In vitro study of the anticancer activity of various doxorubicin-containing dispersions

Tatiana Matvienko ¹, Viktoriya Sokolova ², Svitlana Prylutska ¹, Yuliia Harahuts ¹, Nataliya Kutsevol ¹, Viktor Kostjukov ³, Maxim Evstigneev ³ * , Yuriy Prylutskyy ¹ * , Matthias Epple ², Uwe Ritter ⁴

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1- Yeshchenko O, Kutsevol N, Virych P, Khort P, Virych P, Chumachenko V, Cekhun V. Anti-cancer activity of zinc-tetraphenylporphyrin photosensitizer/dextran-graft-polyacrylamide copolymer/Au(Ag) nanoparticle nanohybrids. RSC Adv. 2024;14(8):5045 [Crossref]

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3- Nguyen T, Le N, Nguyen N, Ly B, Nguyen T, Nguyen D. Aminated hollow mesoporous silica nanoparticles as an enhanced loading and sustained releasing carrier for doxorubicin delivery. Microporous and Mesoporous Materials. 2020;309:110543 [Crossref]

4- Yurchenko A, Nikitina N, Sokolova V, Prylutska S, Kuziv Y, Virych P, Chumachenko V, Kutsevol N, Ponomarenko S, Prylutskyy Y, Epple M. A Novel Branched Copolymer-Containing Anticancer Drug for Targeted Therapy: In Vitro Research. BioNanoSci. 2020;10(1):249 [Crossref]

5- Kutsevol N, Kuziv Y, Chumachenko V, Nadtoka O, Bulavin L, Chekhun V. Experimental Approach to the Creation of Efficient Multicomponent Nanocomposites for Antitumor Therapy. Ukr J Phys. 2020;65(8):678 [Crossref]

6- Harahuts Y, Kutsevol N, Melnik N, Nadtoka O, Virych P. Studying the nanosystem thermosensitive branched polymer/nanogold/chlorine e6 in Hanks’ balanced salt solution. Polim z. 2019;41(3):190 [Crossref]

7- Carrion C, Nasrollahzadeh M, Sajjadi M, Jaleh B, Soufi G, Iravani S. Lignin, lipid, protein, hyaluronic acid, starch, cellulose, gum, pectin, alginate and chitosan-based nanomaterials for cancer nanotherapy: Challenges and opportunities. International Journal of Biological Macromolecules. 2021;178:193 [Crossref]

8- Gharehdaghi Z, Rahimi R, Naghib S, Molaabasi F. Cu (II)-porphyrin metal–organic framework/graphene oxide: synthesis, characterization, and application as a pH-responsive drug carrier for breast cancer treatment. J Biol Inorg Chem. 2021;26(6):689 [Crossref]

9- Kachousangi M, Shadboorestan A, Shamsian A, Amini M, Atyabi F, Ghahremani M. A Novel pH-sensitive Nanocomposite Based on Graphene Oxide for Improving Doxorubicin Release. CDD. 2024;21(1):140 [Crossref]

10- Al-Attar H, Mohammad M, Alwan A. Laser ablation of asphalt and coal in different solvents an In Vitro study. Lasers Med Sci. 2023;38(1) [Crossref]

11- Chernykh M, Zavalny D, Sokolova V, Ponomarenko S, Prylutska S, Kuziv Y, Chumachenko V, Marynin A, Kutsevol N, Epple M, Ritter U, Piosik J, Prylutskyy Y. A New Water-Soluble Thermosensitive Star-Like Copolymer as a Promising Carrier of the Chemotherapeutic Drug Doxorubicin. Materials. 2021;14(13):3517 [Crossref]

12- Sarvari R, Naghili B, Agbolaghi S, Abbaspoor S, Bannazadeh Baghi H, Poortahmasebi V, Sadrmohammadi M, Hosseini M. Organic/polymeric antibiofilm coatings for surface modification of medical devices. International Journal of Polymeric Materials and Polymeric Biomaterials. 2023;72(11):867 [Crossref]

13- Alemi F, Zarezadeh R, Sadigh A, Hamishehkar H, Rahimi M, Majidinia M, Asemi Z, Ebrahimi-Kalan A, Yousefi B, Rashtchizadeh N. Graphene oxide and reduced graphene oxide: Efficient cargo platforms for cancer theranostics. Journal of Drug Delivery Science and Technology. 2020;60:101974 [Crossref]

14- Chumachenko V, Kutsevol N, Harahuts I, Soloviov D, Bulavin L, Yeshchenko O, Naumenko A, Nadtoka O, Marinin A. Temperature Driven Transformation in Dextran-Graft-PNIPAM/Embedded Silver Nanoparticle Hybrid System. International Journal of Polymer Science. 2019;2019:1 [Crossref]

15- Kutsevol N, Kuziv Y, Bezugla T, Virych P, Marynin A, Borikun T, Lukianova N, Virych P, Chekhun V. Application of new multicomponent nanosystems for overcoming doxorubicin resistance in breast cancer therapy. Appl Nanosci. 2022;12(3):427 [Crossref]

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