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  • Print publication year: 2012
  • Online publication date: January 2013

12 - Application of in vivo cryotechnique to living animal organs examined by scanning electron microscopy

12.7 References

Andrews, P. (1988). Morphological alterations of the glomerular (visceral) epithelium in response to pathological and experimental situations. Journal of Electron Microscopy Technique, 9, 115–44.
Athanassiou, G., Symeonidis, A., Kourakli, A., Missirlis, Y. F., and Zoumbos, N. C. (1992). Deformability of the erythrocyte membrane in patients with myelodysplastic syndromes. Acta Haematologica, 87, 169–72.
Bohrer, M. P., Deen, W. M., Robertson, C. R., and Brenner, B. M. (1977). Mechanism of angiotensin II-induced proteinuria in the rat. American Journal of Physiology, 233, F13–F21.
Brenner, B. M., Bohner, M. P., Baylis, C., and Deen, W. M. (1977). Determinants of glomerular permselectivity: Insights derived from observations in vivo. Kidney International, 12, 229–37.
Cynober, T., Mohandas, N., and Tchernia, G. (1996). Red cell abnormalities in hereditary spherocytosis: relevance to diagnosis and understanding of the variable expression of clinical severity. Journal of Laboratory and Clinical Medicine, 128, 259–69.
Drumond, M. C. and Deen, W. M. (1994). Structural determinants of glomerular hydraulic permeability. American Journal of Physiology, 266, F1–F12.
Furukawa, T., Ohno, S., Oguchi, H., et al. (1991). Morphometric study of glomerular slit diaphragms fixed by rapid-freezing and freeze-substitution. Kidney International, 40, 621–4.
Griffith, L. D., Bulger, R. E., and Trump, B. F. (1967). The ultrastructure of the functioning kidney. Laboratory Investigation, 16, 220–46.
Jehl, B., Bauer, R., Dorge, A., and Rick, R. (1981). The use of propane/isopentane mixtures for rapid freezing of biological specimens. Journal of Microscopy, 123, 307–9.
Kanwar, Y. S. (1984). Biophysiology of glomerular filtration and proteinuria. Laboratory Investigation, 51, 7–21.
Klug, P. P., Lessin, L. S., and Radice, P. (1974). Rheological aspects of sickle cell disease. Archives Internal Medicine, 133, 577–90.
Kriz, W., Hackenthal, E., Nobiling, R., Sakai, T., and Elger, M. (1994). A role for podocytes to counteract capillary wall distension. Kidney International, 45, 369–76.
Maeda, N. (1996). Erythrocyte rheology in microcirculation. Japanese Journal of Physiology, 46, 1–14.
Mokken, F. C., Waart, F. J., Henny, C. P., Goedhart, P. T., and Gelb, A. W. (1996). Differences in peripheral arterial and venous hemorheologic parameters. Annals of Hematology, 73, 135–7.
Ohno, N., Terada, N., Saitoh, S., et al. (2007). Recent development of in vivo cryotechnique to cryobiopsy for living animals. Histology and Histopathology, 22, 1281–90.
Ohno, N., Terada, N., Fujii, Y., Baba, T., and Ohno, S. (2004). “In vivo cryotechnique” for paradigm shift to “living morphology” of animal organs. Biomedical Review, 15, 1–19.
Ohno, S., Terada, N., Ohno, N., Fujii, Y., and Baba, T. (2006). In vivo cryotechnique” for examination of living animal organs, further developing to “cryobiopsy” for humans. Recent Research Development Molecular Cell Biology, 6, 65–90.
Ohno, S., Kato, Y., Xiang, T., et al. (2001). Ultrastructural study of mouse renal glomeruli under various hemodynamic conditions by an “in vivo cryotechnique.” Italian Journal of Anatomy and Embryology, 106, 431–8.
Ohno, S., Terada, N., Fujii, Y., Ueda, H., and Takayama, I. (1996a). Dynamic structure of glomerular capillary loop as revealed by an in vivo cryotechnique. Virchows Archiv, 427, 519–27.
Ohno, S., Baba, T., Terada, N., Fujii, Y., and Ueda, H. (1996b). Cell biology of kidney glomerulus. International Review of Cytology, 166, 181–230.
Ohno, S., Hora, K., Furukawa, T., and Oguchi, H. (1992). Ultrastructural study of the glomerular slit diaphragm in fresh unfixed kidneys by a quick-freezing method. Virchows Archiv B Cell Pathology, 61, 351–8.
Olivetti, G., Kithier, K., Giacomelli, F., and Wiener, J. (1981). Glomerular permeability to endogenous proteins in the rat. Laboratory Investigation, 44, 127–37.
Robinson, K. (1978). Abdominal aorta. In: Circulation of the Blood (ed. James, D. G.). Tunbridge Wells, England, Pitman Medical, pp. 173–175.
Ryan, G. B. and Karnovsky, M. J. (1976). Distribution of endogenous albumin in the rat glomerulus: Role of hemodynamic factors in glomerular barrier function. Kidney International, 9, 36–45.
Ryan, G. B., Hein, S. J., and Karnovsky, M. J. (1976). Glomerular permeability to proteins. Effects of hemodynamic factors on the distribution of endogenous immunoglobulin G and exogenous catalase in the rat glomerulus. Laboratory Investigation, 34, 415–27.
Rybicki, A. C., Qiu, J. J., Musto, S., et al. (1993). Human erythrocyte protein 4.2 deficiency associated with hemolytic anemia and a homozygous 40 glutamic acid-lysine substitution in the cytoplasmic domain of band 3. Blood, 81, 2155–65.
Shiga, T., Maeda, N., and Kon, K. (1990). Erythrocyte rheology. Critical Reviews in Oncology and Hematology, 10, 9–48.
Stuart, J. and Nash, G. B. (1990). Red cell deformability and haematological disorders. Blood Reviews, 4, 141–7.
Terada, N., Ohno, N., Li, Z., et al. (2006). Application of in vivo cryotechnique to the examination of cells and tissues in living animal organs. Histology and Histopathology, 21, 265–72.
Terada, N., Kato, Y., Fuji, Y. et al. (1998). Scanning electron microscopic study of flowing erythrocytes in hepatic sinusoids as revealed by “in vivo cryotechnique.” Journal of Electron Microscopy, 47, 67–72.
Terada, N. and Ohno, S. (1998). Dynamic morphology of erythrocytes revealed by cryofixation technique. Acta Anatomica Nipponica, 73, 587–93.
Terada, N., Fujii, Y., Ueda, H., and Ohno, S. (1997). Immunocytochemical study of human erythrocyte membrane skeletons under stretching conditions by quick-freezing and deep-etching method. Journal of Anatomy, 190, 397–404.
Xue, M., Baba, T., Terada, N., et al. (2001). Morphological study of erythrocyte shapes in red pulp of mouse spleens revealed by an in vivo cryotechnique. Histology and Histopathology, 16, 123–9.
Xue, M., Kato, Y., Terada, N. et al. (1998). Morphological study by an “in vivo cryotechnique” of the shape of erythrocytes circulating in large blood vessels. Journal of Anatomy, 193, 73–9.
Yoshimura, A., Ohno, S., Nakano, K., et al. (1991). Three-dimensional ultrastructure of anionic sites of the glomerular basement membrane by a quick-freezing and deep-etching method using a cationic tracer. Histochemistry, 96, 107–13.
Yu, Y., Leng, C. G., Kato, Y., et al. (1998). Ultrastructural study of anionic sites in glomerular basement membranes at different perfusion pressures by quick-freezing and deep-etching method. Nephron, 78, 88–95.
Yu, Y., Leng, C. G., Kato, Y., and Ohno, S. (1997). Ultrastructural study of glomerular capillary loops at different perfusion pressures as revealed by quick-freezing, freeze-substitution and conventional fixation methods. Nephron, 76, 452–459.
Zea-Aragon, A., Terada, N., Ohno, N., et al. (2004). Effects of anoxia on serum immunoglobulin and albumin leakage through blood-brain barrier in mouse cerebellum as revealed by cryotechniques. Journal of Neuroscience Methods, 138, 89–95.