuropathy, organomegaly, endocrinopathy of various forms, monoclonal gammopathy, skin changes) is a rare multisystem disorder of unknown pathogenesis. Overexpression of proinflammatory cytokines has been implicated in the pathogenesis of POEMS syndrome, however, it is not known whether there is an association between abnormalities in cytokines and pericardial fluid. We present a case of POEMS syndrome with high concentrations of interleukin-6 (IL-6) in pericardial fluid. In our patient, pericarditis developed into cardiac tamponade, and the concentration of IL-6 in pericardial fluid was remarkably elevated compared with that in serum (1760 vs. 6.57 pg mL(-1)). We suggest that IL-6 is associated with the progression or maintenance of pericarditis as a result of POEMS syndrome.

Pericardial fluid from patients with ischemic heart disease induces myocardial cell apoptotis via an oxidant stress-sensitive p38 mitogen-activated protein kinase pathway

Factors produced by the heart are accumulated at high concentrations in pericardial fluid. We recently reported that pericardial fluid from patients with ischemic heart disease induces apoptosis in an F2 cell line. To characterize factors in pericardial fluid from patients with ischemic heart disease, we investigated signaling pathways by which this pericardial fluid induces apoptosis in cardiac myocytes. Pericardial fluid from patients with ischemic heart disease markedly increased the percentage of TUNEL-positive myocytes compared with fetal bovine serum. Apoptosis was also confirmed by ladder formation and morphologic features. Apoptosis mediated by this pericardial fluid occurs as readily in cardiac myocytes prepared from neonatal mice nullizygous for p53 as in wild-type littermates. This indicates that p53 is not required for this process. We have found that pericardial fluid from ischemic heart disease elicits a robust increase in phosphorylation of p38 mitogen-activated protein kinase. Specific inhibition of the p38 mitogen-activated protein kinase pathway with SB 203580 almost completely blocked apoptosis mediated by pericardial fluid from ischemic heart disease. Activation of p38 mitogen-activated protein kinase is caused by cellular stress, including oxidants. We have also found that anti-oxidant catalase inhibited pericardial fluid-induced activation of p38 mitogen-activated protein kinase and apoptosis. These findings demonstrate that myocardial cell apoptosis induced by pericardial fluid from patients with ischemic heart disease is mediated by an oxidant stress-sensitive p38 mitogen-activated protein kinase pathway. A possible application of SB 203580 to preserve cardiac function in patients with ischemic heart disease should be discussed.

Controlling malignant pericardial effusion by intrapericardial carboplatin administration in patients with primary non-small-cell lung cancer

Malignant pericarditis, when associated with massive pericardial effusion, presents a critical condition in lung cancer patients. Because this condition often arises in terminally ill patients, intensive therapy such as multi-drug combination chemotherapy is rarely appropriate. This study evaluated the clinical relevance of intrapericardial administration of carboplatin for controlling malignant pericardial effusions associated with non-small-cell lung carcinoma (NSCLC). The method used for 10 eligible patients consisted of draining the pericardial effusion and infusing 300 mg/body of carboplatin in 50 ml of saline through an in-place catheter into the pericardial space and clamping the catheter for 40 min. Nine of the 10 patients showed satisfactory results, and 8 experienced complete regression of the effusion. No major or minor adverse effects were observed. Pharmacokinetics analysis revealed that the concentration of free platinum in the pericardial fluid was very high while that of total platinum in the circulating plasma was very low, assuring the usefulness of the intrapericardial instillation of carboplatin in terminally ill patients for controlling malignant pericardial effusion when the systemic delivery of cytotoxic agents is inappropriate.

Cytology and flow cytometry of malignant effusions of multiple myeloma

Identifying malignant plasma cells in body fluids from multiple myeloma patients is important for therapeutic and prognostic considerations. This can be difficult when plasma cells are mature in appearance or low in number. We examined the cytological and flow cytometric findings of myelomatous pleural and pericardial effusions from 8 patients with advanced multiple myeloma. Cytoplasmic immunoglobulin light chain excess vs. DNA ploidy in the plasma-cell population was evaluated by flow cytometry (FCM). The cytology smears of one pericardial and 14 pleural effusions from the 8 patients were reviewed. Screening Papanicolaou-stained smears facilitated the detection of malignant nuclear features; however, morphology of plasma cells was best seen in Diff-Quik-stained smears. Low cellularity and inadequate air-drying of smears accounted for the false-negative cytology seen in two fluids from a single patient. A malignant plasma cell population was identified in 9 of 10 fluids submitted for FCM, including the two fluids with negative cytology. The false-negative FCM was from a suboptimal specimen with high background staining. Six fluids had an aneuploid DNA content, and four were diploid. A combination of Papanicolaou- and Diff-Quik-stained smears is recommended for the evaluation of plasma cells in effusions from patients with multiple myeloma. Cytology and flow cytometry confirmed malignancy in 87% and 90% of fluids evaluated, respectively; all cases were diagnosed by either one or both methods. Our results suggest that FCM and cytology of serous effusions in multiple myeloma patients are complementary and should be used in difficult cases. Diagn. Cytopathol. 2000;22:147-151.

Mesothelial hyperplasia with reactive atypia: diagnostic pitfalls and role of immunohistochemical studies-a case report

The cytomorphologic features of highly reactive mesothelial cells can be difficult to distinguish from malignant cells. We report on an unusual case of mesothelial hyperplasia in a pericardial effusion. The specimen contained bizarre-shaped cells and large tissue fragments in a patient with a history of lung carcinoma. The atypical cells were negative for CEA and LeuM-1 and positive for cytokeratins (AE1/3) and HBME-1. Strong HBME-1 positivity supported a mesothelial origin of the atypical cells and led to the diagnosis of reactive mesothelium. While HBME-1 cannot be used as the sole marker to establish an mesothelial origin; its use in a immunohistochemistry panel may be useful in individual cases to distinguish reactive mesothelial cells from carcinoma in effusion cytology. Diagn. Cytopathol. 2000;22:113-116.

Enhanced accumulation of pericardial fluid adenosine and inosine in patients with coronary artery disease

Adenosine and inosine are believed to have cardioprotective effects. However, little is known about their possible role in the metabolic autoregulation of human coronaries and in pathologic conditions with supply/demand imbalance of the heart such as coronary artery disease. Since these low molecular weight nucleosides freely diffuse through the monolayer of the visceral pericardium, adenosine and inosine concentrations in pericardial fluid may well reflect the conditions in cardiac interstitium. The pericardial fluid and systemic venous blood adenosine and inosine concentrations were measured in 98 human subjects undergoing heart surgery for coronary artery disease or valvular heart disease. Adenosine and inosine concentrations were measured by HPLC with UV detection. In subjects with coronary artery disease pericardial fluid nucleoside concentrations were significantly higher than in patients with valvular heart disease (adenosine: 1545 (996-3146) nmol/L [median (25th-75th quartiles)] vs. 738 (390-2527) nmol/L, P<0.01; inosine: 658 (321-1331) nmol/L vs. 347 (159-1037) nmol/L, P<0.05), while in both patient groups pericardial fluid nucleoside concentrations were higher by an order of magnitude than in venous plasma. Our results show the enhanced release of adenosine and inosine by the ischemic myocardium as a marker of supply/demand imbalance and support the hypothesis that these cardiac nucleosides may have an important role in the adaptation of coronary blood flow in human coronary artery disease.

Detection of cancer cells in effusions from patients diagnosed with gynaecological malignancies. Evaluation of five epithelial markers

The detection of malignant cells in pleural, peritoneal, and pericardial fluids of cancer patients marks the presence of metastatic disease and is associated with a grave prognosis. We evaluated five epithelial markers for the detection of cancer cells in 94 fresh pleural, peritoneal and pericardial effusions. Eighty-four of the samples were regarded as adequate for analysis after evaluation of cytological smears, including 61 samples from patients known to have gynaecological neoplasms. The other 23 samples were from patients with various non-gynaecological malignancies or tumours of unknown origin. Our control cases were 10 fallopian tubes not affected by any malignancy and 12 malignant mesotheliomas. Cell blocks from all cases were stained for CA-125, BerEP4, carcinoembryonic antigen (CEA), BG8 (Lewis Y blood antigen), and B72.3 (TAG-72). Fifty-one of 84 cases were diagnosed as malignant or suggestive of malignancy in cytological smears and/or cell block sections. However, staining for epithelial markers highlighted the presence of malignant cells in 7 additional cases. When membrane staining was evaluated, the sensitivity of the markers studied in detecting malignant cells was as follows: CA-125: 88%, BerEP4: 78%, CEA: 26%, BG8: 86%, B72.3: 79%. Membrane positivity for CEA, B72.3 and BerEP4 was not detected in reactive mesothelial cells. However, membranous staining in mesothelial cells was evident in 13% and 31% of cases with the use of BG8 and CA-125, respectively. Weak cytoplasmic staining for CEA was observed in mesothelial cells in 2 cases. When Ber-EP4, B72.3, and BG8 staining results in cancer cells were combined, the following sensitivity levels were observed: BG8+B72.3: 91%; BG8+Ber-EP4: 90%; B72.3+Ber-EP4: 93%; BG8+Ber-EP4+B72.3: 95%. The detection of malignant cells in effusions is facilitated by the use of immunocytochemistry using a wide panel of antibodies. BerEP4 and B72.3 appear to be the best markers when both sensitivity and specificity are considered, followed by BG8, while CEA and CA-125 have a limited role in the detection of metastases from gynaecological tumours owing to the low sensitivity of the former and the low specificity of the latter. Analysis of all staining results should be based on a thorough morphological examination.

Development of enzyme-linked immunosorbent assay for acidic fibroblast growth factor and its clinical application

We have developed, for the first time, an enzyme-linked immunosorbent assay (ELISA) system for the measurement of human acidic fibroblast growth factor (aFGF). Anti-bovine aFGF rabbit IgG was conjugated with N-hydroxysuccimidobiotin, and the resulting IgG-biotin conjugate was used as the second antibody. This assay was highly specific and reproducible, enabling us to detect aFGF at a concentration as low as 1 microg/l without any prior processing of samples. With this method, it was possible to determine human aFGF up to 833 x 10(3) ng/l, with the use of anti-bovine aFGF IgG as the first and second antibody. There was no significant cross-reactivity of the antibody with other growth factors, such as basic fibroblast growth factor (bFGF) and vascular endothelial growth factor (VEGF). The aFGF concentration in pericardial fluid was significantly higher in patients with unstable angina than in those with other heart diseases, suggesting that the aFGF plays an important role(s) in the course of collateral growth in coronary artery disease. Therefore, our ELISA system may be useful in determining unknown biological function(s) or pathological role(s) of aFGF in various disease entities.

Catecholamines in pericardial fluid of normotensive, spontaneously hypertensive and reserpine-treated rats

In this study our aims were to investigate the presence and source of catecholamines in pericardial fluid of normotensive, reserpine-treated and spontaneously hypertensive rats. We found that noradrenaline is the only detectable catecholamine present in rat pericardial fluid. The effect of reserpine 6, 12, and 214 h after pre-treatment with 5 mg kg(-1) (8.2 micromol kg(-1)) i.p. shows that the concentration of noradrenaline in pericardial fluid reflects the amount of noradrenaline released within the heart rather than the amount of noradrenaline in plasma. Using spontaneously hypertensive rats (SHR) as a model for primary hypertension we could show that the level of pericardial noradrenaline is approximately threefold in the pericardial fluid of the SHRs when compared to respective values of age-matched normotensive Wistar-Kyoto rats (WKY), suggesting that there was an increased noradrenaline overflow in the hearts of the SHRs. In conclusion, determination of the noradrenaline concentration in the pericardial fluid might provide a new method for estimating the release of noradrenaline in the heart.

Distribution of biochemical markers in biologic fluids: application to the postmortem diagnosis of myocardial infarction

We evaluated the usefulness of postmortem determination of biochemical markers and the ratio of their concentrations in pericardial fluid and serum to diagnose acute myocardial necrosis. One hundred cadavers from routine necropsies were studied. Cases were allocated in diagnostic groups according to the cause of death. Myoglobin and myosin heavy chain concentrations and creatine kinase MB isoenzymes (CK-MB) activities were measured in serum and pericardial fluid. Ratios of the concentrations obtained in these fluids were calculated. Hematoxylin and eosin (H&E) and acridine orange stains were used for microscopy studies. Pericardial fluid-serum ratios of the concentrations of biochemical markers were significantly different. The ratio of the concentrations of myosin is the best indicator of wide-spread muscle damage or cardiac necrosis.