Subcutaneous daily injection (with neglect of aseptics) of 0.5 ml solution of soybean cream substitute (10% volume in distilled water) during 30 days caused systemic amyloidosis in 30-day-old mice. All the known methods for induction of systemic amyloidosis are based on the use of old animals, as senile tissue bradytrophy allows effective simulation of amyloidosis.
Similar content being viewed by others
References
Aleksandrova AV. Dimensions of nanoparticles and their pharmacological activity. Uspekhi Sovrem. Estestvoznan. 2014;(6):97-98. Russian.
Zaalishvili TV, Kozyrev KM. Methods for simulation of amyloidosis in experimental animals. Uspekhi Sovrem. Estestvoznan. 2005;(2):78-79. Russian.
Kozlov VA, Sapozhnikov SP, Sheptuhina AI, Golenkov AV. The comparative analysis of various amyloid models. Vestn. Ross. Akad. Med. Nauk. 2015;(1):5-11. Russian.
Kosnyreva LM, Krishtafovich VI, Poznyakovskii VM. Food Science and Examination of Meat and Meat Products. Moscow, 2005. Russian.
Kravkov NP. On the substance giving iodine reaction to amyloid. Vrach. 1894;(23):650-652. Russian.
Gioeva ZV, Zaalishvili TV, Kozyrev KM, Brin VB. Patent RF No. 2306617. Method for Modeling Experimental Amyloidosis in Animals. Bull. No. 36. Published September 20, 2007.
Pukhova IU, Kozyrev KM, Brin VB. Patent RF No. 2347279. Method of Experimental Amyloidosis Modelling in Animals. Bull. No. 6. Published February 20, 2009.
Gabueva AA, Kozyrev KM, Brin VB. Patent RF No. 2373581. Method of Simulating Amyloidosis in Animals. Bull No. 32. Published November 20, 2009.
Brin VB, Belikova AT, Kozyrev KM. Patent RF No. 2446482. Method for Simulation of Experimental Amyloidosis in Animals. Bull. No. 9. Published March 27, 2012.
Gritsman AYu. Patent USSR No. 629548. Method for Simulation Amyloidosis. Bull. No. 39. Published October 25, 1978. Russian.
Perkel’ TP. Physicochemical and Biochemical Bases of Meat Food Production. Kemerovo, 2004. Russian.
Laboratory Animals and Alternative Models in Biomedical Research. Karkishchenko NN, Gracheva SV, eds. Moscow, 2010. Russian. Russian.
Chumachenko VE. Vysotskii AM, Serdyuk NA, Chumachenko VV. Evaluation of Natural Resistance and Metabolism in Farm Animals. Kiev, 1990. Russian.
Yang X, He C, Li J, Chen H, Ma Q, Sui X, Tian S, Ying M, Zhang Q, Luo Y, Zhuang Z, Liu J. Uptake of silica nanoparticles: neurotoxicity and Alzheimer-like pathology in human SK-N-SH and mouse neuro2a neuroblastoma cells. Toxicol. Lett. 2014;229(1):240-249.
Author information
Authors and Affiliations
Corresponding author
Additional information
Translated from Byulleten’ Eksperimental’noi Biologii i Meditsiny, Vol. 162, No. 10, pp. 523-527, October, 2016
Rights and permissions
About this article
Cite this article
Kozlov, V.A., Sapozhnikov, S.P., Karyshev, P.B. et al. Systemic Amyloidosis Model on Young Mice. Bull Exp Biol Med 162, 520–523 (2017). https://doi.org/10.1007/s10517-017-3652-y
Received:
Published:
Issue Date:
DOI: https://doi.org/10.1007/s10517-017-3652-y