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Ayati Z., Ramezani M., Amiri M.S., Moghadam A.T., Rahimi H., Abdollahzade A., Sahebkar A., Emami S.A., Ethnobotany, phytochemistry and traditional uses of curcuma spp. and pharmacological profile of two important species (c. longa and c. zedoaria): a review, Curr. Pharm. Des., 2019, 25, 871–935.Search in Google Scholar
Bao C.J., Duan J.L., Xie Y., Feng X.P., Cui W., Chen S.Y., Li P.S., Liu Y.X., Wang J.L., Wang G.L., Lu W.L., Bioorthogonal engineered virus-like nanoparticles for efficient gene therapy, Nano-Micro Lett., 2023, 15, 197.Search in Google Scholar
Baryakova T.H., Pogostin B.H., Langer R., Mchugh K.J., Overcoming barriers to patient adherence: the case for developing innovative drug delivery systems, Nat. Rev. Drug Discovery, 2023, 22, 387–409.Search in Google Scholar
Chen M., Shu G., Lv X., Xu X., Lu C., Qiao E., Fang S., Shen L., Zhang N., Wang J., Chen C., Song J., Liu Z., Du Y., Ji J., HIF-2α-targeted interventional chemoembolization multifunctional microspheres for effective elimination of hepatocellular carcinoma, Biomaterials, 2022, 284, 121512.Search in Google Scholar
Cheng S., Xu X., Wang R., Chen W., Qin K., Yan J., Chondroprotective effects of bone marrow mesenchymal stem cell-derived exosomes in osteoarthritis, J. Bioenerg. Biomembr., 2023, 56, 31–44.Search in Google Scholar
Desai T.D., Wen Y.T., Daddam J.R., Cheng F., Chen C.C., Pan C.L., Lin K.L., Tsai R.K., Long term therapeutic effects of icariin-loaded PLGA microspheres in an experimental model of optic nerve ischemia via modulation of CEBP-β/GCSF/noncanonical NF-κB axis, Bioeng. Transl. Med., 2022, 7, e10289.Search in Google Scholar
Erdag D., Koc S., Oksuzomer M., Yalcintepe L., Synergistic effect of selenium and genipin triggers viability of 3T3 cells on PVA/Gelatin scaffolds, Acta Bioeng. Biomech., 2022, 24, 179–190.Search in Google Scholar
Etter E.L., Mei K.C., Nguyen J., Delivering more for less: nanosized, minimal-carrier and pharmacoactive drug delivery systems, Adv. Drug Delivery Rev., 2021, 179, 113994.Search in Google Scholar
Hassanizadeh S., Shojaei M., Bagherniya M., Orekhov A.N., Sahebkar A., Effect of nano-curcumin on various diseases: a comprehensive review of clinical trials, Biofactors, 2023, 49, 512–533.Search in Google Scholar
Kunnumakkara A.B., Bordoloi D., Padmavathi G., Monisha J., Roy N.K., Prasad S., Aggarwal B.B., Curcumin, the golden nutraceutical: multitargeting for multiple chronic diseases, Br. J. Pharmacol., 2017, 174, 1325–1348.Search in Google Scholar
Li Y., Li L., Wang M., Yang B., Huang B., Bai S., Zhang X., Hou N., Wang H., Yang Z., Tang C., Li Y., Yuk-Wai L.W., Feng L., Tortorella M.D., Li G., O-alg-THAM/gel hydrogels functionalized with engineered microspheres based on mesenchymal stem cell secretion recruit endogenous stem cells for cartilage repair, Bioact. Mater., 2023, 28, 255–272.Search in Google Scholar
Liu Y., Mi B., Lv H., Liu J., Xiong Y., Hu L., Xue H., Panayi A.C., Liu G., Zhou W., Shared KEGG pathways of icariin-targeted genes and osteoarthritis, J. Cell. Biochem., 2019, 120, 7741–7750.Search in Google Scholar
Luo L., Wu Y., Liu C., Zou Y., Huang L., Liang Y., Ren J., Liu Y., Lin Q., Elaboration and characterization of curcumin- loaded soy soluble polysaccharide (SSPS)-based nanocarriers mediated by antimicrobial peptide nisin, Food Chem., 2021, 336, 127669.Search in Google Scholar
Maadani A.M., Salahinejad E., Performance comparison of PLA- and PLGA-coated porous bioceramic scaffolds: Mechanical, biodegradability, bioactivity, delivery and biocompatibility assessments, J. Controlled Release, 2022, 351, 1–7.Search in Google Scholar
Mladenov M., Bogdanov J., Bogdanov B., HadziPetrushev N., Kamkin A., Stojchevski R., Avtanski D., Efficacy of the monocarbonyl curcumin analog C66 in the reduction of diabetes-associated cardiovascular and kidney complications, Mol. Med., 2022, 28, 129.Search in Google Scholar
Obaleye M., Kavaz D., Olaifa J., Freeze-dried crosslinked anionic hydrogels composed of poly(vinyl pyrrolidone) and poly(vinyl alcohol): synthesis, characterization and degradability performance, Acta Bioeng. Biomech., 2022, 24, 65–73.Search in Google Scholar
Pan Q., Gao C., Wang Y.Y., Wang Y.L., Mao C., Wang Q., Economidou S., Douroumis D., Wen F., Tan L., Li H., Investigation of bone reconstruction using an attenuated immunogenicity xenogenic composite scaffold fabricated by 3D printing, Bio-Des. Manuf., 2020, 3, 396–409.Search in Google Scholar
Rocha C.V., Gonçalves V., Da-Silva M.C., Bañobre-López M., Gallo J., PLGA-based composites for various biomedical applications, Int. J. Mol. Sci., 2022, 23, 2034.Search in Google Scholar
Ruan L., Su M., Qin X., Ruan Q., Lang W., Wu M., Chen Y., Lv Q., Progress in the application of sustained-release drug microspheres in tissue engineering, Mater. Today Bio, 2022, 16, 100394.Search in Google Scholar
Sadreddini S., Jodati H., Evis Z., Keskin D., Novel barium- doped-baghdadite incorporated PHBV-PCL composite fibrous scaffolds for bone tissue engineering, J. Mech. Behav. Biomed. Mater., 2023, 148, 106185.Search in Google Scholar
Sun X., Wei J., Lyu J., Bian T., Liu Z., Huang J., Pi F., Li C., Zhong Z., Bone-targeting drug delivery system of biomineral-binding liposomes loaded with icariin enhances the treatment for osteoporosis, J. Nanobiotechnol., 2019, 17, 10.Search in Google Scholar
Szabó R., Rácz C.P., Dulf F.V., Bioavailability improvement strategies for icariin and its derivates: A review, Int. J. Mol. Sci., 2022, 23, 7519.Search in Google Scholar
Tsuda T., Curcumin as a functional food-derived factor: degradation products, metabolites, bioactivity, and future perspectives, Food Funct., 2018, 9, 705–714.Search in Google Scholar
Wan B., Bao Q., Burgess D., Long-acting PLGA microspheres: advances in excipient and product analysis toward improved product understanding, Adv. Drug Delivery Rev., 2023, 198, 114857.Search in Google Scholar
Wang L., Xu Z., Ling D., Li J., Wang Y., Shan T., The regulatory role of dietary factors in skeletal muscle development, regeneration and function, Crit. Rev. Food Sci. Nutr., 2020, 62, 764–782.Search in Google Scholar
WoŹna A.E., Junka A., Hoppe V.W., Influence of the different composites (PLA/PLLA/HA/β-TCP) contents manufactured with the use of additive laser technology on the biocompatibility, Acta Bioeng. Biomech., 2021, 23, 169–180.Search in Google Scholar
Xu C., Zhai Z., Ying H., Lu L., Zhang J., Zeng Y., Curcumin primed ADMSCs derived small extracellular vesicle exert enhanced protective effects on osteoarthritis by inhibiting oxidative stress and chondrocyte apoptosis, J. Nanobiotechnol., 2022, 20, 123.Search in Google Scholar
Yallapu M.M., Nagesh P.K., Jaggi M., Chauhan S.C., Therapeutic applications of curcumin nanoformulations, Aaps J., 2015, 17, 1341–1356.Search in Google Scholar
Yuan Z., Wan Z., Wei P., Lu X., Mao J., Cai Q., Zhang X., Yang X., Dual-controlled release of icariin/Mg2+ from biodegradable microspheres and their synergistic upregulation effect on bone regeneration, Adv. Healthcare Mater., 2020, 9, e2000211.Search in Google Scholar
Zeng J., Sun P., Zhao Y., Fang X., Wu Z., Qi X., Bone mesenchymal stem cell-derived exosomes involved co-delivery and synergism effect with icariin via mussel-inspired multifunctional hydrogel for cartilage protection, Asian J. Pharm. Sci., 2023, 18, 100799.Search in Google Scholar
