A Review of Some Applications of Nanoparticle Technology and New Materials in Medical and Dental Sciences

Rahim Aali, Hasan Nanbakhsh, Nader Agha khani

Abstract


When it comes to nanotechnology it is considered the advanced technologies in the field of working with nanoscale. New materials technology refers to those are molecularly and atomically applied to new materials in the medical sciences. This technology has been able to make dramatic changes in various sciences as a superior technology. Meanwhile, medical sciences are no exception to these developments and this technology has been able to create a revolution in the field of medicine. Today, nano has revolutionized the discussion of drug delivery, the treatment of water-insoluble drugs, the possibility of injecting or injecting drugs, eliminating the side effects of drugs, early detection of diseases, and treatment of terminally ill patients such as AIDS, hepatitis, and cancer. In this article, some applied fields of nanotechnology and new materials in medical sciences are described. Therefore as nanotechnology is of high significant in the trends of medical sciences, this study as a review is conducted. Library and Internet resources as well as reports of the Presidential Special Nanotechnology Headquarters have been used to collect materials.


Keywords


Nanotechnology; Drug Delivery; Implants; Imaging

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References


Davahli, M. R., Karwowski, W., & Taiar, R. (2020). A System Dynamics Simulation Applied to Healthcare: A Systematic Review. International Journal of Environmental Research and Public Health, 17(16), 5741.

Azimzadeh, M., Rahaie, M., Nasirizadeh, N., Daneshpour, M., & Naderi-Manesh, H. (2017). Electrochemical miRNA biosensors: the benefits of nanotechnology. Nanomedicine Research Journal, 2(1), 36-48.

DeRosa, M. C., Monreal, C., Schnitzer, M., Walsh, R., & Sultan, Y. (2010). Nanotechnology in fertilizers. Nature nanotechnology, 5(2), 91-91.

Nie, S., Xing, Y., Kim, G. J., & Simons, J. W. (2007). Nanotechnology applications in cancer. Annu. Rev. Biomed. Eng., 9, 257-288.

Ferrari, M., & Downing, G. (2005). Medical nanotechnology. BioDrugs, 19(4), 203-210.

Jalalian, E. A., Zarbakhsh, A., Attar, K., Ghane, H. K., Shirian, A. A., & Manoochehri, N. (2018). In Vitro Effect of Thickness of Veneering Ceramic on Color Parameters of Zirconia All-Ceramic Restorations. Journal of Research in Medical and Dental Science, 6(2), 586-592.

Hameed, A., Fatima, G. R., Malik, K., Muqadas, A., & Fazal-ur-Rehman, M. (2019). Scope of nanotechnology in cosmetics: dermatology and skin care products. Journal of Medicinal and Chemical Sciences, 2(1), 9-16.

DeLouise, L. A. (2012). Applications of nanotechnology in dermatology. Journal of Investigative Dermatology, 132(3), 964-975.

Mansoori, G. A., George, T. F., Zhang, G., & Assoufid, L. (2007). Molecular building blocks for nanotechnology. Molecular building blocks for nanotechnology: from diamondoids to nanoscale materials and applications, 111.

Ernst, A. U., Bowers, D. T., Wang, L. H., Shariati, K., Plesser, M. D., Brown, N. K., ... & Ma, M. (2019). Nanotechnology in cell replacement therapies for type 1 diabetes. Advanced drug delivery reviews, 139, 116-138.

Merkle, R. C. (1991). Computational nanotechnology. Nanotechnology, 2(3), 134.

Han, B. Q., Lavernia, E. J., & Mohamed, F. A. (2005). Mechanical properties of nanostructured materials. Rev. Adv. Mater. Sci, 9(1), 1-16.

Koch, C. C. (2006). Nanostructured materials: processing, properties and applications. William Andrew.

Padmanabhan, K. A. (2001). Mechanical properties of nanostructured materials. Materials Science and Engineering: A, 304, 200-205.

Bochenkov, V. E., & Sergeev, G. B. (2005). Preparation and chemiresistive properties of nanostructured materials. Advances in colloid and interface science, 116(1), 245-254.

Thangadurai, T. D., Manjubaashini, N., Thomas, S., & Maria, H. J. (2020). Properties of nanostructured materials. In Nanostructured Materials (pp. 77-95). Springer, Cham.

Xu, C., Anusuyadevi, P. R., Aymonier, C., Luque, R., & Marre, S. (2019). Nanostructured materials for photocatalysis. Chemical Society Reviews, 48(14), 3868-3902.

Zhang, X., Hattar, K., Chen, Y., Shao, L., Li, J., Sun, C., ... & Nastasi, M. (2018). Radiation damage in nanostructured materials. Progress in Materials Science, 96, 217-321.

Moriarty, P. (2001). Nanostructured materials. Reports on Progress in Physics, 64(3), 297.

Gleiter, H. (2000). Nanostructured materials: basic concepts and microstructure. Acta materialia, 48(1), 1-29.

Syed, S., Zubair, A., & Frieri, M. (2013). Immune response to nanomaterials: implications for medicine and literature review. Current allergy and asthma reports, 13(1), 50-57.

Velu, R., Calais, T., Jayakumar, A., & Raspall, F. (2020). A comprehensive review on bio-nanomaterials for medical implants and feasibility studies on fabrication of such implants by additive manufacturing technique. Materials, 13(1), 92.

Masoumi, S., Paknejad, M., Sarlati, F., & Samiei, N. (2016). Clinical, Microbiological and Radiologic evaluation of topical use of Co-Amoxiclav 25% dental gel in the treatment of adult periodontitis. International Journal of Medical Research & Health Sciences, 5(6), 17-26.

Kadkhoda, Z., Amarlu, Z., Eshraghi, S., & Samiei, N. (2016). Antimicrobial effect of chlorhexidine on Aggregatibacter actinomycetemcomitans biofilms associated with peri-implantitis. Journal of dental research, dental clinics, dental prospects, 10(3), 176.

Yaghobee, S., Bayani, M., Samiei, N., & Jahedmanesh, N. (2015). What are the nanobacteria?. Biotechnology & Biotechnological Equipment, 29(5), 826-833.

Geisse, N. A. (2009). AFM and combined optical techniques. Materials today, 12(7-8), 40-45.

Mazzola, L. (2003). Commercializing nanotechnology. Nature biotechnology, 21(10), 1137-1143.

Farokhzad, O. C., & Langer, R. (2009). Impact of nanotechnology on drug delivery. ACS nano, 3(1), 16-20.

Maravajhala, V., Papishetty, S., & Bandlapalli, S. (2012). Nanotechnology in development of drug delivery system. International Journal of Pharmaceutical Sciences and Research, 3(1), 84.

Perinelli, D. R., Cespi, M., Bonacucina, G., & Palmieri, G. F. (2019). PEGylated polylactide (PLA) and poly (lactic-co-glycolic acid)(PLGA) copolymers for the design of drug delivery systems. Journal of Pharmaceutical Investigation, 49(4), 443-458.

Seaberg, J., Kaabipour, S., Hemmati, S., & Ramsey, J. D. (2020). A rapid millifluidic synthesis of tunable polymer-protein nanoparticles. European Journal of Pharmaceutics and Biopharmaceutics, 154, 127-135.

Simonazzi, A., Cid, A. G., Villegas, M., Romero, A. I., Palma, S. D., & Bermúdez, J. M. (2018). Nanotechnology applications in drug controlled release. In Drug targeting and stimuli sensitive drug delivery systems (pp. 81-116). William Andrew Publishing.

Ghahroudi, A. A., Rokn, A. R., Shamshiri, A. R., & Samiei, N. (2020). Does timing of implant placement affect esthetic results in single‐tooth implants? A cohort evaluation based on mPES. Journal of Esthetic and Restorative Dentistry, 32(7), 715-725.

Jalalian, E., Balouch, F., Samiei, N., Ghane, H. K., Iranpoor, B., & Ebrahimian, K. (2017). A comparative analysis of splinted and non-splint in open-tray impression techniques on different angled implants. Biosci Biotech Res Commun, 10(1), 109-113.

Raju, H. B., & Goldberg, J. L. (2008). Nanotechnology for ocular therapeutics and tissue repair. Expert Review of Ophthalmology, 3(4), 431-436.

Laurencin, C. T., Kumbar, S. G., & Nukavarapu, S. P. (2009). Nanotechnology and orthopedics: a personal perspective. Wiley Interdisciplinary Reviews: Nanomedicine and Nanobiotechnology, 1(1), 6-10.

Seaberg, J., Kaabipour, S., Hemmati, S., & Ramsey, J. D. (2020). A rapid millifluidic synthesis of tunable polymer-protein nanoparticles. European Journal of Pharmaceutics and Biopharmaceutics, 154, 127-135.

Maghami, E., Pejman, R., & Najafi, A. R. (2020). Fracture micromechanics of human dentin: A microscale numerical model. Journal of the Mechanical Behavior of Biomedical Materials, 104171.

Mitri, F. F., & Ingle, A. P. (2020). The bone biology and the nanotechnology for bone engineering and bone diseases. In Nanotechnology in skin, soft tissue, and bone infections (pp. 223-244). Springer, Cham.

Perán, M., García, M. A., Lopez-Ruiz, E., Jiménez, G., & Marchal, J. A. (2013). How can nanotechnology help to repair the body? Advances in cardiac, skin, bone, cartilage and nerve tissue regeneration. Materials, 6(4), 1333-1359.

Sun, H., Lv, L., Bai, Y., Yang, H., Zhou, H., Li, C., & Yang, L. (2018). Nanotechnology-enabled materials for hemostatic and anti-infection treatments in orthopedic surgery. International journal of nanomedicine, 13, 8325.

Loizidou, M., & Seifalian, A. M. (2010). Nanotechnology and its applications in surgery. British journal of surgery, 97(4), 463-465.

Heath, J. R., & Davis, M. E. (2008). Nanotechnology and cancer. Annu. Rev. Med., 59, 251-265.

Mamalis, A. G. (2007). Recent advances in nanotechnology. Journal of Materials Processing Technology, 181(1-3), 52-58.

Baker, M. (2010). Nanotechnology imaging probes: smaller and more stable. Nature methods, 7(12), 957-962.

Wickline, S. A., & Lanza, G. M. (2003). Nanotechnology for molecular imaging and targeted therapy.

Kumar, A., Park, K. B., Kim, H. M., & Kim, K. B. (2013). Noise and its reduction in graphene based nanopore devices. Nanotechnology, 24(49), 495503.

Molani, S., Madadi, M., & Wilkes, W. (2019). A partially observable Markov chain framework to estimate overdiagnosis risk in breast cancer screening: Incorporating uncertainty in patients adherence behaviors. Omega, 89, 40-53.

Molani, S., Madadi, M., & Williams, D. (2020). Investigating the Effectiveness of Breast Cancer Supplemental Screening Considering Radiologists' Bias. medRxiv.

Song, W., Anselmo, A. C., & Huang, L. (2019). Nanotechnology intervention of the microbiome for cancer therapy. Nature nanotechnology, 14(12), 1093-1103.

Fan, W., Yung, B., Huang, P., & Chen, X. (2017). Nanotechnology for multimodal synergistic cancer therapy. Chemical reviews, 117(22), 13566-13638.

Sangwan, S., & Seth, R. (2021). Nanotechnology: A boon in cancer therapy. International Journal of Nanomaterials, Nanotechnology and Nanomedicine, 7(1), 001-006.

Patnala, K., Vishwas, S., & Malla, R. R. (2021). Nanotechnology advances in breast cancer. In A Theranostic and Precision Medicine Approach for Female-Specific Cancers (pp. 271-287). Academic Press.

Bale, A. S., Khatokar, J. A., Mohan, M. K., Bharath, G., Singh, S., Roshini, J., ... & Vinay, N. (2021). Nanotechnology as a tool for treating cancerous tumors. Materials Today: Proceedings.




DOI: http://dx.doi.org/10.18415/ijmmu.v8i5.2571

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