The correct answer is: B. Continue colchicine and ibuprofen and start oral prednisone.

This patient has post-pericardiotomy syndrome (PPS) following a mini-thoracotomy for AVR and aortic root enlargement with autologous pericardium. First diagnosed in 1953 in patients who developed fever and pleuritic pain following mitral valve surgery,¹ PPS is an inflammatory pleuropericardial syndrome. The pathophysiology is thought to be immune mediated based on findings of elevated anti-heart antibodies, the latent onset of symptoms, and the response to anti-inflammatory treatment, however the exact pathophysiology is still incompletely understood.² While open heart surgery is the most common cause, any injury to the pericardium, such as following radiofrequency ablation procedures or complications of percutaneous coronary intervention or pacemaker insertion, can be a trigger.² The incidence ranges from between 9-50% depending on the populations studied.³ The diagnosis of PPS is made based on the presence of two of the following criteria: fever without explainable cause beyond the first post-operative week, pericardial friction rub, pleuritic chest pain, pericardial effusion or pleural effusion with elevated CRP. Our patient presented with four of these criteria, and thus fulfilled the criteria for PPS.

Similar to Dressler syndrome post myocardial infarction, common presenting symptoms of PPS include fever and pleuritic chest pain. In a prospective study of 360 patients enrolled for cardiac surgery, PPS was diagnosed in 15% of patients, 80% of whom were diagnosed within the first month of surgery and 20.4% in the second and third months.⁴ The most common symptoms were pleuritic chest pain (56%) and fever (54%) and the most common clinical findings included elevated inflammatory markers (74%), pericardial effusion (89%) and pleural effusion (93%). Risk factors for the development of PPS include female gender, younger age, prior pericarditis, aortic valve replacement, prior prednisone use and patients who received blood transfusion post operatively.^4-6 Our patient had a typical presentation of PPS with symptoms of pleuritic chest pain and fever within one month of aortic valve surgery.

Medical therapy for PPS is similar to the treatment of acute pericarditis, and includes non-steroidal anti-inflammatory agents, colchicine and steroids. In a double-blind, placebo-controlled randomized controlled trial of 1019 adults undergoing cardiac operation, of whom 149 patients were diagnosed with PPS and enrolled in the study, ibuprofen and indomethacin were found to be 90% and 89% effective and significantly more effective than placebo (63%, p = 0.003).⁷ Up front steroid use in PPS is less well established, with one pediatric study showing no benefit of intravenous methylprednisolone in preventing PPS.⁸ Colchicine has been shown to be effective in preventing PPS. In a large randomized placebo controlled trial (COPPS), colchicine 1.0 mg twice daily on post op day 3 followed by a maintenance dose of 0.5 mg twice daily for 1 month in patients ≥70 kg (halved doses for patients <70 kg) significantly reduced the incidence of PPS at 12 months compared to placebo (8.9 vs. 21.1; p = 0.002) and also reduced secondary endpoints including disease-related hospitalizations, cardiac tamponade, constrictive pericarditis and recurrent pericarditis at 18 months.⁹ A second follow-up randomized controlled trial (COPPS-2 [COlchicine for Prevention of the Post-pericardiotomy Syndrome and Post-operative Atrial Fibrillation]) in which colchicine was given at the same dose, but 48-72 hours prior to surgery, similar reductions in PPS were demonstrated, though adverse outcomes occurred more commonly in the colchicine treated group.¹⁰ This highlights the importance of identifying high risk groups when considering preventative therapy.

The patient in this case was appropriately treated initially with colchicine and ibuprofen, however her symptoms did not resolve after 2 months of therapy. Her echocardiogram showed features of pericardial constriction with an abnormal septal bounce, significant flow variation across the tricuspid and mitral valves and expiratory diastolic flow reversal in the hepatic vein. A cardiac MRI demonstrated a small pericardial effusion, evidence of pericardial edema (increased signal intensity of T2-STIR imaging) and inflammation (circumferential late gadolinium enhancement) as well as signs of constrictive physiology, suggesting the presence of effusive-constrictive pericarditis. The presence of pericardial inflammation on cardiac MRI is helpful for the identification of patients with transient pericardial constriction that can be reversible with heightened anti-inflammatory treatment, which occurs in 10-20% of pericardial constriction cases.¹¹ Therefore, given the patient's cardiac MRI findings, the correct answer in this case is to add corticosteroids to the patient's colchicine and ibuprofen (i.e. triple therapy).

Follow-Up

After 3 months of triple therapy with oral prednisone, starting at Prednisone 40mg PO daily with a slow taper, colchicine and ibuprofen, the patient's symptoms improved and her inflammatory markers normalized. A follow up cardiac MRI showed a reduction in the degree of pericardial delayed enhancement and no evidence of constrictive physiology (Figure 5 a-c).

Figure 5

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