Month: May 2026

Interdiscip Cardiovasc Thorac Surg. 2026 Mar 12;41(3):ivag044. doi: 10.1093/icvts/ivag044.

ABSTRACT

We present a novel technique for tricuspidation of the very asymmetrical bicuspid aortic valve (AV) with commissural orientation of about 120-140, via replacement of the fused AV cusp with 2 neo-cusps. The neo-cusps are fashioned from bovine pericardium and sutured to the annulus. Successful repair using the described technique requires good quality and adequate commissure height of the non-fused cusp. Since 2020, this technique has been applied to 15 patients. To date, all patients are alive with well-functioning AVs, presenting no or trivial insufficiency, large orifice areas, and nearly physiological transvalvular gradients.

PMID:41840768 | PMC:PMC13098162 | DOI:10.1093/icvts/ivag044

Yonsei Med J. 2026 Apr;67(4):297-305. doi: 10.3349/ymj.2025.0174.

ABSTRACT

PURPOSE: Aortic prostheses are used in pulmonary positions due to structural similarities between the pulmonary and aortic valves. However, there are no available studies that have comprehensively evaluated the mechanism of bioprosthetic aortic valves under pulmonary conditions.

MATERIALS AND METHODS: Using a mock circulatory system, we evaluated the hydrodynamic characteristics of bovine pericardial and porcine valves. Geometric orifice area, regurgitant and leakage volume, regurgitant fraction, peak pressure gradient, and forward flow volume were evaluated in different pulmonary pressure conditions (from 15/5 mm Hg to 75/35 mm Hg) and normal aortic pressure (110/80 mm Hg).

RESULTS: Bovine pericardial valves were associated with larger opening area (0.93±0.01 vs.1.70±0.01 for 23-mm valve; 0.99±0.01 vs.1.75±0.01 for 25-mm valve; 1.58±0.01 vs. 2.25±0.02 for 27-mm valve; all p<0.01) and forward flow volume (42.27±0.05 vs. 64.79±0.14 for 23-mm valve; 46.41±0.06 vs. 64.28±0.18 for 25-mm valve; 72.64±0.17 vs.73.25±0.07 for 27-mm valve; all p<0.01). Porcine valves were associated with incomplete opening, smaller opening area, and lower regurgitant fraction. Bovine pericardial valves demonstrated lower peak pressure gradients (15.75±0.14 vs. 12.57±0.47 for 23-mm valve; 14.85±0.05 vs. 12.87±0.28 for 25-mm valve; 15.72±0.32 vs. 7.91±0.03 for 27-mm valve).

CONCLUSION: Bovine pericardial and porcine bioprosthetic valves has different hydrodynamic characteristics under various pulmonary pressure conditions.

PMID:41914313 | PMC:PMC13040176 | DOI:10.3349/ymj.2025.0174

Yonsei Med J. 2026 Apr;67(4):297-305. doi: 10.3349/ymj.2025.0174.

ABSTRACT

PURPOSE: Aortic prostheses are used in pulmonary positions due to structural similarities between the pulmonary and aortic valves. However, there are no available studies that have comprehensively evaluated the mechanism of bioprosthetic aortic valves under pulmonary conditions.

MATERIALS AND METHODS: Using a mock circulatory system, we evaluated the hydrodynamic characteristics of bovine pericardial and porcine valves. Geometric orifice area, regurgitant and leakage volume, regurgitant fraction, peak pressure gradient, and forward flow volume were evaluated in different pulmonary pressure conditions (from 15/5 mm Hg to 75/35 mm Hg) and normal aortic pressure (110/80 mm Hg).

RESULTS: Bovine pericardial valves were associated with larger opening area (0.93±0.01 vs.1.70±0.01 for 23-mm valve; 0.99±0.01 vs.1.75±0.01 for 25-mm valve; 1.58±0.01 vs. 2.25±0.02 for 27-mm valve; all p<0.01) and forward flow volume (42.27±0.05 vs. 64.79±0.14 for 23-mm valve; 46.41±0.06 vs. 64.28±0.18 for 25-mm valve; 72.64±0.17 vs.73.25±0.07 for 27-mm valve; all p<0.01). Porcine valves were associated with incomplete opening, smaller opening area, and lower regurgitant fraction. Bovine pericardial valves demonstrated lower peak pressure gradients (15.75±0.14 vs. 12.57±0.47 for 23-mm valve; 14.85±0.05 vs. 12.87±0.28 for 25-mm valve; 15.72±0.32 vs. 7.91±0.03 for 27-mm valve).

CONCLUSION: Bovine pericardial and porcine bioprosthetic valves has different hydrodynamic characteristics under various pulmonary pressure conditions.

PMID:41914313 | PMC:PMC13040176 | DOI:10.3349/ymj.2025.0174

Int J Surg Case Rep. 2026 Jan 28;138(3):674-679. doi: 10.1097/RC9.0000000000000083. eCollection 2026 Mar.

ABSTRACT

INTRODUCTION: Primary aortoenteric fistulas are rare, life-threatening conditions, usually secondary to abdominal aortic aneurysms. Primary aortoduodenal fistula (PADF) without aneurysmal disease is extremely rare, with very few cases reported in the literature. Delayed diagnosis is common and contributes to high mortality.

CASE PRESENTATION: We report the case of a 71-year-old woman with high-grade serous ovarian cancer who developed a PADF in the absence of an aortic aneurysm. The patient presented with hematemesis and abdominal pain. Initial investigations, including Computed Tomography (CT) scan and upper endoscopy (EGDS), were inconclusive. Although she was initially stabilized, she experienced recurrent gastrointestinal bleeding leading to hemodynamic deterioration. Emergency CT showed active arterial hemorrhage near the duodenum. An urgent exploratory laparotomy confirmed the presence of a PADF, which was surgically repaired using a bovine pericardial patch. Despite surgical intervention, the patient succumbed to postoperative multiorgan failure.

CLINICAL DISCUSSION: PADFs most frequently involve the third or fourth portion of the duodenum and are strongly correlated with aneurysmal disease. However, rare etiologies such as radiation therapy, malignancy, or infection may precipitate fistula formation even in the absence of aneurysms. Our literature review identified only 16 similar cases reported since 2015. Diagnosis remains challenging due to non-specific symptoms and inconclusive early imaging. A high index of suspicion is essential. CT angiography is the most effective diagnostic modality. Definitive management requires urgent surgical or endovascular repair, although prognosis remains poor in hemodynamically unstable patients.

CONCLUSION: This case underscores the need to consider PADF in the differential diagnosis of gastrointestinal bleeding, even in the absence of aneurysmal disease, particularly among oncologic patients with prior radiation exposure or retroperitoneal inflammation. Early diagnosis, prompt imaging, and a multidisciplinary approach are essential to improving patient outcomes.

PMID:41837109 | PMC:PMC12981790 | DOI:10.1097/RC9.0000000000000083

Yonsei Med J. 2026 Apr;67(4):297-305. doi: 10.3349/ymj.2025.0174.

ABSTRACT

PURPOSE: Aortic prostheses are used in pulmonary positions due to structural similarities between the pulmonary and aortic valves. However, there are no available studies that have comprehensively evaluated the mechanism of bioprosthetic aortic valves under pulmonary conditions.

MATERIALS AND METHODS: Using a mock circulatory system, we evaluated the hydrodynamic characteristics of bovine pericardial and porcine valves. Geometric orifice area, regurgitant and leakage volume, regurgitant fraction, peak pressure gradient, and forward flow volume were evaluated in different pulmonary pressure conditions (from 15/5 mm Hg to 75/35 mm Hg) and normal aortic pressure (110/80 mm Hg).

RESULTS: Bovine pericardial valves were associated with larger opening area (0.93±0.01 vs.1.70±0.01 for 23-mm valve; 0.99±0.01 vs.1.75±0.01 for 25-mm valve; 1.58±0.01 vs. 2.25±0.02 for 27-mm valve; all p<0.01) and forward flow volume (42.27±0.05 vs. 64.79±0.14 for 23-mm valve; 46.41±0.06 vs. 64.28±0.18 for 25-mm valve; 72.64±0.17 vs.73.25±0.07 for 27-mm valve; all p<0.01). Porcine valves were associated with incomplete opening, smaller opening area, and lower regurgitant fraction. Bovine pericardial valves demonstrated lower peak pressure gradients (15.75±0.14 vs. 12.57±0.47 for 23-mm valve; 14.85±0.05 vs. 12.87±0.28 for 25-mm valve; 15.72±0.32 vs. 7.91±0.03 for 27-mm valve).

CONCLUSION: Bovine pericardial and porcine bioprosthetic valves has different hydrodynamic characteristics under various pulmonary pressure conditions.

PMID:41914313 | PMC:PMC13040176 | DOI:10.3349/ymj.2025.0174