Revealing dynamic processes in laser powder bed fusion with in situ X-ray diffraction at PETRA III.

The high flux combined with the high energy of the monochromatic synchrotron radiation available at modern synchrotron facilities offers vast possibilities for fundamental research on metal processing technologies. Especially in the case of laser powder bed fusion (LPBF), an additive manufacturing technology for the manufacturing of complex-shaped metallic parts, in situ methods are necessary to understand the highly dynamic thermal, mechanical, and metallurgical processes involved in the creation of the parts. At PETRA III, Deutsches Elektronen-Synchrotron, a customized LPBF system featuring all essential functions of an industrial LPBF system, is used for in situ x-ray diffraction research.

A high frequency of tumors with rearrangements of genes of the HMGI(Y) family in a series of 191 pulmonary chondroid hamartomas.

Pulmonary chondroid hamartomas (PCHs) are benign mesenchymal tumors that often are characterized by specific chromosomal aberrations. Herein we report our cytogenetic and molecular cytogenetic (FISH) studies on 191 PCHs, including 48 previously published cases. In this series, 134/191 PCHs (70.

HMGI-C rearrangements as the molecular basis for the majority of pulmonary chondroid hamartomas: a survey of 30 tumors.

Pulmonary chondroid hamartomas (PCH) are benign tumors of the lung characterized by a more or less high degree of mesenchymal metaplasia. In our series we investigated 30 PCH by a combination of cytogenetic and molecular methods. 18 tumors (60%) had cytogenetically detectable aberrations involving either 12q14-15 or 6p21 with a clear predominance of chromosomal abnormalities involving 12q14-15 (15 tumors).

Molecular characterization of 12q14-15 rearrangements in three pulmonary chondroid hamartomas.

Chromosomal aberrations involving the chromosomal breakpoint region 12q14-15 are frequently seen in a variety of mesenchymal tumors as uterine leiomyomas, lipomas, myxoid liposarcomas, enchondromas, or hemangiopericytomas. Therefore, this breakpoint region seems to be one of the most frequent chromosomal abnormality associated with the initiation of human mesenchymal neoplasms. To narrow down the breakpoint region on a molecular level in cells of three pulmonary chondroid hamartomas with 12q14-15 aberrations, we performed fluorescence in situ hybridization analysis with different cosmid clones originating from a YAC and cosmid contig overspanning parts of the region 12q14-15.