Hostname: page-component-586b7cd67f-dsjbd Total loading time: 0 Render date: 2024-11-24T02:54:35.932Z Has data issue: false hasContentIssue false

Studies on the Berkefeld-Filtration of Complement

Published online by Cambridge University Press:  15 May 2009

Hans Schmidt
Affiliation:
(From the Bacteriological Department, Lister Institute, London.)
Rights & Permissions [Opens in a new window]

Extract

Core share and HTML view are not available for this content. However, as you have access to this content, a full PDF is available via the ‘Save PDF’ action button.

In the Berkefeld filtration of a fresh guinea-pig serum, adsorption on the filter surface takes place, and the serum passes unaltered, if the saturation of the adsorbing surface has become complete.

This adsorption involves most probably first the albumins, which process then secondly influences the filtrability of the globulins. It is also shown that the physical conditions of the serum as regards salt concentration and dilution as well as H.-concentration modify the effect of filtration to a large extent.

Type
Research Article
Copyright
Copyright © Cambridge University Press 1914

References

REFERENCES

Andrejew, P. (1910). Arbeit aus d. Kaiserl. Gesundheitsamt, XXXIII. 84, 377.Google Scholar
Andrejew, P. and Neufeld, (1909). Referat der freien Verein. f. Mikrobiologie, 3te Tagg. ref. Zeitschr. f. Immunitätsforschung, 1909, 537.Google Scholar
Bayliss, W. M. (1906). Biochemical Journal, I. 187.Google Scholar
Berczeller, L. (1913). Biochem. Zeitschr. LIII. 215.Google Scholar
Bottazzi, (1912). Rend. R. Acc. dei Lincei Roma [5], XII. 221, ref. Kolloidzeitschr. 1913, XII. 205.Google Scholar
Browning, C. H., and Mackie, T. J. (1912). Biochem. Zeitschr. XLIII. 229.Google Scholar
Browning, C. H., and Mackie, T. J. (1913). Zeitschr. f. Immunitätsf. XVII. 1.Google Scholar
Browning, C. H., and Mackie, T. J. (1914). Zeitschr. f. Immunitätsf. XXI. 422.Google Scholar
Chick, H., and Martin, C. J. (1913). Kolloidchem. Beihefte, V. 92.Google Scholar
Chick, H. (1913). Biochemical Journal, VII. 318.CrossRefGoogle Scholar
Craw, J. A. (1908). Journal of Hygiene, VIII. 70.CrossRefGoogle Scholar
Fichter, Fr. (1911). Kolloidzeitschr. VIII. 1.Google Scholar
Gramenitzky, M. J. (1913). Biochem. Zeitschr. LII. 142.Google Scholar
Grenet, Fr. (1910). Compt. rend. d. l' Ac. d. sc. CLI. 941.Google Scholar
Helmholtz, V. (1879). Wiedemann's Annal. VII. 337.Google Scholar
Holderer, M. (1909). Compt. rend. d. l' Ac. d. sc. CXLIX. 1153.Google Scholar
Holderer, M. (1910). Compt. rend. d. l' Ac. d. sc. CL. 285.Google Scholar
Holderer, M. and Bertrand, G. (1910). Compt. rend. d. l'Ac. d. sc. CL. 230.Google Scholar
Holderer, M. and Bertrand, G. (1912). Compt. rend. d. l'Ac. d. sc. CLV. 318.Google Scholar
Iscovesco, (1910). Compt. rend. Soc. Biol. LXIX. 622.Google Scholar
Iscovesco, (1911). Compt. rend. Soc. Biol. LXX. 11.Google Scholar
Manol, and Nowaczynski, (1910). Compt. rend. Soc. Biol. LXIX. 430.Google Scholar
Muir, R., and Browning, C. H. (1909). Journ. of Path. a. Bacteriol, XIII. 233.Google Scholar
Pauli, W. (1908). Kolloidzeitschr. III. 2.Google Scholar
Pauli, W. (1913). Kolloidzeitschr. XII. 222.Google Scholar
Perrin, J. (1904). Journ. de Chim. physique, II. 601.CrossRefGoogle Scholar
Perrin, J. (1905). Journ. de Chim. physique, III. 508.Google Scholar
Perrin, J. (1906). Journ. de Chim. physique, IV. 368.Google Scholar
Quincke, (1861). Poggendorff's Annal. CXIII. 513.Google Scholar
Sachs, and Teruuchi, (1907). Berlin. klin. Woch. 16, 46.Google Scholar
Sahlbohm, N. (1910). Kolloidchem. Beihefte, II. 79.CrossRefGoogle Scholar
Schmidt, P. (1911). Zeitschr. f. Hyg. LXIX. 513.CrossRefGoogle Scholar
Schmidt, P. (1912). Arch. f. Hyg. LXXVI. 284.Google Scholar
Schmidt, P. (1912). Kolloidzeitschr. X. 3, XI. 5.Google Scholar
Schmidt, H. (1913). Journ. Hygiene, XIII. 314.CrossRefGoogle Scholar
Schmidt, H. (1914). Journ. Hygiene.Google Scholar
Traube, J. (1908). Biochem. Zeitschr. X. 380.Google Scholar