The Department of Anatomy and Cell Biology is responsible for teaching gross anatomy, histology, embryology, and neuroanatomy courses for medical and dental students. Comprehensive anatomy and histology courses are also provided for the students of health sciences. Graduate programs were set up in 1969 and 1986, offering training courses leading to M.S. and Ph.D. degrees respectively, in anatomy and cell biology. Our graduate institute stresses the scientific education of graduate students and aims to provide them with broad experience in cell biology and neuroscience as a prelude to be basic medical educators as well as productive research scientists. The teaching staff includes 11 full-time and 6 part-time faculty members; all are academy competent in various areas. Recruiting promising young cell biologists and neuroscientists to join our faculty team is one of goals for the renaissance of our department.
The "Anatomy Classroom" (Department of Anatomy) was first established since this medical school founded in 1897 by the Japanese. After World War II, the mission of this department was mainly offered the basic training of anatomy for medical students. Our graduate programs were set up in 1969 and 1986 respectively offering training courses leading to M.S. and Ph.D. in anatomy and cell biology.
Professor and Chairman
Nerve Degeneration and Neuropathic Pain
1.Morphology and Cell Biology of the Taste Bud in Rodents
2.Ultrastructure and Cell Biology of the Subfornical and Subcommissural Organs
3.Effect of Beta-Lapachone on the Apoptosis, Proliferation and Migration of Various Cell Types in Vitro and in Vivo
1.Muscle biology of cardiomyocytes
2.Signal pathway of steroidogenesis in adrenal cells
1.The untrastructure and permeability of blood capillary
2.Ultrastructure studies on macromolecular permeability in relation to endothelial cell turnover
3.The mechanisms of the pathogenesis of atherosclerosis and restenosis
4.The effects of Chinese herbal medicines and antioxidant enzymes on the treatment of atherosclerosis and restenosis and their underlying mechanisms
Cell Biology (Cytoskeletons), Biology of Embryonic Stem (ES) cells,Cellular and Animal Models for Neuronal Diseases, Cancer Biology and Transgenic Mice
Somatosensory integration,neuropathic pain: mechanism and Techniques
Cancer cell biology and vascular cell biology
1.The protective effects and mechanism of pre/post-conditioning on reperfusion injury. 2.The mechanisms of tumor invasiveness of gastrointestinal cancers.
Dendritic development, Cell type identification, Somatosensation, Neuropathic pain
1.The therapeutic mechanism of nutrient deprivation on cancers. 2.The effect of plant extracts on diabetes.
The therapeutic effect and mechanism of umbilical cord matrix-derived mesenchymal stem cells on vascular disease.
1.neurotransmitters of the central nervous system.
2.somatic sensory system.
4.differentiation of microglia cell.
The structure, connection and plasticity of brain stem nuclei.
Neurobiology of Neurorecepters
1.Neuro-Development and Regeneration
3.In Situ Hybridization Cytochemistry
4.Neocortical cultured cells
The neurobiology of neuronal degeneration and regeneration
The Department of Anatomy and Cell Biology follows a multidisciplinary direction and will continue to raise the level of research standard to meet the contemporary trends in biomedical sciences and needs in Taiwan. Fields represented include Morphology, Neurobiology, Cell Biology and Molecular Biology. Current research interests are as follows: (1). The cell biology of the autonomic nervous system and taste bud. (2) Signaling pathway of lipolysis. (3) The molecular and cell biology of nerve regeneration and neurotransmitter receptors. (4) Neurobiology of peripheral nerve disorders: molecular genetics, pathology and mechanism. (5) The mechanisms of the pathogenesis of atherosclerosis and restenosis. (6) Neuronal cytoskeletons: molecular and cellular studies and transgenic approach. (7) The neuroscience research of the CNS injury. (8) The cell biology of cell adhesion molecules. (9) Cancer cell biology and vascular cell biology (10) Mechanism of neuropathic pain and plasticity.
The graduate courses encompass advanced technologies in neurobiology, cellular and molecular biology. Facilities for teaching and research are constantly being upgraded. All facilities are provided for studies in the fields of histology, neurobiology, cell biology and molecular biology. Major equipment includes light microscopes for various uses, transmission and scanning electron microscopes, laser scanning confocal microscope, ultramircotomes, cryostats, ultra-centrifuges, and cryoultramicrotome system. In addition, a tissue culture lab and an image analysis system have been established.Teachings on gross anatomy, histology, neuro-anatomy and embryology are supported by excellent teaching films, models, specimens and slides.