Mikrovaskulär anastomosierte Transplantate : Verwendung in der Kopf-Hals-Region nach Bestrahlung und Gefäßdepletion [Grafts with microvascular anastomosis : Their use in the head and neck region following radiotherapy and vessel depletion].

Surgical tumor removal is often the treatment of choice in patients with head and neck squamous cell carcinoma. Depending on the extent of tumor resection, large defects are often produced in the individual head and neck regions, necessitating reconstructive surgery to avoid further functional impairment. In principle, this decision depends on the size and location of the defect, the aesthetic importance of the region and the functional significance of the area to be replaced. Reconstructive free flap procedures in patients who have undergone radiotherapy or exhibit vessel depletion in the neck due to multiple previous surgical interventions are particularly challenging. In order to ensure the best possible outcomes of surgical oncology therapies under difficult circumstances, this paper discusses the important factors and variables that can increase the success rate of microvascular grafts in irradiated or multiply resected patients.

Self-consistent medium polarization in spin-polarized 3He

A microscopic calculation of the residual particle-hole (p-h) interaction in spin-polarized 3He is performed. As a starting point the Brueckner G matrix is used which is supplemented by including the phonon exchange terms self-consistently. An important ingredient in this microscopic version of the induced interaction is the treatment of the full momentum dependence of the interaction. This allows a consistent description of the Landau limit (Pauli-principle sum rule for the Landau parameters is fulfilled) but also enables a detailed study of the p-h interaction at finite momentum transfers. A comparison with correlated basis functions results shows good agreement for momentum transfers larger than the Fermi momentum.

Greek misogynist tradition in Andreas Capellanus's De amore

The title of this brief article quite clearly illustrates its aims and evident limitations. In principle, a search for a Greek basis of the misogynist content of Andreas Capellanus's De amore is likely to lead researchers to focus on analysis of the sources -Greek sources, of course. However, there is no doubt that Ovid, the most frequently quoted ancient author, in this case the structural source, above all his Ars Amatoria, Remedia Amoris and Heroides, which is quite logical in light of the remarkable presence and influence of Ovid's works throughout that time. There was also a good knowledge of the works of Cicero, Virgil, Horace and Juvenal. However, other classical authors, even the Greeks -those who were known then-, were undoubtedly read in the schools, but the knowledge of their works was certainly superficial. Furthermore, given the scholastic method followed in De amore, it would be absurd not to consider the use of many quotations that appeared in the Compendia and in handbooks of religious instruction.

Film-free laser forward printing of transparent and weakly absorbing liquids

A laser-based technique for printing transparent and weakly absorbing liquids is developed. Its principle of operation relies in the tight focusing of short laser pulses inside the liquid and close to its free surface, in such a way that the laser radiation is absorbed in a tiny volume around the beam waist, with practically no absorption in any other location along the beam path. If the absorbed energy overcomes the optical breakdown threshold, a cavitation bubble is generated, and its expansion results in the propulsion of a small fraction of liquid which can be collected on a substrate, leading to the printing of a microdroplet for each laser pulse. The technique does not require the preparation of the liquid in thin film form, and its forward mode of operation imposes no restriction concerning the optical properties of the substrate. These characteristics make it well suited for printing a wide variety of materials of interest in diverse applications. We demonstrate that the film-free laser forward printing technique is capable of printing microdroplets with good resolution, reproducibility and control, and analyze the influence of the main process parameter, laser pulse energy. The mechanisms of liquid printing are also investigated: time-resolved imaging provides a clear picture of the dynamics of liquid transfer which allows understanding the main features observed in the printed droplets.