Tetralogy of Fallot is the most common cyanotic congenital heart defect during infancy. It is composed of a ventricular septal defect, an overriding aorta, obstruction of right ventricular outflow, and right ventricular hypertrophy. Most patients experience cyanosis at birth and die in childhood without surgical intervention. The rate of survival at 40 years without surgical correction is only 3%. We present the case of a man with tetralogy of Fallot who survived until the age of 52 years without surgical intervention.
Penetrating chest wounds leading to damage of thoracic structures are common. A rare sequelae of chest trauma is a contained rupture of the left ventricle of the heart leading to the development of a pseudoaneurysm. This complication needs prompt recognition and repair because of the high likelihood of rupture and death. We report the case of a 47‐year‐old man who underwent repair of a stab wound to the heart 25 years ago and subsequently developed a large left ventricular pseudoaneurysm and presented with angina.
We present a survey of the structural and magnetic properties of submonolayer transition metal dioxides on the (001) surfaces of the heavy face-centered cubic (fcc) noble metals Ir and Pt performed by spin-averaged scanning tunneling microscopy (STM) and spin-polarized (SP-)STM. Our STM results confirm that deposition of Co, Fe, Mn, and Cr on the (2 × 1) oxygen-reconstructed Ir(001) surface leads to the formation of quasi one-dimensional chains with a (3 × 1) unit cell. As recently predicted by density functional theory [Ferstl et al., Phys. Rev. Lett. 117, 046101 (2016)], our SP-STM images of FeO2 and MnO2 on Ir(001) show a two-fold periodicity along the chains which is characteristic for an antiferromagnetic coupling along the chains. In addition, these two materials also exhibit spontaneous, permanent, and long-range magnetic coupling across the chains. Whereas we find a ferromagnetic inter-chain coupling for FeO2/Ir(001), the magnetic coupling of MnO2 on Ir(001) appears to be a non-collinear 120 • spin spiral, resulting in a (9 × 2) magnetic unit cell. On Pt(001) patches of (3 × 1)-reconstructed oxide chains could only be prepared by transition metal (Co, Fe, and Mn) deposition onto the cold substrate and subsequent annealing in an oxygen atmosphere. Again SP-STM on MnO2/Pt(001) reveals a very large, (15 × 2) magnetic unit cell which can tentatively be explained by a commensurate 72 • spin spiral. Large scale SP-STM images reveal a long wavelength spin rotation along the MnO2 chain.
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