Microfluidic synthesis of pH-sensitive nanoparticles containing curcumin against breast cancer cell

1.   Maeda H, Wu J, Sawa T, Matsumura Y, Hori K. Tumor vascular permeability and the EPR effect in macromolecular therapeutics: a review. J Control Release. 2000;65(1-2):271-284.
2. Li Z. Synthesis and Derivatization of Stimuli Responsive Mesoporous Silica Nanoparticles and Biomedical Drug Delivery Application: UCLA; 2015.
3. Valencia PM, Farokhzad OC, Karnik R, Langer R. Microfluidic technologies for accelerating the clinical translation of nanoparticles. Nat Nanotechnol. 2012;7(10):623-629.
4. Liu H, Zhang H, Wang J, Wei J. Effect of temperature on the size of biosynthesized silver nanoparticle: deep insight into microscopic kinetics analysis. Arab. J. Chem. 2020;13(1):1011-1019.
5. Krishna KS, Li Y, Li S, Kumar CS. Lab-on-a-chip synthesis of inorganic nanomaterials and quantum dots for biomedical applications. Adv Drug Deliv Rev. 2013;65(11-12):1470-1495.
6. Zhao C-X, He L, Qiao SZ, Middelberg AP. Nanoparticle synthesis in microreactors. Chem. Eng. Sci. 2011;66(7):1463-1479.
7. Ali HS, York P, Blagden N. Preparation of hydrocortisone nanosuspension through a bottom-up nanoprecipitation technique using microfluidic reactors. Int J Pharm. 2009;375(1-2):107-113.
8. Baby T, Liu Y, Middelberg AP, Zhao C-X. Fundamental studies on throughput capacities of hydrodynamic flow-focusing microfluidics for producing monodisperse polymer nanoparticles. Chem Eng Sci. 2017;169:128-139.
9. Xu J, Zhang S, Machado A, Lecommandoux S, Sandre O, Gu F, et al. Controllable microfluidic production of drug-loaded PLGA nanoparticles using partially water-miscible mixed solvent microdroplets as a precursor. Sci Rep. 2017;7(1):1-12.
10. Aghajani M, Shahverdi AR, Rezayat SM, Amini MA, Amani A. Preparation and optimization of acetaminophen nanosuspension through nanoprecipitation using microfluidic devices: an artificial neural networks study. Pharm Dev Technol. 2013;18(3):609-618.
11. Prado-Audelo D, María L, Caballero-Florán IH, Meza-Toledo JA, Mendoza-Muñoz N, González-Torres M, et al. Formulations of curcumin nanoparticles for brain diseases. Biomolecules. 2019;9(2):56.
12. Gómez-Lizárraga K, Flores-Morales C, Del Prado-Audelo M, Álvarez-Pérez M, Piña-Barba M, Escobedo C. Polycaprolactone-and polycaprolactone/ceramic-based 3D-bioplotted porous scaffolds for bone regeneration: A comparative study. Mater Sci Eng C Mater Biol Appl. 2017;79:326-335.
13. Seidi F, Jenjob R, Phakkeeree T, Crespy D. Saccharides, oligosaccharides, and polysaccharides nanoparticles for biomedical applications. J Control Release. 2018;284:188-212.
14. Lira A, Nanclares D, Neto A, Marchetti J. Drug–polymer interaction in the all-trans retinoic acid release from chitosan microparticles. J Therm Anal Calorim. 2007;87(3):899-903.
15. Shen J, Lee K, Choi S, Qu W, Wang Y, Burgess DJ. A reproducible accelerated in vitro release testing 
method for PLGA microspheres. Int J Pharm. 2016;498(1-2):274-282.
16. Motiei M, Kashanian S, Lucia LA, Khazaei M. Intrinsic parameters for the synthesis and tuned properties of amphiphilic chitosan drug delivery nanocarriers. J Control Release. 2017;260:213-225.
17. Zhao R, Qin X, Zhong J. Interaction between Curcumin and β-Casein: Multi-Spectroscopic and Molecular Dynamics Simulation Methods Molecules. 2021;26(16):5092.
18. Yallapu MM, Jaggi M, Chauhan SCJDdt. Curcumin nanoformulations: a future nanomedicine for cancer. Drug Discov Today.2012;17(1-2):71-80.
19. Justus C, Dong L, Yang L. Acidic tumor microenvironment and pH-sensing G protein-coupled receptors. Front Physiol. 2013;4.
20. Kim JW, Dang CV. Cancer’s molecular sweet tooth and the Warburg effect. Cancer Res. 2006;66(18):8927-8930. 
21. Cairns RA, Harris IS, Mak TW. Regulation of cancer cell metabolism. Nat Rev Cancer.2011;11(2):85-95.
22. Neri D, Supuran CT. Interfering with pH regulation in tumours as a therapeutic strategy. Nat Rev Drug Discov.2011;10(10):767-777.
23. Feng L, Dong Z, Tao D, Zhang Y, Liu Z. The acidic tumor microenvironment: a target for smart cancer nano-theranostics. Natl Sci Rev. 2018;5(2):269-286.
24. Demello AJ. Control and detection of chemical reactions in microfluidic systems. Nature. 2006;442(7101):394-402.
25. Kawai A, Kiriya H, Hara K, Futami T, Nishizawa K, Matsumoto S-i, et al. Development of a Microreactor for Manufacturing Gel Particles without Class Selection of Diameter. TOSOH Research and Technology Review. 2003;47:3-10.
26. Kubo A, Shinmori H, Takeuchi T. Atrazine-imprinted microspheres prepared using a microfluidic device. Chem Lett. 2006;35(6):588-589.
27. Rachmawati H, Yanda YL, Rahma A, Mase N. Curcumin-loaded PLA nanoparticles: formulation and physical evaluation. Sci Pharm.2016;84(1):191-202.
28. Jesus S, Soares E, Borchard G, Borges O. Poly-ε-caprolactone/chitosan nanoparticles provide strong 
adjuvant effect for hepatitis B antigen. Nanomedicine (Lond).2017;12(19):2335-2348.
29. Li R, Deng L, Cai Z, Zhang S, Wang K, Li L, et al. Liposomes coated with thiolated chitosan as drug carriers of curcumin. Mater Sci Eng C Mater Biol Appl.2017;80:156-164.
30. Prado LB, Huber SC, Barnabé A, Bassora FDS, Paixão DS, Duran N, et al. Characterization of pcl and chitosan nanoparticles as carriers of enoxaparin and its antithrombotic effect in animal models of venous thrombosis. J Nanotechnol. 2017;1-7.
31. Hickey JW, Santos JL, Williford J-M, Mao H-Q. Control of polymeric nanoparticle size to improve therapeutic delivery. J Control Release. 2015;219:536-547.
32. Chen R, Wulff JE, Moffitt MG. Microfluidic processing approach to controlling drug delivery properties of curcumin-loaded block copolymer nanoparticles. Mol Pharm. 2018;15(10):4517-4528.
33. Esfandiarpour-Boroujeni S, Bagheri-Khoulenjani S, Mirzadeh H, Amanpour S. Fabrication and study of curcumin loaded nanoparticles based on folate-chitosan for breast cancer therapy application. Carbohydr Polym. 2017;168:14-21.
34. Popat A, Liu J, Lu GQ, Qiao SZ. A pH-responsive drug delivery system based on chitosan coated mesoporous silica nanoparticles. J Mater Chem. 2012;22(22):11173-11178.
35. Omer AM, Sadik WA-A, El-Demerdash A-GM, Hassan HS. Formulation of pH-sensitive aminated chitosan–gelatin crosslinked hydrogel for oral drug delivery. J Saudi Chem Soc. 2021;25(12):101384.
36. Javaid S, Ahmad NM, Mahmood A, Nasir H, Iqbal M, Ahmad N, et al. Cefotaxime Loaded Polycaprolactone Based Polymeric Nanoparticles with Antifouling Properties for In-vitro Drug Release Applications. Polymers (Basel). 2021;13(13).
37. Zeighamian V, Darabi M, Akbarzadeh A, Rahmati-Yamchi M, Zarghami N, Badrzadeh F, et al. PNIPAAm-MAA nanoparticles as delivery vehicles for curcumin against MCF-7 breast cancer cells. Artif Cells Nanomed Biotechnol. 2016;44(2):735-742.

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