This collection features approximately 4500 full page plates and other significant illustrations of human anatomy selected from the Jason A. Hannah and Academy of Medicine collections in the history of medicine at the Thomas Fisher Rare Book Library, University of Toronto. Each illustration has been fully indexed using medical subject headings (MeSH), and techniques of illustration, artists, and engravers have been identified whenever possible. There are ninety-five individual titles represented, ranging in date from 1522 to 1867. ... [Information of the supplier]
This web site provides browsers with images and information from one of the world's largest collection of well-preserved, sectioned and stained brains of mammals. Viewers can see and download photographs of brains of over 100 different species of mammals (including humans) representing over 20 Mammalian Orders. [Information of the supplier]
Why dissect a frog? Frogs and humans are vertebrates and they have similar organ systems. Dissecting a frog helps you learn human anatomy. The On-Line Dissection: Each page explores a step in the frog dissection process, beginning with the materials set up, and concluding with a review and quiz. Each step is illustrated with images and links to additional facts, movies and activities. ... [Information of the supplier, modified]
This collection of sections through zebrafish embryos at four different stages of development is thought to provide some help to understand how the zebrafish embryo looks inside. Thin section in Araldite were stained with methylene blue. Images were taken and digitized. You will find an overview image for each stage, with links (click at numbers on image) to images of the sections. You can also download high resolution images (JPEG, about 1 MB), which in most cases are good enough to zoom in down to the level of individual cell nuclei. ... [Information of the supplier]
With increasing interest in organogenesis, tissue maintenance and integrity, and the use of zebrafish as a model for human disease, researchers are studying processes that extend further into the larval period. Despite many years of use as a model system an anatomical reference for larval zebrafish does not exist. In order to provide such a resource we developed FishNet an online anatomical reference for zebrafish larval development. Using the technique of optical projection tomography (OPT) (described in Bryson-Richardson and Currie 2004) we have created three- dimensional (3D) models of larval zebrafish from 5 mm to adulthood. Once a 3D model has been created it may be virtually sectioned in any plane or rendered to give a representation of the 3D organization of the sample. ... [Information of the supplier]
This OnLine laboratory manual features original anatomical descriptions of 112 species for use in invertebrate zoology teaching or research laboratories in North America. The collection was prepared over a period of many years to facilitate and encourage the study of invertebrate animals. It is a smorgasbord of species intended to provide a selection suitable for courses taught in most parts of North America. Many species, or their close relatives, also occur in other parts of the world, especially Europe. Although the chapters are written in laboratory manual format, they can also be used to support research or in other non-teaching situations as introductions to the anatomy of specific invertebrates . Most of these descriptions are based on dissections of invertebrate animals collected in the Carolinas, Georgia, Florida, Maine, and Oregon beginning in 1980. A few are based on preserved material or commercially prepared slides. The collection is under ongoing revision and new species are added periodically. The collection is sufficiently diverse to support undergraduate or graduate courses at most localities in North America. ... [Information of the supplier]
The Digital Fish Library (DFL) is a collaborative project at the University of California, San Diego between the Center for Scientific Computation in Imaging (CSCI), the Center for functional Magnetic Resonance Imaging (CfMRI) and the Scripps Institution of Oceanography (SIO), including the Birch Aquarium at Scripps. The DFL mission is to catalog the anatomical magnetic resonance imaging (MRI) data of fishes from most major saltwater, and many freshwater genera to provide a resource for research and education. ... [Information of the supplier]
Computers can't teach everything in anatomy, but they can teach some things better, either by themselves or through synergy with conventional methods. Try out this award-winning virtual frog- as a case in point. [Information of the supplier]
In Cooperation with the Institute for Anatomy and Cell Biology, the Library of the University of Heidelberg has digitalized selected anatomical literature and lithographs from the 19th century. This includes textbooks, scripts and drawings which described the teaching and research of this period, and has provided a unique insight into the work and history of the Institute. The oldest textbooks that have been digitalized were written by Jacob Fidelis Ackermann (*1765 †1815). The public was made aware of his presence from the beginning of his tenure in Heidelberg because he attempted, often with little success, to rebut the phrenological theses of Franz Josef Galls (*1758 †1828). Most of the anatomical drawings are lithographs by anatomists who worked in Heidelberg during their scientific career. Many of these very artistic lithographs originated in Heidelberg. Indeed Friedrich Tiedemann (*1781 †1861) dissected innumerable human and zoological cadavers during his tenure in Heidelberg, which he used to write his book “Tabulae Anatomicae”. Unfortunately, the work of Vincent Fohmann (*1794 †1837) concerning the “Saugadersystem”, today known as the lymphatic system, has been for all practical purposes forgotten. He was however well known outside of Germany for his uncomparable detailed mercury injections of specimens. Other authors include the Anatomists Friedrich Arnold (*1803 †1890), Carl Gegenbaur (*1826 †1903), and Alexander Ecker (*1816 †1887). ... [Information of the supplier, modified]
