Constrictive pericarditis after cardiac surgery

Coronary artery bypass grafting for triple vessel disease in cardiac amyloidosis

Cardiac amyloidosis is a rare condition with an estimated incidence of 18-55 per 100 000 person-years. It is associated with either immunoglobulin light chain (AL) or transthyretin amyloid (ATTR), both of which result in a restrictive cardiomyopathy complicated initially by diastolic dysfunction and subsequently followed by biventricular systolic heart failure. Untreated cardiac amyloidosis carries an extremely poor prognosis with an estimated median survival time of less than 1 year in AL and 4 years in ATTR amyloidosis. This is the sixth described report of coronary artery bypass grafting in patients with underlying cardiac amyloidosis.

Postpericardiotomy syndrome after cardiac surgery

Postpericardiotomy syndrome (PPS) is a well-known complication after cardiac surgery. The syndrome results in prolonged hospital stay, readmissions, and invasive interventions. Previous studies have reported inconsistent results concerning the incidence and risk factors for PPS due to the differences in the applied diagnostic criteria, study designs, patient populations, and procedure types. In recent prospective studies the reported incidences have been between 21 and 29% in adult cardiac surgery patients. However, it has been stated that most of the included diagnoses in the aforementioned studies would be clinically irrelevant. This challenges the specificity and usability of the currently recommended diagnostic criteria for PPS. Moreover, recent evidence suggests that PPS requiring invasive intervention such as the evacuation of pleural and/or pericardial effusion is associated with increased mortality. In the present review, we summarise the existing literature concerning the incidence, clinical features, diagnostic criteria, risk factors, management, and prognosis of PPS. We also propose novel approaches regarding to the definition and diagnosis of PPS. Key messages: Current diagnostic criteria of PPS should be reconsidered, and the analyses should be divided into subgroups according to the severity of the syndrome to achieve more clinically applicable and meaningful results in the future studies. In contrast with the previous presumption, severe PPS - defined as PPS requiring invasive interventions - was recently found to be associated with higher all-cause mortality during the first two years after cardiac surgery. The association with an increased mortality supports the use of relatively aggressive prophylactic methods to prevent PPS. The risk factors clearly increasing the occurrence of PPS are younger age, pleural incision, and valve and ascending aortic procedures when compared to CABG.

Constrictive pericarditis decades after aortic valve repair

Constrictive pericarditis is rare after cardiac surgery, with a time to presentation ranging from 82 days to 204 months. We report a 75-year-old man who underwent aortic valve replacement and developed constrictive pericarditis 21 years later. He underwent a pericardiectomy with pericardial stripping, which confirmed constrictive pericarditis and improved his symptoms.

Constrictive Pericarditis in the Presence of Remaining Remnants of a Left Ventricular Assist Device in a Heart Transplanted Patient

Constrictive pericarditis (CP) is a severe subform of pericarditis with various causes and clinical findings. Here, we present the unique case of CP in the presence of remaining remnants of a left ventricular assist device (LVAD) in a heart transplanted patient. A 63-year-old man presented at the Heidelberg Heart Center outpatient clinic with progressive dyspnea, fatigue, and loss of physical capacity. Heart transplantation (HTX) was performed at another heart center four years ago and postoperative clinical course was unremarkable so far. Pharmacological cardiac magnetic resonance imaging (MRI) stress test was performed to exclude coronary ischemia. The test was negative but, accidentally, a foreign body located in the epicardial adipose tissue was found. The foreign body was identified as the inflow pump connection of an LVAD which was left behind after HTX. Echocardiography and cardiac catheterization confirmed the diagnosis of CP. Surgical removal was performed and the epicardial tubular structure with a diameter of 30 mm was carefully removed accompanied by pericardiectomy. No postoperative complications occurred and the patient recovered uneventfully with a rapid improvement of symptoms. On follow-up 3 and 6 months later, the patient reported about a stable clinical course with improved physical capacity and absence of dyspnea.

Constrictive pericarditis--a curable diastolic heart failure

Constrictive pericarditis can result from a stiff pericardium that prevents satisfactory diastolic filling. The distinction between constrictive pericarditis and other causes of heart failure, such as restrictive cardiomyopathy, is important because pericardiectomy can cure constrictive pericarditis. Diagnosis of constrictive pericarditis is based on characteristic haemodynamic and anatomical features determined using echocardiography, cardiac catheterization, cardiac MRI, and CT. The Mayo Clinic echocardiography and cardiac catheterization haemodynamic diagnostic criteria for constrictive pericarditis are based on the unique features of ventricular interdependence and dissociation of intrathoracic and intracardiac pressures seen when the pericardium is constricted. A complete pericardiectomy can restore satisfactory diastolic filling by removing the constrictive pericardium in patients with constrictive pericarditis. However, if inflammation of the pericardium is the predominant constrictive mechanism, anti-inflammatory therapy might alleviate this transient condition without a need for surgery. Early diagnosis of constrictive pericarditis is, therefore, of paramount clinical importance. An improved understanding of how constrictive pericarditis develops after an initiating event is critical to prevent this diastolic heart failure. In this Review, we discuss the aetiology, pathophysiology, and diagnosis of constrictive pericarditis, with a specific emphasis on how to differentiate this disease from conditions with similar clinical presentations.

The role of multidetector computed tomography coronary angiography in imaging complications post-cardiac surgery

There have been numerous advances in the field of cardiac imaging. The advent of multidetector computed tomography coronary angiography (MDCT-CA) and in particular electrocardiographic (ECG)-gated acquisition has revolutionized the investigation of the complete spectrum of complications of common cardiothoracic surgical procedures. Generic complications, such as mediastinitis, pericardial effusion, sternal osteomyelitis, and mediastinal fibrosis, are discussed with illustrative examples of multiplanar and volume-rendered three-dimensional reconstructions. Graft-related complications of both coronary artery bypass grafts and aortic root grafts are reviewed. The role of MDCT-CA in the investigation of prosthetic valve endocarditis and root abscesses is outlined. We present a complete illustration of the detailed images that are obtained when investigating a full range of graft-related complications from both aortic and coronary surgery using ECG-gated MDCT-CA. MDCT-CA has the potential to become established as the optimal technique with which to image a multitude of complications post-cardiac surgery.

Constrictive pericarditis following coronary artery bypass grafting

Constrictive pericarditis following Coronary Artery Bypass Surgery is an uncommon disorder. We report a patient who developed constrictive pericarditis after Coronary Artery Bypass Grafting. After an unsuccessful trial of medical management and pericardial tapping, he underwent pericardiectomy via a left posterolateral thoracotomy.

Constrictive pericarditis after lung transplantation: an under-recognized complication

Primary graft dysfunction, acute rejection, and infection account for most of the early morbidity after lung transplantation, with bronchiolitis obliterans syndrome accounting for most late morbidity. Mediastinal and pericardial complications, in the form of constriction, are not common. We present 4 patients with constrictive pericarditis after lung transplantation and recommend that constrictive pericarditis be considered in the differential diagnosis in lung transplant recipients who present with signs and symptoms of systemic and pulmonary venous congestion.

Constrictive pericarditis after coronary artery bypass surgery as a cause of unexplained dyspnea: a report of five cases

Constrictive pericarditis after coronary artery bypass grafting (CABG) is rare and can present as unexplained dyspnea. We report five consecutive cases of post-CABG constrictive pericarditis seen within a period of 17 months at our institution. All patients presented with heart failure of unknown etiology within a period of 8-84 months after surgery. During the initial post-CABG period, two patients had developed postcardiotomy syndrome that was successfully treated with steroids. They were all assessed noninvasively and invasively. In all patients, the diagnosis of constriction was initially suspected clinically (symptoms, high jugular venous pressure with deep "X" and "Y" descents, pericardial knock). Echocardiography showed transmitral flow typical of constriction in all patients and hepatic venous flow in two. Two patients showed rapid left ventricular relaxation. In all patients, hemodynamic assessment showed diastolic equalization of pressures in all chambers, "W" shape waveform in right atrial pressure, and "dip and plateau" configuration in right and left ventricular pressure waveforms. Diagnosis was confirmed surgically in four patients who were subjected to pericardiectomy-pericardial stripping (three survived, one died). One patient refused surgery. We conclude that constrictive pericarditis, although rare, should be suspected in every case of unexplained dyspnea post CABG. It can appear early or late after surgery, and clinical examination plays an important role in its early recognition. It requires a full noninvasive and invasive assessment in case of clinical suspicion.

Extensive cardiac allograft vasculitis and concurrent fat necrosis 6 years after orthotopic heart transplantation

Coronary artery vasculitis has been described as a rare lesion in the spectrum of transplant vasculopathy or as an extension of severe acute cellular rejection. We describe a patient, 6 years after orthotopic cardiac transplantation, who developed rapid heart failure and died despite aggressive treatment, minimal cardiac rejection (ISHLT Grade 1R), and no known transplant vasculopathy. Autopsy showed a diffuse and essentially complete necrotizing vasculitis of the entire coronary vasculature involving small, medium and large vessels, with extensive fat necrosis within the pericardial space. Macrophages of the M2 phenotype were found lining the major coronary vascular lumens and infiltrating their walls. The presence of the M2 macrophage phenotype supports transplant vasculitis as part of the chronic transplant vasculopathy continuum.

Is new ST-segment elevation after coronary artery bypass of clinical importance in the absence of perioperative myocardial infarction?

OBJECTIVE

To determine the frequency and significance of new ST-segment elevation during the early postoperative period after coronary artery bypass grafting (CABG) in patients without enzymatic or electrocardiogram evidence of perioperative myocardial infarction (MI).

METHODS

Pre- and early postoperative electrocardiograms were reviewed in 506 patients undergoing CABG in whom MI was excluded by the absence of new Q waves or left bundle branch block and a peak postoperative troponin I less than 10 ng/mL.

RESULTS

New ST-segment elevation of 0.1 mV or greater was observed in 64 patients (12.6%). Patients with and without ST-segment elevation did not differ with regard to age, prior coronary artery bypass, number of grafts, use of the internal mammary artery, incidence of postoperative atrial fibrillation, length of stay in the intensive care unit, duration of hospitalization, or 30-day mortality.

CONCLUSIONS

ST-segment elevation not due to perioperative MI is common after CABG but is not associated with increased postoperative morbidity or mortality.

The Spectrum of Pleural Effusions After Coronary Artery Bypass Grafting Surgery

Pleural effusions are common after coronary artery bypass grafting (CABG) surgery and can be categorized by time intervals: perioperative (within the first week), early (within 1 month), late (2-12 months), or persistent (after 6 months). The perioperative effusions are usually attributable to diaphragm dysfunction or internal mammary artery harvesting and are typically self-limited. Early effusions are usually attributable to postcardiac injury syndrome and may require corticosteroid treatment. Although late effusions can have multiple causes, persistent effusions are attributable to trapped lung and often require decortication. Diagnostic thoracentesis should be performed for patients with large symptomatic pleural effusions or fever after CABG surgery. The range of management includes observation, therapeutic thoracentesis, corticosteroids, or decortication depending on the cause and course of the effusion.

Early development of severe constrictive pericarditis after coronary bypass grafting

A 61-year-old patient developed severe constrictive pericarditis with exertional dyspnea, 3 weeks after coronary bypass surgery. The diagnosis was confirmed by echocardigraphy and computed tomography examination. Despite the short duration of the disease, the pericardium showed a thickness of about 1 cm. Because initial treatment with steroids, diuretics and antiinflammatory drugs was of no avail, the patient underwent pericardiectomy, with a satisfactory outcome. The relatively rapid progress of constriction and the marked thickness of the pericardium that developed after a short period of time are emphasized.

Noninfectious constrictive pericarditis in a heart transplant recipient

Acute rejection, infection, and allograft coronary artery disease have been recognized as the major causes of postoperative morbidity and mortality in cardiac transplant patients. More recently, pericardial and mediastinal complications have been recognized as a more common complication than previously believed. We describe a case of a heart transplant recipient admitted for apparent congestive heart failure exacerbation who was unresponsive to standard medical management of congestive heart failure and rejection. After further invasive evaluation, it was discovered the patient's condition was attributable to posttransplantation constrictive pericarditis. It is appropriate to consider this diagnosis in any postcardiac surgery (especially heart transplant recipients) in patients presenting with congestive heart failure exacerbations refractory to usual medical management.

CT and MR imaging of pericardial disease

The diagnosis and therapy of pericardial diseases are still a physician's challenge. Advanced CT and MR imaging technologies can display the complete morphology of the heart and the pericardium and of the adjacent thoracic structures with a spatial and contrast resolution below 1 mm. All the macromorphologic determinants of pericardial constriction and their functional sequels may be identified by these remarkable technologies. A careful systematic image analysis defines not only a precise diagnosis but also determines the optimal surgical or conservative therapy for the individual patient and minimizes the risk of perisurgical mortality.

Pericarditis

Pericarditis is a common disorder that has multiple causes and presents in various primary-care and secondary-care settings. New diagnostic techniques have improved the sampling and analysis of pericardial fluid and allow comprehensive characterisation of cause. Despite this advance, pericarditis is most commonly idiopathic, and radiation therapy, cardiac surgery, and percutaneous procedures have become important causes. Pericarditis is frequently self-limiting, and non-steroidal anti-inflammatory agents remain the first-line treatment for uncomplicated cases. Integrated use of new imaging methods facilitates accurate detection and management of complications such as pericardial effusion or constriction. Differentiation of constrictive pericarditis from restrictive cardiomyopathy remains a clinical challenge but is facilitated by tissue doppler and colour M-mode echocardiography. Most pericardial effusions can be safely managed with an echo-guided percutaneous approach. Pericardiectomy remains the definitive treatment for constrictive pericarditis and provides symptomatic relief in most cases. In the future, the pericardial space might become a conduit for treatments directed at the pericardium and myocardium.

[Clinical decision making based on cardiac diagnostic imaging techniques (I). Diagnosis and therapeutic management of patients with cardiac tamponade and constrictive pericarditis]

Echocardiography, thoracic computed tomography, and magnetic resonance imaging are three valuable imaging techniques for the management and pathophysiological understanding of cardiac tamponade and constrictive pericarditis. However, these techniques should not be used independently from clinical findings. In this article we describe the findings that can be obtained with these imaging techniques, emphasizing how they should be integrated in the clinical context of the patient. Only the proper use of these imaging techniques can optimize the management of patients with pericardial disease.

Surgical pathology of the parietal pericardium: a study of 344 cases (1993-1999)

Among 344 cases with surgically resected parietal pericardium, ages ranged from 1 to 87 years (mean, 55), and 64% were male. Causes of pericardial disease included neoplastic (33%), idiopathic (30%), iatrogenic (23%), and others (14%). Pericardial constriction (Group 1) represented the largest group (143 cases, 76% male). Maximal pericardial thickness was 1-17 mm (mean, 4). Fibrotic thickening occurred in 96%. Chronic lymphoplasmacytic inflammation affected 73% (mild or moderate in 97%). Calcification was uncommon (gross in 28%, microscopic in 8%), and granulomas were rare (4%, none tubercular). Constriction was idiopathic in 49% and iatrogenic (postpericardiotomy or postirradiation) in 41%. Neoplasms and cysts (Group 2) represented the second largest group (96 cases). Among 43 cases with secondary pericardial involvement, carcinomas accounted for 53% and lymphomas 21%. Forty cases (Group 3) had pericardial effusions (75% chronic), which were idiopathic in 28% and postpericardiotomy in 23%. Thirty-three cases (Group 4) had acute or recurrent pericarditis clinically, which was idiopathic in 70%. Lastly, 32 cases (Group 5) had pericardial resection for conditions unrelated to primary pericardial disease. In conclusion, pericardial constriction tended to be nontubercular (100%), nongranulomatous (96%), idiopathic or iatrogenic (90%), and noncalcific (64%), and it could occur with normal pericardial thickness (4%). Because considerable overlap in the gross and microscopic features existed among cases with noncalcific pericardial constriction (Group 1), pericardial effusions (Group 3), and pericarditis (Group 4), clinical information was necessary to provide an accurate clinicopathologic interpretation.

Clinical characteristics of patients with constrictive pericarditis after coronary bypass surgery

Constrictive pericarditis (CP) is an unusual sequela of cardiac surgery, so the present study evaluated the clinical characteristics of patients with CP after coronary artery bypass grafting (CABG). Four hundred and sixty-three patients who underwent isolated CABG between January 1989 and March 1999 were examined retrospectively. The first choice of treatment for postoperative pericardial effusion was non-steroid anti-inflammatory agents, and an increased dose of diuretics. The second treatment choice was corticosteroids or pericardial drainage. When CP was suspected during the follow-up period (mean, 54+/-31 months), cardiac catheterization was carried out to establish the diagnosis. Of the 463 patients undergoing CABG, there were 11 (2.4%) who developed CP after surgery. The median time to the onset of symptoms after CABG was 4 weeks (range, 3-96 weeks). On univariate and multivariate analysis, normal left ventricular ejection fraction, warfarin administration, and early postoperative pericardial effusion were significantly associated with a greater potential of postoperative CP. The effusion was bloody in all cases of pericardial drainage despite warfarin therapy. Not draining the postoperative effusive pericardial effusion was a risk factor for the development of CP. Pericardial drainage for patients with significant effusion after CABG is important for the prevention of subsequent CP, especially in those patients being treated with warfarin or with normal left ventricular function.

Transsternal bilateral thoracotomy for pericardiectomy after coronary artery bypass grafting

Surgery for constrictive pericarditis was conducted through a transsternal bilateral thoracotomy in a 45-year-old man who developed the condition 12 months after coronary artery bypass grafting with left internal thoracic artery and vein grafts. The grafts ran just beneath the sternum. To avoid injury to the bypass grafts during sternotomy and mediastinal dissection, we conducted a transsternal bilateral thoracotomy, which provided excellent exposure of the heart. Complete pericardiectomy was done safely without cardiopulmonary bypass. Constrictive pericarditis following cardiac surgery is an uncommon complication posing difficult problems for the surgeon. The presence of a patent left internal thoracic artery bypass is particularly challenging. Transsternal bilateral thoracotomy is a useful approach in patients with constrictive pericarditis in whom a median sternotomy is contraindicated.

Constrictive pericarditis in the modern era: evolving clinical spectrum and impact on outcome after pericardiectomy

BACKGROUND

The clinical spectrum of constrictive pericarditis (CP) has been affected by a change in incidence of etiological factors. We sought to determine the impact of these changes on the outcome of pericardiectomy.

METHODS AND RESULTS

The contemporary spectrum of CP in 135 patients (76% male) evaluated at the Mayo Clinic from 1985 to 1995 was compared with that of a historic cohort. Notable trends were an increasing frequency of CP due to cardiac surgery and mediastinal radiation and presentation in older patients (median age, 61 versus 45 years). Perioperative mortality decreased (6% versus 14%, P = 0.011), but late survival was inferior to that of an age- and sex-matched US population (57+/-8% at 10 years). The long-term outcome was predicted independently by 3 variables in stepwise logistic regression analyses: (1) age, (2) NYHA class, and most powerfully, (3) a postradiation cause. Of 90 late survivors in whom functional class could be determined, functional status had improved markedly (2.6+/-0.7 at baseline versus 1.5+/-0.8 at latest follow-up [P<0.0001]), with 83% being free of clinical symptoms.

CONCLUSIONS

The evolving profile of CP, with increasingly older patients and those with radiation-induced disease in the past decade, significantly affects postoperative prognosis. Long-term results of pericardiectomy are disappointing for some patient groups, especially those with radiation-induced CP. By contrast, surgery alleviates or improves symptoms in the majority of late survivors.

Constrictive pericarditis: clinical and pathophysiologic characteristics

Constrictive pericarditis is an uncommon disorder with various causes. Although most often idiopathic, it may also occur after cardiovascular surgery, radiation therapy, and tuberculosis, especially in developing countries. The encasement of the heart by a rigid, nonpliable pericardium results in characteristic pathophysiologic effects, including impaired diastolic filling of the ventricles, exaggerated ventricular interdependence, and dissociation of intracardiac and intrathoracic pressures during respiration. Constrictive pericarditis typically presents with chronic insidious signs and symptoms of predominantly systemic venous congestion. Notoriously difficult to diagnose and distinguish from restrictive cardiomyopathy (RCM), the use of cardiac catheterization, echocardiography (transthoracic and transesophageal), central venous (hepatic and pulmonary) and transvalvular Doppler measurements, and magnetic resonance imaging should secure the diagnosis in most cases, eliminating the need for diagnostic thoracotomy. Although medical treatment may temporarily alleviate symptoms of heart failure, patients do poorly without pericardiectomy.

Constrictive pericarditis

The diagnosis of constrictive pericarditis remains a challenge because its physical findings and hemodynamics mimic restrictive cardiomyopathy. Various diagnostic advances over the years enable us to differentiate between these two conditions. This review begins with a case report of constrictive pericarditis, followed by a brief history and discussions of etiologies. Clinical features, radiologic, electrocardiographic, angiographic findings, and hemodynamics of constrictive pericarditis are reviewed. The echocardiographic findings are detailed and the recent advances in Doppler flow velocity patterns of pulmonary, mitral, tricuspid valves and hepatic veins are reported. Nuclear ventriculograms depict rapid ventricular filling in constrictive pericarditis and differentiate it from restrictive cardiomyopathy. Endomyocardial biopsy helps further in recognizing the various types of restrictive cardiomyopathies. Computed tomography and magnetic resonance imaging delineate abnormal pericardial thickness in constrictive pericarditis. Association of characteristic hemodynamic changes and abnormal pericardial thickness > 3 mm usually confirms the diagnosis of constrictive pericarditis. Effusive and occult varieties of constrictive pericarditis are briefly described. This review concludes with emphasizing the importance of pericardial resection.

Constrictive pericarditis and pleuropulmonary disease linked to ergot dopamine agonist therapy (cabergoline) for Parkinson's disease

Cabergoline is one of several ergoline dopamine agonist medications used in the treatment of Parkinson's disease (PD). We diagnosed constrictive pericarditis (CP) in a patient with PD receiving cabergoline therapy (10 mg daily), who had symptoms and signs of congestive heart failure (CHF). In the absence of previous reported cases of this condition linked to ergoline drugs, cabergoline was not initially identified as the cause. Shortly thereafter, however, the patient developed of a severe pleuropulmonary inflammatory-fibrotic syndrome, a recognized complication of ergoline medications, thus suggesting a common pathogenesis due to cabergoline therapy. To our knowledge, this is the first case in the English literature, although we speculate that CP may be more common than reported among patients with PD who are treated with an ergoline drug (cabergoline, bromocriptine, pergolide, or lisuride). The diagnosis of CP is difficult and requires a high level of suspicion; symptoms may masquerade as CHF due to common mechanisms such as coronary artery disease. In patients with PD who are taking not only cabergoline but also one of the other ergoline drugs, CP should be suspected if symptoms of CHF develop.

Defibrillator patch electrode constriction: an underrecognized entity

Pericardial constriction associated with the placement of intrapericardial defibrillator patches is a rare occurrence that is reported only one tenth as often in defibrillator patients as in patients undergoing other types of cardiac operations. Although this discrepancy may be attributable to a lower incidence of constriction with the defibrillator patch electrode procedure, it may also indicate a failure to recognize that progressive right heart failure and signs of low cardiac output that could be due to pericardial constriction and not progressive systolic dysfunction. Because surgical removal of the patches and decortication of the epicardial surface is the only effective therapy, it is important to recognize this uncommon, but profoundly debilitating entity.

Constrictive pericarditis: its history and current status

The diagnosis of constrictive pericarditis remains a challenge because it is often mimicked by restrictive cardiomyopathy. The last few years have seen numerous advances in our ability to differentiate between these two conditions which often have similar physical findings and hemodynamics. This review begins with a brief history of constrictive pericarditis; this is followed by an extensive discussion of newer etiologies, and then the classical clinical history and physical examination findings are described. Radiologic, electrocardiographic, and angiographic findings are discussed. The hemodynamics of constrictive pericarditis are reviewed. Recent results of echocardiographic and echo-Doppler investigations are presented. Emphasis is placed upon the limitations of M-mode echocardiography in the diagnosis of constrictive pericarditis. The value of echocardiographic Doppler studies of mitral and tricuspid flow velocity patterns, as well as of those in the pulmonary veins and hepatic veins, is described. Nuclear ventriculograms and angiocardiograms tend to show more rapid ventricular filling in constrictive pericarditis than in restrictive cardiomyopathy. Although only a small number of patients has been studied, these evaluations seem to have merit in separating restrictive cardiomyopathy from constrictive pericarditis. The role of computed tomography scanning and magnetic resonance imaging studies of pericardial thickness in confirming the presence of constrictive pericarditis is discussed. Abnormal pericardial thickening (> 3 mm) confirms the diagnosis of constrictive pericarditis, but only if the characteristic hemodynamic pattern is present. The usefulness of endomyocardial biopsy in recognizing specific varieties of restrictive cardiomyopathy is presented.(ABSTRACT TRUNCATED AT 250 WORDS)

Chronic cardiac rejection masking as constrictive pericarditis

The hemodynamic changes consistent with constrictive pericarditis are often encountered in patients who have undergone cardiac transplantation. We describe here 4 patients who underwent pericardiectomy after cardiac transplantation. All were found to have evidence of a thickened and constricting peel of pericardium at surgical exploration. Their postoperative clinical courses were variable. One patient with primarily effusive constriction experienced marked improvement. Three patients failed to show clinical improvement and had persistently elevated atrial and ventricular end-diastolic pressures. A coexisting restrictive cardiomyopathy secondary to chronic rejection, coronary arteriopathy, or long-standing constriction may have been the cause of this poor outcome. Many patients with transplanted hearts exhibit evidence of poor diastolic ventricular compliance without evidence of classic constriction; some manifest both the restrictive and constrictive components. The careful selection of patients with constrictive pericarditis can optimize the outcome.

Accurate preoperative diagnosis of pericardial constriction using cine computed tomography

OBJECTIVES

The purpose of this study was to determine the accuracy of cine computed tomography in the diagnosis of constrictive pericarditis.

BACKGROUND

Constrictive pericarditis is characterized by abnormalities of both cardiac structure and function. Accurate diagnosis requires detection of both a thickened pericardium and abnormal ventricular diastolic filling. At present, no one diagnostic technique has demonstrated sufficient accuracy in this setting. Cine computed tomography is a relatively new cardiac imaging mode with very high time and spatial resolution that has the potential to accurately diagnose constrictive pericarditis.

METHODS

Twelve consecutive patients were retrospectively identified who had catheterization findings suggestive of constrictive physiology, had undergone a cine computed tomographic examination and had pathologic data that delineated the status of the pericardium. Group 1 (with constrictive pericarditis; n = 5) had surgical confirmation of thickened pericardium and improved clinically after pericardiectomy. Group 2 (no constrictive pericarditis; n = 7) had cardiomyopathy with normal pericardium. Seven normal volunteers (Group 3) were also studied. Cine computed tomograms were obtained for the entire heart (8-mm slices, 17 frames/s, nonionic contrast medium). Pericardial thickness was measured at 10 degrees intervals at three ventricular levels in each subject. The rapidity of diastolic filling was assessed by calculating the percent filling fraction in early diastole.

RESULTS

Pericardial thickness was 10 +/- 2 mm (mean +/- SD) in Group 1, 2 +/- 1 mm in Group 2 and 1 +/- 1 mm in Group 3 (p < 0.05, constrictive pericarditis vs. no constrictive pericarditis). Left ventricular filling fraction was 83 +/- 6% in Group 1, 62 +/- 9% in Group 2 and 44 +/- 5% in Group 3. Right ventricular filling fraction was 93 +/- 5% in Group 1, 62 +/- 14% in Group 2 and 35 +/- 6% in Group 3 (p < 0.05, Group 1 vs. Groups 2 and 3). Both indexes provided a clear-cut distinction between patients with and without constriction.

CONCLUSIONS

Cine computed tomography simultaneously provides both anatomic and physiologic data that allow accurate preoperative diagnosis of pericardial constriction.

Pericardial complications of cardiac surgery: emphasis on the diagnostic role of echocardiography

Pericardial effusions are common following cardiac surgery; uncommonly they are large in size and may cause tamponade, either in the early or late postoperative period. Such effusions causing tamponade may be circumcardiac, but are frequently loculated, in which case one or more cardiac chambers is selectively compressed. Fortunately, echocardiography is capable of imaging not only the presence, location, and size of the pericardial effusion, but also indicating the presence of tamponade. Constrictive pericarditis resulting from cardiac surgery is being recognized with increasing frequency and has been associated with various echocardiographic abnormalities. This review also discusses certain other pericardial complications of cardiac surgery including supraventricular arrhythmias, chylopericardium, and posttransplant problems.

Effects of rapid volume expansion on the right filling pressures after prosthetic valve surgery

The effects of rapid intravascular volume expansion were studied in 12 patients, 4 to 14 years after single prosthetic heart valve replacement. The data observed showed a statistically significant mean difference before and after volume expansion of right atrial mean pressure and right ventricular end diastolic and pulmonary capillary pressures. However, right atrial and pulmonary capillary pressures equilibration was not detected. The right atrial pressure form showed abnormal variations during inspiration. Dip and plateau right ventricular diastolic pressure configuration was recorded in 6 patients after expansion, was absent in 2 and questionable in 4. A deep Y descent with an M-shaped right atrial pressure form was recorded in all 12 patients. The explanation for these phenomena is unclear. Thus, in the absence of pressure equilibration and clinical evidence of constriction, the abnormalities recorded during rapid volume expansion should be cautiously interpreted.

Constrictive epicarditis after open heart surgery: the turtle cage operation

A 60-year-old man developed constrictive epicarditis within 1 year after isolated mitral valve replacement (MVR). At reoperation, decortication of the thick epicardial layer resulted, impossible without a high risk of injury of the myocardium and major coronary arteries. Therefore, multiple longitudinal and transverse incisions were performed on the epicardial peel, which at the end acquired a turtle cage appearance allowing myocardial reexpansion, relief of constriction, and restoration of adequate hemodynamics.