scholarly journals Constrictive pericarditis in the setting of repeated chest trauma in a mixed martial arts fighter

2021 ◽  
Vol 21 (1) ◽  
Author(s):  
Meganne N. Ferrel ◽  
Sentia Iriana ◽  
I. Raymond Thomason ◽  
Christy L. Ma ◽  
Katsiaryna Tsarova ◽  
...  

Abstract Background Constrictive pericarditis (CP) is characterized by scarring and loss of elasticity of the pericardium. This case demonstrates that mixed martial arts (MMA) is a previously unrecognized risk factor for CP, diagnosis of which is supported by cardiac imaging, right and left heart catheterization, and histological findings of dense fibrous tissue without chronic inflammation. Case presentation A 47-year-old Caucasian male former mixed martial arts (MMA) fighter from the Western United States presented to liver clinic for elevated liver injury tests (LIT) and a 35-pound weight loss with associated diarrhea, lower extremity edema, dyspnea on exertion, and worsening fatigue over a period of 6 months. Past medical history includes concussion, right bundle branch block, migraine headache, hypertension, chronic pain related to musculoskeletal injuries and fractures secondary to MMA competition. Involvement in MMA was extensive with an 8-year history of professional MMA competition and 13-year history of MMA fighting with recurrent trauma to the chest wall. The patient also reported a 20-year history of performance enhancing drugs including testosterone. Physical exam was notable for elevated jugular venous pressure, hepatomegaly, and trace peripheral edema. An extensive workup was performed including laboratory studies, abdominal computerized tomography, liver biopsy, echocardiogram, and cardiac magnetic resonance imaging. Finally, right and left heart catheterization—the gold standard—confirmed discordance of the right ventricle-left ventricle, consistent with constrictive physiology. Pericardiectomy was performed with histologic evidence of chronic pericarditis. The patient’s hospital course was uncomplicated and he returned to NYHA functional class I. Conclusions CP can be a sequela of recurrent pericarditis or hemorrhagic effusions and may have a delayed presentation. In cases of recurrent trauma, CP may be managed with pericardiectomy with apparent good outcome. Further studies are warranted to analyze the occurrence of CP in MMA so as to better define the risk in such adults.

2019 ◽  
Vol 3 (3) ◽  
Author(s):  
Andrew Mehlman ◽  
Jaymin Patel ◽  
Christopher Bitetzakis ◽  
Michael Berlowitz

Abstract Background Coronary artery aneurysms (CAAs) are a very rare finding on coronary angiograms with multiple known aetiologies. Parry Romberg syndrome (PRS) is also a very rare disease, and the underlying aetiology remains unknown. We present a rare case of CAAs in a patient with PRS, and discuss possible implications regarding the primary pathophysiological cause for both of these diseases. Case summary A 48-year-old woman with a history of PRS presented with atypical and non-exertional chest pain. Initial evaluation demonstrated a rising troponin without associated electrocardiogram changes, and as such she was taken for left heart catheterization. Left heart catheterization demonstrated diffuse aneurysmal and ectatic disease of multiple coronary arteries. Further evaluation with magnetic resonance angiogram and autoantibody panel did not demonstrate other vascular anomalies or rheumatologic disease, respectively. She was treated with dual anti-platelet therapy and statin, and at 1 year follow-up, she had resolution of her symptoms. Discussion It has been postulated that the underlying mechanism causing CAA is intravascular inflammation. Parry Romberg syndrome is theorized to be a neurovasculopathy, as evidenced by cases of associated intracranial aneurysms. Intravascular inflammation may play a key pathological role in CAA, and an association between CAA and PRS may exist.


2019 ◽  
Vol 40 (Supplement_1) ◽  
Author(s):  
H T Ozer ◽  
O Ozer ◽  
C Coteli ◽  
A Kivrak ◽  
M L Sahiner ◽  
...  

Abstract Background Diastolic dysfunction is an important factor in the development of heart failure with preserved ejection fraction (HFpEF). As the ejection fraction is preserved in HFpEF, the diagnosis of this disease with non-invasive methods is difficult. Purpose In this study, the relationship of BNP, NT-proBNP, Ghrelin, and echocardiographic 3D strain findings with diastolic dysfunction was investigated in patients undergoing left heart catheterization. Methods Our study is a cross-sectional study and included 78 patients in whom echocardiography was performed, and who underwent left heart catheterization based on relevant indications. The patient data recorded for evaluation included the findings from left heart catheterization, follow-up 3D echocardiography; and the levels of blood NT-proBNP, and Ghrelin. Results The rate of diastolic dysfunction was 42.3%. Longitudinal 2D and 3D mean strain as absolute values were observed to decrease more in patients with diastolic dysfunction. The median levels of BNP, NT-proBNP, and Ghrelin levels were higher in patients with diastolic dysfunction. The independent predictors of diastolic dysfunction were determined to be the left atrial volume index (LAVI) (OR=1.17; p=0.018), longitudinal 3D strain values (OR=1.88; p<0.001), NT-proBNP (OR=1.11; p=0.001), and Ghrelin (OR=1.40; p=0.001), respectively. Relationship Between LV EDP and LV Longitudinal Strain LV EDP 2D Strain 3D Strain r p r p r p BNP, pg/ml 0.429 <0.001* 0.115 0.316 0.178 0.118 NT-proBNP, pg/ml 0.484 <0.001* 0.155 0.177 0.186 0.104 Ghrelin, pg/ml 0.478 <0.001* 0.086 0.455 0.157 0.169 SolV DB – – 0.481 <0.001* 0.591 <0.001* dP/dT −0.389 <0.001* −0.283 0.012* −0.307 0.006* Negative dP/dT −0.747 <0.001* −0.337 0.003* −0.458 <0.001* 2D. % 0.481 <0.001* – – 0.852 <0.001* 3D. % 0.591 <0.001* 0.852 <0.001* – – If p value is less than 0.05 shows statistical significance. Measurement of longitudinal strain Conclusion In conclusion, our study found out that the reduced 3D strain absolute values and increased levels of NT-proBNP and Ghrelin biomarkers predicted diastolic dysfunction. If further large-scale studies prove the efficiency of these practical, they may not only allow for making a diagnosis of HFpEF more readily but may also eliminate the confusion in diagnostic algorithms. Acknowledgement/Funding None


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