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Current Treatment Options in Oncology Oct 2002Pericardial mesothelioma is a rare cancer for which treatment options are limited. Operative intervention in pericardial mesothelioma is primarily for effusion control,... (Review)
Review
Pericardial mesothelioma is a rare cancer for which treatment options are limited. Operative intervention in pericardial mesothelioma is primarily for effusion control, for cytoreduction before multimodal therapy, or to deliver and monitor innovative intrapericardial therapies. Misdiagnosis is common. Early detection of the disease is the only hope for survival. Echocardiography, pathologic examination of pericardial fluid and pericardial biopsy, Gallium-67 scintigraph, Ber-EP4 antibody, and immunohistochemical procedures can be used. Magnetic resonance imaging is emerging as the best modality for demonstrating the nature and extent of the constrictive process, and the infiltration to the cardiac wall and great vessels. Failure of surgical techniques is usually associated with mesothelioma with entrapped heart, a large solid tumor mass, and a long history of pericardial effusion. If the tumor is localized, resection is the only hope for this rare, but lethal, entity. No single treatment modality is efficient by itself. The exact role of intracavitary chemotherapy or irradiation remains to be defined. Preliminary clinical application of photodynamic therapy and attempts at inhibiting the effects of growth factors, such as vascular endothelial growth factor and platelet-derived growth factor, and vaccine treatments are being explored. Adenoviral molecular chemotherapy recently completed phase I testing. Clinical trials for pleural mesothelioma remain important as clinicians seek to improve the outcome for patients with pericardial mesothelioma. Early diagnosis and multidisciplinary patient care is essential for improved surgical outcome. In the future, combined therapeutic strategies involving radical surgery, radiotherapy, adjuvant chemotherapy, and immunomodulation may have a role in the treatment of pericardial mesotheliomas.
Topics: Heart Neoplasms; Humans; Mesothelioma; Pericardium; Time Factors
PubMed: 12194802
DOI: 10.1007/s11864-002-0002-7 -
Brazilian Journal of Cardiovascular... May 2022Epicardial cysts are rarer benign tumors than pericardial cysts. There have been few reports on surgical management of epicardial cysts. A 17-year-old normotensive boy...
Epicardial cysts are rarer benign tumors than pericardial cysts. There have been few reports on surgical management of epicardial cysts. A 17-year-old normotensive boy presented with chest pain and palpitations, which on evaluation was found to be a mediastinal mass (pericardial cyst). Surgical resection of the cyst via thoracotomy was planned. The cyst was diagnosed as an epicardial cyst intraoperatively. However, due to the epicardial origin of cyst and posterior adhesions, resection was done via midline approach. The base was formed by visceral pericardium and eroding into myocardium of left ventricle, so the resection was concluded with on-pump surgery. In case of erroneous diagnosis or undesirable finding, a safer midline approach with on-pump surgery, as an alternative to minimally invasive approach for complicated epicardial cysts (erosion into ventricle/lying in close proximity to important structures or near to coronary arteries) should be considered.
Topics: Adolescent; Chest Pain; Heart Ventricles; Humans; Male; Mediastinal Cyst; Pericardium; Thoracotomy
PubMed: 35503701
DOI: 10.21470/1678-9741-2020-0623 -
Magnetic Resonance Imaging Clinics of... Feb 2015Abnormal thickening or rigidity of the pericardium may compromise normal cardiac function. This condition is known as pericardial constriction, or constrictive... (Review)
Review
Abnormal thickening or rigidity of the pericardium may compromise normal cardiac function. This condition is known as pericardial constriction, or constrictive pericarditis. Several imaging modalities are used to evaluate the pericardium, including MR, computed tomography, and echocardiography, which can all play a complementary role aiding diagnosis. This article focuses on MR imaging and its role in the detection and evaluation of pericardial constriction. MR imaging has many advantages compared with other modalities including precise delineation of the pericardial thickness, evaluation of ventricular function, detection of wall motion abnormalities, and provision of information about common (and potentially harmful) sequelae of pericardial constriction.
Topics: Humans; Image Enhancement; Magnetic Resonance Imaging; Pericarditis, Constrictive; Pericardium; Reproducibility of Results; Sensitivity and Specificity
PubMed: 25476676
DOI: 10.1016/j.mric.2014.09.003 -
Heart Failure Reviews May 2013Although echocardiography remains the standard diagnostic tool for identifying pericardial diseases, procedures with better delineation of morphology and heart function... (Review)
Review
Although echocardiography remains the standard diagnostic tool for identifying pericardial diseases, procedures with better delineation of morphology and heart function are often required. The pericardium consists of an inner visceral (epicardium) and outer parietal layer (pericardium), which constitute for the pericardial cavity. Pericardial effusion can occur as transudate, exudate, pyopneumopericardium, or hemopericardium. Potential causes are inflammatory processes, that is, pericarditis due to autoimmune or infective reasons, neoplasms, irradiation, or systemic disorders, chronic renal failure, endocrine, or metabolic diseases. Pericardial fat can mimic pericardial effusion. Using various image-acquisition sequences, MRI allows identifying and separating fluid and solid structures. Fast spin-echo T1-weighted sequences with black-blood preparation are favourably used for morphological evaluation. Fast spin-echo T2-weighted sequences, particularly with fat saturation, and short-tau inversion-recovery sequences are useful to visualize oedema and inflammation. For further tissue characterization, delayed inversion-recovery imaging is used. Therefore, image acquisition is performed at 5-20 min subsequent to contrast agent administration, the so-called technique of late gadolinium enhancement. Ventricular volumes and myocardial mass can be assessed accurately by steady-state free-precession sequences, which is required to measure cardiac function and ventricular wall stress. Constrictive pericarditis usually results from chronic inflammatory processes leading to increased stiffness, which impedes the slippage of both pericardial layers and thereby the normal cardiac filling. CT imaging can favourably assess pericardial calcification. Thus, MR and CT imaging allow a comprehensive delineation of the pericardium. Superior to echocardiography, both methods provide a larger field of view and depiction of the complete chest including abnormalities of the surrounding mediastinum and lungs. PET provides unique information on the in vivo metabolism of 18-fluorodeoxyglucose that can be superimposed on CT findings and is useful for identifying inflammatory processes or masses, for example neoplasms. These imaging techniques provide advanced information of anatomy and cardiac function to optimize the pericardial access, for example by the AttachLifter system, for diagnosis and treatment.
Topics: Contrast Media; Diagnosis, Differential; Exudates and Transudates; Gadolinium; Heart Diseases; Humans; Inflammation; Magnetic Resonance Imaging; Pericardiocentesis; Pericardium; Positron-Emission Tomography; Severity of Illness Index; Tomography, X-Ray Computed
PubMed: 22446985
DOI: 10.1007/s10741-012-9309-z -
Journal of Biomaterials Applications Feb 2019The stability and bioactivity of biologic implants rely mainly on the control of the crosslinking process of collagen. However, the most common methods have no control...
The stability and bioactivity of biologic implants rely mainly on the control of the crosslinking process of collagen. However, the most common methods have no control on the crosslinking degree producing it excessively. This study outlines the role of crosslinking of collagen-based implants with oligourethane on the host response following reconstruction of a rat full-thickness abdominal wall defect. We decellularized and crosslinked bovine pericardial tissue to achieve two crosslinking degrees. For the decellularized implants, named as non-crosslinked (N-CL), the collagen-amines were 0.42 ± 0.02 mmol/mg. Crosslinking by the oligourethane reduced the primary amine concentration to 0.28 ± 0.01 and 0.19 ± 0.01 mmol/mg; these values were classified as low (∼30%, L-CL) and medium crosslinking (∼50%, M-CL), respectively. By imaging the implants using second harmonic generation microscopy, we observed undulated bundles of collagen fibers organized in multi-directed layers localized in N-CL and L-CL samples. Post-implantation, a negligible change in the organization of collagen fibers in the crosslinked implants was observed, suggesting that the in vivo biodegradation was delayed. An enlargement of the implant area was also observed, without rupture, in all three (N-CL, L-CL, M-CL) materials, whereas adhesion to the omentum, but not to the bowel, was observed. The number of blood vessels after 90-day implantation in N-CL and L-CL was 13 ± 1 and 12 ± 1 per field, respectively, while the number significantly decreased to 2 ± 1 in M-CL. The results suggest that the controlled degree of crosslinking in oligourethane-modified biologic implants can be used as a strategy to balance biodegradation and remodeling in surgical repair of soft tissues.
Topics: Abdominal Wall; Animals; Biocompatible Materials; Bioprosthesis; Cattle; Collagen; Cross-Linking Reagents; Male; Pericardium; Rats; Rats, Wistar; Plastic Surgery Procedures; Tensile Strength; Urethane
PubMed: 30526211
DOI: 10.1177/0885328218817890 -
The Thoracic and Cardiovascular Surgeon Dec 1999Ten patients with congenital defects of the pericardium were treated in Departments of Cardiac Surgery, Silesian School of Medicine in Zabrze and Katowice between 1989... (Review)
Review
Ten patients with congenital defects of the pericardium were treated in Departments of Cardiac Surgery, Silesian School of Medicine in Zabrze and Katowice between 1989 and 1998. There were eight children and two adults, eight males and two females. In each case the pericardial defect was discovered intraoperatively during surgery for congenital heart defect. There were no cases with clinical symptoms that could be clearly related to the defect of the pericardial sac. In the case of a child with a complete absence of the left pericardial wall the heart was significantly rotated contrary to the defect. The final outcome of the congenital heart defect surgery was satisfactory in each case. An abbreviated historical review of the diagnosis and treatment of the pericardial defects is presented with special attention placed on therapeutic management. Surgical correction of pericardial defects is concluded to be justified in patients with clinical symptoms. In most cases pericardial defects are discovered intraoperatively, but when they are large the said defects do not require any treatment.
Topics: Adult; Child; Female; Heart Defects, Congenital; Humans; Male; Pericardium
PubMed: 10670804
DOI: 10.1055/s-2007-1013186 -
Journal of Cardiovascular... Jun 2020
Topics: Atrial Fibrillation; Catheter Ablation; Humans; Pericardium; Pulmonary Veins
PubMed: 32202011
DOI: 10.1111/jce.14453 -
Advances in Anatomic Pathology Jul 2023Malignant mesothelioma is a rare tumor arising from the mesothelial cells that line the pleura, pericardium, peritoneum, and tunica vaginalis. Imaging plays a primary...
Malignant mesothelioma is a rare tumor arising from the mesothelial cells that line the pleura, pericardium, peritoneum, and tunica vaginalis. Imaging plays a primary role in the diagnosis, staging, and management of malignant mesothelioma. Multimodality imaging, including radiography, computed tomography (CT), magnetic resonance imaging (MRI), and F-18 fluorodeoxyglucose positron emission tomography/computed tomography (FDG PET/CT), is used in a variety of scenarios, including diagnosis, guidance for tissue sampling, staging, and reassessment of disease after therapy. CT is the primary imaging modality used in staging. MRI has superior contrast resolution compared with CT and can add value in terms of determining surgical resectability in equivocal cases. MRI can further assess the degree of local invasion, particularly into the mediastinum, chest wall, and diaphragm, for malignant pleural and pericardial mesotheliomas. FDG PET/CT plays a role in the diagnosis and staging of malignant pleural mesothelioma (MPM) and has been shown to be more accurate than CT, MRI, and PET alone in the staging of malignant pleural mesothelioma. PET/CT can also be used to target lesions for biopsy and to assess prognosis, treatment response, and tumor recurrence.
Topics: Humans; Mesothelioma, Malignant; Positron Emission Tomography Computed Tomography; Fluorodeoxyglucose F18; Pleura; Pleural Neoplasms; Neoplasm Staging; Mesothelioma; Pericardium
PubMed: 36395181
DOI: 10.1097/PAP.0000000000000386 -
Journal of the American Society of... Jun 2022Pericardial fat has been associated with adverse cardiovascular outcomes through adiposity-associated inflammation and insulin resistance, which in turn are linked to...
BACKGROUND
Pericardial fat has been associated with adverse cardiovascular outcomes through adiposity-associated inflammation and insulin resistance, which in turn are linked to cardiac dysfunction. We sought to evaluate the association between pericardial fat volume and cardiac structure and function in adults without baseline cardiovascular disease.
METHODS
We analyzed data from the Multi-Ethnic Study of Atherosclerosis. Linear regression was used to examine the association between pericardial fat volume (by cardiac computed tomography during exam 1, 2000-2002) and cardiac function by echocardiography, six-minute walk distance (6MWD), and symptom severity as assessed using the Kansas City Cardiomyopathy Questionnaire-12 (exam 6, 2016-18).
RESULTS
Among 3,032 participants, each 1 SD (39.3 cm) increase in pericardial fat volume was associated with lower (worse) absolute left atrial reservoir strain (β = -0.98%; 95% CI, -1.29, -0.68; P < .001), right ventricular free wall strain (β = -0.75%; 95% CI, -1.00, -0.51; P < .001), and right atrial reservoir strain (β = -0.59%; 95% CI, -1.00, -0.19; P < .01) after adjustment for potential confounders. Greater pericardial fat volume was associated with lower 6MWDs (β = -5.70 m; 95% CI, -10.34, -1.06; P = .02) but not with Kansas City Cardiomyopathy Questionnaire-12 scores or N-terminal pro b-type natriuretic peptide after multivariable adjustment.
CONCLUSIONS
In a population-based cohort of adults, pericardial fat volume was independently associated with subclinical atrial and right ventricular dysfunction and reduced 6MWD. These distinct changes in cardiac structure and function suggest a potential mechanistic role for pericardial fat in early heart failure.
Topics: Adipose Tissue; Adiposity; Adult; Atherosclerosis; Cardiomyopathies; Humans; Pericardium
PubMed: 35063614
DOI: 10.1016/j.echo.2022.01.005 -
Scientific Reports Apr 2022The identification of the fibrotic arrhythmogenic substrate as a means of improving the diagnosis and prediction of atrial fibrillation has been a focus of research for...
The identification of the fibrotic arrhythmogenic substrate as a means of improving the diagnosis and prediction of atrial fibrillation has been a focus of research for many years. The relationship between the degree of atrial fibrosis as a major component of atrial cardiomyopathy and the recurrence of arrhythmia after AF ablation can correlate. While the focus in identification and characterisation of this substrate has been centred on the atrial wall and the evaluation of atrial scar and extracellular matrix (ECM) expansion by late gadolinium-enhancement (LGE) on cardiac magnetic resonance imaging (CMRI), LGE cannot visualise diffuse fibrosis and diffuse extravasation of gadolinium. The atrial pericardium is a fine avascular fibrous membranous sac that encloses the atrial wall, which can undergo remodelling leading to atrial disease and AF. Nevertheless, little attention has been given to the detection of its fibrocalcification, impact on arrhythmogenesis and, most importantly, on the potential prothrombotic role of epi-pericardial remodelling in generation of emboli. We have recently reported that tracers against collagen I and IV can provide a direct assessment of the ECM, and thus can estimate fibrotic burden with high sensitivity. Here, we show the ability of these optical tracers to identify epi-pericardial fibrosis, as well as to demonstrate subtle interstitial fibrosis of the atrial wall in a mouse model of beta-2-adrenergic receptor (β-AR) cardiac overexpression.
Topics: Animals; Atrial Fibrillation; Catheter Ablation; Collagen; Contrast Media; Fibrosis; Gadolinium; Heart Atria; Magnetic Resonance Imaging; Mice; Pericardium
PubMed: 35383230
DOI: 10.1038/s41598-022-08688-x