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Enjoy this Circulation 2022 Paths to Discovery article to learn about the CardioNerds story, mission, and values.

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Pearls

1. Saccular Aneurysm Risk: Saccular aortic aneurysms, though less common than fusiform, carry a higher inherent rupture risk due to concentrated wall shear stress, often exacerbated by prior cardiac surgery, chronic hypertension, and polysubstance use.    

1. Unprecedented Rupture: The direct rupture of an aortic aneurysm into a cardiac chamber, specifically the right ventricle, is an exceedingly rare event, with no prior reported cases in the literature, highlighting the unpredictable nature of complex aortic pathology.    

1. Hemodynamic Catastrophe: A large aorto-right ventricular fistula creates a massive left-to-right shunt, leading to acute right ventricular pressure and volume overload, culminating in rapid cardiogenic shock and refractory right ventricular failure.    

1. Multimodal Imaging Imperative: Multimodal imaging (CT angiography for anatomy, TTE/TEE for real-time hemodynamics and fistula detection, CMR for tissue characterization) is indispensable for rapid diagnosis and comprehensive characterization of life-threatening cardiovascular emergencies.    

1. High-Risk Intervention: Emergent surgical repair of a ruptured aortic aneurysm with an aorto-right ventricular fistula is a high-risk procedure associated with significant mortality, underscoring the need for prompt multidisciplinary care and realistic outcome expectations.    

Notes –

Notes (drafted by Dr Neel Patel): 

What are the unique characteristics and rupture risk of saccular aortic aneurysms? 

• Saccular aortic aneurysms are less common than fusiform aneurysms.    

• They are generally considered more prone to rupture due to higher wall shear stress concentrated at the neck of the aneurysm, acting as a focal point of weakness.    

• Contributing Factors to Aneurysm Formation and Rupture in this Case: 

• Prior Cardiac Surgery: Aortic cannulation during the VSD/ASD repair decades ago likely created a localized structural weakness or predisposition.    

• Chronic, Poorly Controlled Hypertension: Imposed relentless systemic stress on the arterial walls, accelerating dilation and weakening.    

• Polysubstance Use: Particularly stimulants like cocaine and methamphetamines, which directly contribute to vascular damage by inducing severe, uncontrolled hypertension and direct arterial wall injury. This significantly increases the risk of aneurysm formation and rupture, especially with pre-existing conditions.    

• The direct rupture of an aortic aneurysm into a cardiac chamber, specifically the right ventricle, is an exceedingly rare event, with no prior reported cases in the literature, making this a “first of its kind” report.    

What are the hemodynamic consequences and management challenges associated with aorto-right ventricular fistulas? 

• Hemodynamic Impact: A large aorto-right ventricular fistula results in a significant anatomic left-to-right shunt, where blood from the high-pressure aorta is shunted directly into the lower-pressure right ventricle.    

• This leads to acute right ventricular pressure and volume overload, causing rapid right ventricular dilation, increased right ventricular wall stress, and ultimately, acute right ventricular failure.    

• This directly explained the sudden onset of cardiogenic shock, as the right ventricle was unable to maintain forward flow, leading to systemic hypoperfusion and shock.    

• Management Challenges: 

• The patient required emergent, extremely high-risk salvage aortic aneurysm repair surgery.    

• Marked hemodynamic instability occurred immediately after anesthesia induction (systolic blood pressure dropped to 50 mmHg), necessitating immediate initiation of external cardiopulmonary bypass.    

• Intra-operatively, a large (2 cm diameter) hole in the ascending aorta communicating with the saccular aneurysm was found, along with a massive (4-5 cm) fistula into the right ventricular outflow tract (RVOT) area, just proximal to the pulmonic valve, with several smaller holes.    

• Surgical repair involved a 5×10 cm bovine pericardial patch for the right ventricular wall and replacement of a 5 cm segment of the ascending aorta with a 34 mm gelweave straight graft.    

• Post-operative Course: Severely complicated by severe coagulopathy and extensive bleeding (requiring multiple blood products and a Cabral fistula).    

• Continued severe right ventricular dysfunction necessitated the placement of a Right Ventricular Assist Device (RVAD).    

• Despite support, hemodynamic function conti