REVIEW ARTIKEL : ANALISIS KARAKTERISTIK DAN PENGAPLIKASIAN TEKNOLOGI NANOPARTIKEL BERDASARKAN KLASIFIKASINYA PADA BERBAGAI JENIS TERAPI.
Abstract
Umumnya ukuran nanopartikel berkisar antara 1 sampai 100 nm dengan satu (atau) lebih dimensi. Umumnya nanopartikel diklasifikasikan menjadi anorganik, organik dan partikel berbasis karbon dalam skala nanometrik yang memiliki sifat yang lebih baik dibandingkan dengan ukuran yang lebih besar dari bahan masing-masing. Mereka menunjukkan sifat yang ditingkatkan seperti kekuatan, sensitivitas, reaktivitas tinggi, stabilitas, luas permukaan dll., karena ukurannya yang lebih kecil. Mereka disintesis oleh berbagai metode untuk penelitian dan penggunaan komersial yang diklasifikasikan menjadi tiga jenis-kimia, fisik dan mekanik proses yang telah melihat peningkatan besar. Pada artikel review ini membahas tentang berbagai jenis terapi yang memanfaatkan teknologi nanopartikel. Terapi tersebut juga di kalsifikasikan berdasarkan golongan nantotekologi.
References
Ali Aghebati-Maleki , Sanam Dolati , Majid Ahmadiet. al., Nanoparticles and cancer therapy: Perspectives for application of nanoparticles in the treatment of cancers. J Cell Physiol, 2020. 235(3): 1962-1972.
Amirkianoosh Kiani, Mohsen Rahmani, Sivakumar Manickam. Nanoceramics: Synthesis, Characterization, and Applications. journal of nanomaterials, 2014. 2014: 1-2.
Amudha Murugan, Krishna Kumara, Shanmugasundaram. Biosynthesis and characterization of silver nanoparticles using the aqueous extract of vitex negundo. linn. World J. Pharm. pharm. Sci., 2014; 3(8): 1385 -1393. 28.
Batool, A., Arshad, R., Razzaq, S., Nousheen, K., Kiani, MH. and Shahnaz, G. Formulation and evaluation of hyaluronic acid-based mucoadhesive Self Nanoemulsifying Drug Delivery System (SNEDDS) of tamoxifen for targeting breast cancer. International Journal of Biological Macromolecules. 2020: 503-5015.
Bhaviripudi S, Mile E, Iii S A S, Zare A T, Dresselhaus M S, Belcher A M and Kong J. CVD Synthesis of Single-Walled Carbon Nanotubes from Gold Nanoparticle Catalysts. J Am Chem Soc., 2017. 129(6): 1516-7.
Breast cancer: conventional diagnosis and treatment modalities and recent patents and technologies, Breast Cancer Basic Clin.Res. 9 (Suppl. 2) (2015) 17–34.
Brhaish Ali Saeed,Vuanghao Lim,Nor AdlinYusof, Kang Zi Khor, Heshu Sulaiman Rahman, and Nozlena Abdul SamadAntiangiogenic properties of nanoparticles: a systematic review. Int J Nanomedicine, 2019. 14: 5135–5146.
Cho E J, Holback H, Liu K C, Abouelmagd S A, Park J and Yeo Y. Nanoparticle characterization: State of the art, challenges, and emerging technologies. HHS public access manuscript, 2013. 10(6): 2093-2110.
Cronin-Fenton, D. P., dan Damkier, P. (2018). Tamoxifen and CYP2D6: A Controversy in Pharmacogenetics. Advances in pharmacology (San Diego, Calif.), 83. 65–91.
Ding Y, Sun D, Wang GL, et al. An efficient PEGylated liposomal nano carrier containing cellpenetrating peptide and pH-sensitive hydrazone bond for enhancing tumor-targeted drug delivery. Int J Nanomedicine. 2015. 10: 6199–6214.
Govind Soni , Khushwant S Yadav. Applications of nanoparticles in treatment and diagnosis of leukemia.Mater Sci Eng C Mater Biol Appl, 2015. 47: 156-64.
Hasan S. A Review on Nanoparticles: Their Synthesis and Types Biosynthesis and Mechanism. Research journal of recent sciences, 2015. 4: 1-3.
Ibrahim Khan, Khalid Saeed, and Idrees Khan. "Nanoparticles: Properties, applications and toxicities." Arabian Journal of Chemistry, 2019. 12(7): 908-931.
KC Hembram, S. Prabha, R. Chandra, B. Ahmed, S. Nimesh, Kemajuan dalam persiapan dan karakterisasi nanopartikel kitosan untuk terapi, Sel Buatan, Nanomed. Bioteknologi. 2016. 44:305–314.
Liu Z., Robinson, J.T., Sun, X., Dai, H. PEGylated Nanographene Oxide for Delivery of WaterInsoluble Cancer Drugs. J. Am. Chem. Soc., 2018. 130: 10876-10877.
Machado S, Pacheco J G, Nouws HPA, Albergaria J T and Delerue-Matos C.Characterization of green zero-valent iron nanoparticles produced with tree leaf extracts. Sci.Total Environ, 2018. 533: 76–81.
Makadia, H. A., Bhatt, A. Y., Parmar, R. B., Paun, J. S. & Tank, H. M. (2013). SelfNanoemulsifying Drug Delivery System (SNEDDS): Future Aspects. Asian J. Pharm. Res; 3(1); 21-24.
Minho Kim, Jung-Hoon Lee, Jwa-Min Nam. Plasmonic Photothermal Nanoparticles for Biomedical Applications. Adv Sci., 2019. 6(17): 1-23.
Narahari N. Palei, Bibhash C.Mohanta, Mohana L.Sabapathi, Malay K. Das. Lipid-based nanoparticles for diagnosis and therapy. Organic Materials as Smart Nanocarriers for Drug Delivery, 2018: 415-470.
Robert.W.J Scott, Orla M Wilson.Synthesis, Characterization, and Applications of DendrimerEncapsulated Nanoparticles.journal of physical chemistry, 2015. 109(2): 692–704.
Salavati-niasari M, Davar F, Mir N. Synthesis and characterization of metallic copper nanoparticles via thermal decomposition. Polyhedron, 2008. 27(17): 3514-3518.
Somaieh Mohammadi, Adam Harvey, Kamelia V.K. Boodhoo.Synthesis of TiO 2 nanoparticles in a spinning disc reactor .Chemical Engineering Journal, 2014. 258: 171–184.
Stefanos Mourdikoudis, Roger M. Pallares and Nguyen T. K. Thanh. Characterization techniques for nanoparticles: comparison and complementarity upon studying nanoparticle properties. Nanoscale, 2018; 10: 12871-12934.
Sun L, Singh AK, Vig K, Pillai SR, Singh SR. Silver nanoparticles inhibit replication of respiratory syncytial virus. Journal of Biomedical Nanotechnology, 2018. 4: 149-158.
Tiwari D K, Behari J, Sen P. Application of Nanoparticles in Waste Water Treatment. world appliedscience journal, 2016. 3(3): 417-433.
Tsai CY, Shiau AL, Chen SY, Chen YH, Cheng PC, et al. Amelioration of collagen-induced arthritis in rats by nanogold. Arthritis & Rheumatology, 2017. 56(2): 544-554.
Xi-Feng Z., Zhi-Guo L., Wei S., and Sangiliyandi G. Silver Nanoparticles: Synthesis, Characterization, Properties, Applications, and Therapeutic Approaches. international journal of molecular science, 2016; 17(9): 1534.
Yunes P., Masoud F., Majid M., Mozhdeh M., Rovshan K. Recent advances on liposomal nanoparticles: synthesis, characterization and biomedical applications. Artificial cells, Nanomedicine and Biotechnology, 2017. 45(4): 788-799.
Zorawar Singh. Nan ceramics in Bone Tissue Engineering: The Future Lies Ahead. Trends Journal of Sciences Research, 2018. 3(3): 120-123.
