IMPUL'SNAYa LAZERNAYa GIPERTERMIYa S NANOChASTITsAMI V KAChESTVE TERMOSENSIBILIZATOROV - NOVYY POTENTsIAL'NYY METOD PROTIVOOPUKhOLEVOY TERAPII

R I Yakubovskaya , A A Pankratov , T N Andreeva , Yu B Venediktova , B Ya Kogan , A V Butenin , V A Puchnova , R A Feyzulova , V M Rudoy , O V Dement'eva , M E Kartseva , M A Filippenko , V I Chissov , G N Vorozhtsov

Russian Journal of Oncology ›› 2010, Vol. 15 ›› Issue (6) : 32 -36.

PDF
Russian Journal of Oncology ›› 2010, Vol. 15 ›› Issue (6) :32 -36. DOI: 10.17816/onco39758
Articles
other
IMPUL'SNAYa LAZERNAYa GIPERTERMIYa S NANOChASTITsAMI V KAChESTVE TERMOSENSIBILIZATOROV - NOVYY POTENTsIAL'NYY METOD PROTIVOOPUKhOLEVOY TERAPII
Author information +
History +
PDF

Abstract

The antitumor properties of pulsed laser hyperthermia (PLH) based on nanoparticles (Nps) of silver (Agks and Agkv), the phthalocyanines of aluminum (AlPc). Zinc (ZnPc), cobalt (CoPc), metal-free phthalocyanine (H2Pc) were assessed. Under the optimum conditions, PLH based on ZnPc and Agks Nps had a comparable anti-tumor effect and resulted in long-term suppression of mouse tumor S-37 growth by 100-83%. The investigations have shown that PLH based on Nps as thermosensitizers has a marked antitumor effect. The findings suggest that it is expedient to conduct further comprehensive (preclinical) studies of the antitumor therapy technique in the experiment.

Keywords

pulsed laser hyperthermia / nanoparticles / antitumor therapy

Cite this article

Download citation ▾
R I Yakubovskaya, A A Pankratov, T N Andreeva, Yu B Venediktova, B Ya Kogan, A V Butenin, V A Puchnova, R A Feyzulova, V M Rudoy, O V Dement'eva, M E Kartseva, M A Filippenko, V I Chissov, G N Vorozhtsov. IMPUL'SNAYa LAZERNAYa GIPERTERMIYa S NANOChASTITsAMI V KAChESTVE TERMOSENSIBILIZATOROV - NOVYY POTENTsIAL'NYY METOD PROTIVOOPUKhOLEVOY TERAPII. Russian Journal of Oncology, 2010, 15(6): 32-36 DOI:10.17816/onco39758

登录浏览全文

4963

注册一个新账户 忘记密码

References

Publishing order | Descend order by publishing year | Descend order by cited within
[1]

Арсеньев А. И., Гельфонд М. Л., Клименко В. Н. и др. // Рос. биотер. журн. - 2008. - Т. 7, № 4. - С. 12-15.
[2]

Вакуловская Е. Г., Летягин В. П., Погодина Е. М. // Рос. биотер. журн. - 2003. - Т. 2, № 4. - С. 57-60.
[3]

Морозова Н. Б., Якубовская Р. И., Чиссов В. И. // Рос. биотер. журн. - 2007. - Т. 6, № 2. - С. 50-54.
[4]

Новикова Е. Г., Трушина О. И., Соколов В. В., Филоненко Е. В. // Рос. онкол. журн. - 2005. - № 6. - С. 28-33.
[5]

Руководство по экспериментальному (доклиническому) изучению новых фармакологических веществ / Под ред. Р. У. Хабриева. - М., 2005.
[6]

Соколов В. В., Чиссов В. И., Филоненко Е. В. и др. // Рос. биотер. журн. - 2006. - Т. 5, № 1. - С. 32.
[7]

Чиссов В. И., Соколов В. В., Филоненко Е. В. // Рос. хим. журн. - 1998. - Т. 42, № 5. - С. 5-9.
[8]

Чиссов В. И., Соколов В. В., Решетов И. В. и др. // Рос. онкол. журн. - 2009. - № 2. - С. 4-7.
[9]

Anderson C. Y., Fristin K., Tubesing K. A. et al. // J. Photochem. Photobiol. - 1998. - Vol. 67, N 3. - P. 332-336.
[10]

Bellinier D. A., Greco W. R., Nava H. et al. // Cancer Chemother. Pharmacol. - 2006. - Vol. 57, N 1. - P. 40-45.

RIGHTS & PERMISSIONS

Eco-Vector

PDF

386

Accesses

0

Citation

Detail
Sections
Recommended

/