[The Stadium analgeticum - Historical Highlights on the Ether Rush].

For decades, the term ether rush was synonymous with the practice of short-term anaesthesia, among patients and doctors. The term was first used shortly after the discovery of the anaesthetic properties of ether by Hamburg-based physician Elias Salomon Nathan in an article about the newly discovered ether anaesthesia. Decades later, the surgeon Paul Sudeck, who also worked in Hamburg, also described an anaesthetic technique he practiced as an ether rush and met with great approval from his surgical colleagues, as well as for his anaesthetic mask developed for carrying out the ether rush and the anaesthetic dropper, specified for this purpose.

New Skull Material of (Multituberculata, Taeniolabididae) from the Early Paleocene (Danian) of the Denver Basin, Colorado.

is an iconic multituberculate mammal of early Paleocene (Puercan 3) age from the Western Interior of North America. Here we report the discovery of significant new skull material (one nearly complete cranium, two partial crania, one nearly complete dentary) of in phosphatic concretions from the Corral Bluffs study area, Denver Formation (Danian portion), Denver Basin, Colorado. The new skull material provides the first record of the species from the Denver Basin, where the lowest in situ specimen occurs in river channel deposits ~730,000 years after the Cretaceous-Paleogene boundary, roughly coincident with the first appearance of legumes in the basin.

[From ether anesthesia to "green" anesthesia : Challenges in anesthesiology over the last 175 years].

The first public demonstration of ether anesthesia took place 175 years ago. Since that time, insensitivity to pain during surgical operations has been possible. The "Ether Day" has been portrayed in many ways.

Chemical signatures of soft tissues distinguish between vertebrates and invertebrates from the Carboniferous Mazon Creek Lagerstätte of Illinois.

The chemical composition of fossil soft tissues is a potentially powerful and yet underutilized tool for elucidating the affinity of problematic fossil organisms. In some cases, it has proven difficult to assign a problematic fossil even to the invertebrates or vertebrates (more generally chordates) based on often incompletely preserved morphology alone, and chemical composition may help to resolve such questions. Here, we use in situ Raman microspectroscopy to investigate the chemistry of a diverse array of invertebrate and vertebrate fossils from the Pennsylvanian Mazon Creek Lagerstätte of Illinois, and we generate a ChemoSpace through principal component analysis (PCA) of the in situ Raman spectra.