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Child's Nervous System : ChNS :... Aug 2023Benedict Stilling (1810-1879), was a prolific, prominent, and ambitious anatomist, who performed works on the organization of the nervous system for many years. He made...
Benedict Stilling (1810-1879), was a prolific, prominent, and ambitious anatomist, who performed works on the organization of the nervous system for many years. He made numerous observations on the anatomy of the nervous system in various animal species. Stilling contributed to the establishment of significant foundations in the anatomy of the spinal cord, brainstem, and cerebellum. Stilling paved the way for future researchers by describing the techniques he used in his diligent studies published in his published books. In his books, which include many drawings and cadaveric images, he revealed the relationships between the structures in the nervous system. He also made significant contributions to neuroanatomy terminology by coining terms in these books. At the same time, some nuclei in the anatomy of the nervous system were later named after him as an eponym by many researchers. Therefore, Stilling's neuroanatomical works, which are still important today, should be appreciated. This article aims to emphasize his pioneering work in neuroanatomy.
Topics: Humans; Animals; Male; Neuroanatomy; Spinal Cord; Brain Stem; Cerebellum; Eponyms
PubMed: 35357551
DOI: 10.1007/s00381-022-05512-9 -
Diagnostics (Basel, Switzerland) Sep 2023Anatomic studies have traditionally relied on macroscopic, microscopic, and histological techniques to investigate the structure of tissues and organs. Anatomic studies... (Review)
Review
Anatomic studies have traditionally relied on macroscopic, microscopic, and histological techniques to investigate the structure of tissues and organs. Anatomic studies are essential in many fields, including medicine, biology, and veterinary science. Advances in technology, such as imaging techniques and molecular biology, continue to provide new insights into the anatomy of living organisms. Therefore, anatomy remains an active and important area in the scientific field. The consolidation in recent years of some omics technologies such as genomics, transcriptomics, proteomics, and metabolomics allows for a more complete and detailed understanding of the structure and function of cells, tissues, and organs. These have been joined more recently by "omics" such as radiomics, pathomics, and connectomics, supported by computer-assisted technologies such as neural networks, 3D bioprinting, and artificial intelligence. All these new tools, although some are still in the early stages of development, have the potential to strongly contribute to the macroscopic and microscopic characterization in medicine. For anatomists, it is time to hitch a ride and get on board omics technologies to sail to new frontiers and to explore novel scenarios in anatomy.
PubMed: 37761332
DOI: 10.3390/diagnostics13182963