Clinical Burden and Unmet Need in Recurrent Pericarditis: A Systematic Literature Review

Recurrent pericarditis with normal C-reactive protein: Clinical and laboratory features, biomarkers and outcome in a non-inflammatory phenotype

BACKGROUND

Differences in recurrent pericarditis with normal vs. elevated C-reactive protein (CRP) are unknown.

MATERIALS AND METHODS

We studied 448 patients with recurrent or incessant pericarditis. CRP levels <10 mg/L were considered normal. Forty-one patients with normal CRP were tested for interleukin 6 (IL-6), serum amyloid A (SAA) and soluble urokinase plasminogen activator receptor (suPAR).

RESULTS

Among the cohort (median age 43 years, 48.4% females), 336 patients (75%) had elevated CRP, while 112 (25%) had normal levels. CRP-negative patients were younger (38.6 vs. 43.5 years, p=0.007) and predominantly female (67.9% vs. 42.0%, p<0.001). They presented less often with fever (23.2% vs. 74.1%, p<0.001), pleural involvement (7.1% vs. 61.6% p<0.001), and neutrophilic leucocytosis (WBC 6760 vs. 12315/µL, p<0.001). Pericardiocentesis was performed rarely in CRP-negative patients (2.7% vs. 13.4%, p=0.001). Recurrence rates were similar (5.4 vs. 5.5/100 months-patient, p=0.918). Among CRP-negative patients, 53 (47.3%) had an incessant course characterized by persistent symptoms (pain and tachycardia); abnormal instrumental findings included ECG changes (28.6%), mild pericardial effusion (86.6%), and cardiac magnetic resonance evidence of effusion/oedema/late gadolinium enhancement (43.7%). Anakinra was administered to 48 CRP-positive (14.3%) and 10 CRP-negative patients (8.9%), leading to good responses with discontinuation of NSAIDs and corticosteroids in 39/48 (81.2%) and 5/10 (50.0%), respectively. Among the 41 CRP-negative patients tested, IL-6 and suPAR levels were always normal, while SAA was elevated in 17.1%.

CONCLUSIONS

Pericarditis with normal CRP exhibits distinct clinical and laboratory features, often presenting with an incessant course. Although rarely elevated, SAA may help to identify inflammation beyond CRP.

Long term follow up and outcomes of Covid-19 vaccine associated myocarditis in Victoria, Australia: A clinical surveillance study

BACKGROUND

Myocarditis and myopericarditis are well described adverse events of special interest (AESI) following COVID-19 vaccinations. Although reports are reassuring regarding initial clinical outcomes, information about longer term outcomes remains limited. We aimed to further this knowledge and report outcomes to 6 months post diagnosis from a single population cohort.

METHODS

Reports of myocarditis following COVID-19 vaccination were followed up by SAEFVIC (Surveillance of Adverse Events Following Vaccination in the Community), the state-wide vaccine safety service for Victoria, Australia. Confirmed myocarditis cases (Brighton Collaboration Criteria levels 1-3) were followed up via surveys at 1, 3 and 6 months post symptom onset. Responses received between 22 February 2021 and 30 September 2022 were analysed.

RESULTS

87.5 % (N = 182) of eligible participants completed at least 1 survey report. 377 reports were analysed. 76.9 % of completed reports were from male patients. The median age of patients was 21 years [IQR: 16 to 32]. 54.8 % (n = 74) of survey reports at 6 months, reported ongoing symptoms. At all follow-up time points, females were significantly more likely to have ongoing symptoms. At 6 months, 51.9 % of male respondents reported symptom resolution compared to 22.6 % of female patients (p = 0.002). Females were also more likely to continue medication and have ongoing exercise restrictions. However, males were significantly more likely to have higher initial peak troponin results and abnormal initial cardiac imaging investigations.

CONCLUSIONS

There appears to be a significant proportion of patients who experience ongoing symptoms to 6 months post onset amongst patients that experience these AESI. Male patients were more likely to report earlier and more complete symptom recovery, despite significantly higher average initial peak troponin. This difference in phenotypic presentation in females compared to males warrants further investigation and there is a need for longer term follow up data.

Pericarditis and Autoinflammation: A Clinical and Genetic Analysis of Patients With Idiopathic Recurrent Pericarditis and Monogenic Autoinflammatory Diseases at a National Referral Center

Background Idiopathic recurrent pericarditis (IRP) is an orphan disease that carries significant morbidity, partly driven by corticosteroid dependence. Innate immune modulators, colchicine and anti-interleukin-1 agents, pioneered in monogenic autoinflammatory diseases, have demonstrated remarkable efficacy in trials, suggesting that autoinflammation may contribute to IRP. This study characterizes the phenotype of patients with IRP and monogenic autoinflammatory diseases, and establishes whether autoinflammatory disease genes are associated with IRP. Methods and Results We retrospectively analyzed the medical records of patients with IRP (n=136) and monogenic autoinflammatory diseases (n=1910) attending a national center (London, UK) between 2000 and 2021. We examined 4 genes (MEFV, MVK, NLRP3, TNFRSF1A) by next-generation sequencing in 128 patients with IRP and compared the frequency of rare deleterious variants to controls obtained from the Genome Aggregation Database. In this cohort of patients with IRP, corticosteroid dependence was common (39/136, 28.7%) and was associated with chronic pain (adjusted odds ratio 2.8 [95% CI, 1.3-6.5], P=0.012). IRP frequently manifested with systemic inflammation (raised C-reactive protein [121/136, 89.0%] and extrapericardial effusions [68/136, 50.0%]). Pericarditis was observed in all examined monogenic autoinflammatory diseases (0.4%-3.7% of cases). Rare deleterious MEFV variants were more frequent in IRP than in ancestry-matched controls (allele frequency 9/200 versus 2932/129 200, P=0.040). Conclusions Pericarditis is a feature of interleukin-1 driven monogenic autoinflammatory diseases and IRP is associated with variants in MEFV, a gene involved in interleukin-1β processing. We also found that corticosteroid dependence in IRP is associated with chronic noninflammatory pain. Together these data implicate autoinflammation in IRP and support reducing reliance on corticosteroids in its management.

A Brief Overview of Recurrent Pericarditis Management and the Potential of Rilonacept as a New Therapeutic Option

Recurrent pericarditis affects 15-30% of patients after acute pericarditis. A large number of the patients with recurrent pericarditis can become corticosteroid dependent, leading to disease chronicity and drug dependence, with additional morbidity from long-term steroid use. Recent randomized trials indicate the efficacy of the interleukin-1 inhibitors anakinra and rilonacept in recurrent pericarditis, including colchicine-resistant and corticosteroid-dependent cases. In particular, rilonacept was assessed in the RHAPSODY clinical trial and found to be a potential treatment option that would decrease recurrent episodes, enabling patients to be weaned off steroids. Additionally, new data indicate that rilonacept should be considered as an option for patients with recurrent pericarditis, as add-on therapy to colchicine and nonsteroidal anti-inflammatory drugs, in place of steroids. We review the current management options for recurrent pericarditis as well as rilonacept as a prospective new addition to our armamentarium.

Disease and Economic Burden Associated with Recurrent Pericarditis in a Privately Insured United States Population

INTRODUCTION

Approximately 30% of patients with a first acute pericarditis episode experience a recurrence ≤ 18 months; ~ 15% experience multiple recurrences. This study assessed the recurrence and economic burden among patients with multiple recurrences.

METHODS

Adults with idiopathic pericarditis were identified in the OptumHealth Care Solutions, Inc., database (2007-2017). Recurrent pericarditis (RP) was defined as ≥ 2 episodes of care separated by > 28 days; multiple recurrences were defined as ≥ 2 recurrences.

RESULTS

Among 944 patients with RP, 375 (39.7%) experienced multiple recurrences and were propensity score-matched 1:1 to 375 patients without recurrence. Among patients with multiple recurrences, median disease duration (time from first episode to end of last recurrence, confirmed by a 1.5-year recurrence-free period) was 2.84 years. The multiple recurrences cohort had higher rates of hospitalizations per-patient-per-month (PPPM) than the no recurrence cohort (rate ratio [95% confidence interval (CI)] = 2.22 [1.35-3.65]). Mean total healthcare costs were significantly higher in the multiple recurrences versus no recurrence cohort ($2728 vs. $1568 PPPM, cost ratio [95% CI] = 1.74 [1.29-2.32]), mainly driven by higher hospitalization costs in the multiple recurrences cohort (mean: $1180 vs. $420 PPPM, cost ratio [95% CI] = 2.81 [1.80-4.66]). Mean work loss costs were higher in the multiple recurrences versus no recurrence cohort ($696 vs. $169 PPPM, cost ratio [95% CI] = 4.12 [1.64-9.61]). In patients with multiple recurrences, mean cost of the first episode was $19,189; subsequent recurrences ranged from $2089 to $7366 (second recurrence = $6222).

CONCLUSION

In conclusion, among patients with multiple pericarditis recurrences, disease symptoms persisted several years, and healthcare and work loss costs were further compounded in this subset of patients.