COMPARATIVE FRAMEWORK OF CALCIUM PHOSPHATES-BASED PRODUCTS DERIVED FROM SUSTAINABLE MARINE AND TERRESTRIAL RESOURCES FOR BIOMEDICAL APPLICATIONS
DOI:
https://doi.org/10.24193/subbchem.2020.4.06Keywords:
marble, seashells, bovine bone, fish bone, biogenic hydroxyapatite, compact products, comparative assessmentAbstract
Processing calcium and phosphor-rich natural resources, such as marble and seashells, and bovine and fish bones, envelops an environmentally friendly and eco-sustainable promising alternative for developing biomimetic products for various orthopaedic applications. In this regard, convenient, efficient, facile and completely reproducible technologies were involved in the fabrication process of biogenic calcium phosphates-based products through the conversion of the proposed resources. The aim of this research was to comparatively evaluate the morpho-compositional, structural and mechanical features of the developed products, subjected in advance to an air sintering program. The results revealed that the high temperature affects differently the morphological characteristics of the samples and facilitates the conservation of several elements, traced from their natural marine or terrestrial habitat. Moreover, the nature of the initial precursors clearly influenced the final composition of the samples: biphasic configuration for calcium carbonate derived products versus single phase for the calcium phosphate ones. The mechanical features are also a composed result of the resources type and sintering process, with significant recorded differences. Therefore, this study unveils the prospect for suitable strategies in terms of adequate natural precursor, fabrication technology and final properties of the biogenic products destined for a certain application in the biomedicine field.
References
J.N.F. Holanda; Springer International Publishing; 2017; 1-18.
A. Popa, G. Stan, M. Husanu, I. Mercioniu, L. Santos, H. Fernandes and J. Ferreira; Int. J. Nanomedicine; 2017; 12; 683.
B.W. Stuart, J.W. Murray and D.M. Grant; Scientific reports; 2018; 8;
I. Antoniac, D. Popescu, A. Zapciu, A. Antoniac, F. Miculescu and H. Moldovan; Materials; 2019; 12; 719.
H.R. Fernandes, A. Gaddam, A. Rebelo, D. Brazete, G.E. Stan and J.M. Ferreira; Materials; 2018; 11; 2530.
M. Ionita, L.E. Crica, S.I. Voicu, A.M. Pandele and H. Iovu; Polym Adv Technol; 2016; 27; 350-357.
F. Baino and M. Ferraris; Int. J. Appl. Ceram. Technol.; 2017; 14; 507-520.
F. Miculescu, M. Miculescu, L. Ciocan, A. Ernuteanu, I. Antoniac, I. Pencea and E. Matei; Dig. J. Nanomater. Biostructures (DJNB); 2011; 6;
N. Stevulova, A. Estokova, J. Cigasova, I. Schwarzova, F. Kacik and A. Geffert; J. Therm. Anal. Calorim.; 2017; 128; 1649-1660.
T. Tite, A.-C. Popa, L. Balescu, I. Bogdan, I. Pasuk, J. Ferreira and G. Stan; Materials; 2018; 11; 2081.
Ö. Özmen, R. Sârbu, A. S. Săseanu and C. Toader; Amfiteatru Econ.; 2017; 19; 1064-1064.
M. Ebrahimi, M. G. Botelho and S. V. Dorozhkin; Mater. Sci. Eng. C; 2017; 71; 1293-1312.
Q. Zhang, W. Wu, C. Qian, W. Xiao, H. Zhu, J. Guo, Z. Meng, J. Zhu, Z. Ge and W. Cui; Mater. Sci. Eng. C; 2019; 103; 109858.
M. Castilho, C. Moseke, A. Ewald, U. Gbureck, J. Groll, I. Pires, J. Teßmar and E. Vorndran; Biofabrication; 2014; 6; 015006.
M. Garcés Villalá, J. Calvo Guirado, D. Granados, S. Limandri and V. Galván Josa; X-Ray Spectrom.; 2017; 46; 237-241.
C. Danoux, D. Pereira, N. Döbelin, C. Stähli, J. Barralet, C. van Blitterswijk and P. Habibovic; Adv. Healthc. Mater.; 2016; 5; 1775-1785.
G. Stan, A. Popa and D. Bojin; Dig. J. Nanomater. Biostructures (DJNB); 2010; 5;
G. Armencea, C. Berce, M. Todea, A. Vulpoi, D. Leordean, S. Bran, C. Dinu, M. Lazar, O. Lucaciu and L. Crisan; Studia UBB, Chemia; 2019; 64;
M. Mucalo; Hydroxyapatite (HAp) for biomedical applications; 2015; 307.
F. Barrère, C.A. van Blitterswijk and K. de Groot; Int. J. Nanomedicine; 2006; 1; 317.
A. Maidaniuc, F. Miculescu, S. I. Voicu, C. Andronescu, M. Miculescu, E. Matei, A. C. Mocanu, I. Pencea, I. Csaki and T. Machedon-Pisu; Appl. Surf. Sci.; 2018; 438; 158-166.
C. Sarosi, A.R. Biris, A. Antoniac, S. Boboia, C. Alb, I. Antoniac and M. Moldovan; J Adhes Sci Technol; 2016; 30; 1779-1794.
S. Lala, M. Ghosh, P. Das, D. Das, T. Kar and S. Pradhan; Mater. Chem. Phys.; 2016; 170; 319-329.
L. Galea, D. Alexeev, M. Bohner, N. Doebelin, A.R. Studart, C.G. Aneziris and T. Graule; Biomaterials; 2015; 67; 93-103.
A. Vladescu, M. Badea, S.C. Padmanabhan, G. Paraschiv, L. Floroian, L. Gaman, M.A. Morris, J.-L. Marty and C.M. Cotrut; Elsevier; 2019; 409-431.
L. Bizo, K. Sabo, R. Barabas, G. Katona, L. Barbu-Tudoran and A. Berar; Studia UBB , Chemia; 2020; 65;
A. Maidaniuc, F. Miculescu, R.C. Ciocoiu, T.M. Butte, I. Pasuk, G.E. Stan, S.I. Voicu and L.T. Ciocan; Ceram. Int; 2020; 46; 10159-10171.
A.-C. Mocanu, M. Miculescu, T. Machedon-Pisu, A. Maidaniuc, R.C. Ciocoiu, M. Ioniță, I. Pasuk, G.E. Stan and F. Miculescu; Appl. Surf. Sci.; 2019; 489; 226-238.
A.-I. Bita, G. Stan, M. Niculescu, I. Ciuca, E. Vasile and I. Antoniac; J Adhes Sci Technol.; 2016; 30; 1968-1983.
A. Moldoveanu, O.-M. Ferche, F. Moldoveanu, R.G. Lupu, D. Cinteză, D.C. Irimia and C. Toader; IEEE Access; 2019; 7; 8151-8171.
M. Montazerolghaem, M.K. Ott, H. Engqvist, H. Melhus and A. Rasmusson; Mater. Sci. Eng. C; 2015; 52; 212-218.
G. Cama, S. Nkhwa, B. Gharibi, A. Lagazzo, R. Cabella, C. Carbone, P. Dubruel, H. Haugen, L. Di Silvio and S. Deb; Mater. Sci. Eng. C; 2017; 78; 485-494.
M. O'Halloran; Journal of Research&Practice in Dentistry; 2014; 2014; 1-19.
M.K. Herliansyah, C. Muzafar and A.E. Tontowi; Ind. Eng. Manag. Syst.; 2012; 1135-1145.
F. Miculescu, A. Maidaniuc, S. Voicu, M. Miculescu, A. Berbecaru, L. Ciocan, A. Purcaru, A. Semenescu and O. Preda; J. Optoelectron. Adv. M.; 2015; 17; 1361-1366.
F. Miculescu, A.C. Mocanu, G.E. Stan, M. Miculescu, A. Maidaniuc, A. Cîmpean, V. Mitran, S.I. Voicu, T. Machedon-Pisu and L.T. Ciocan; Appl. Surf. Sci.; 2018; 438; 147-157.
A.-C. Mocanu, G.E. Stan, A. Maidaniuc, M. Miculescu, I.V. Antoniac, R.-C. Ciocoiu, Ș.I. Voicu, V. Mitran, A. Cîmpean and F. Miculescu; Materials; 2019; 12; 381.
F. Miculescu, G. Stan, L. Ciocan, M. Miculescu, A. Berbecaru and I. Antoniac; Dig. J. Nanomater. Biostructures (DJNB); 2012; 7;
F. Heidari, M. Razavi, M. Ghaedi, M. Forooghi, M. Tahriri and L. Tayebi; J. Alloys Compd.; 2017; 693; 1150-1156.
A. Maidaniuc, M. Miculescu, S. Voicu, L. Ciocan, M. Niculescu, M. Corobea, M. Rada and F. Miculescu; J Adhes Sci Technol.; 2016; 30; 1829-1841.
M. Moldovan, D. Prodan, C. Sarosi, R. Carpa, C. Socaci, M.-C. Rosu and S. Pruneanu; Mater. Chem. Phys.; 2018; 217; 48-53.
F. Miculescu, A.-C. Mocanu, C.A. Dascălu, A. Maidaniuc, D. Batalu, A. Berbecaru, S.I. Voicu, M. Miculescu, V.K. Thakur and L.T. Ciocan; Vacuum; 2017; 146; 614-622.
C.M. Cotrut, A. Vladescu, M. Dinu and D.M. Vranceanu; Ceram. Int; 2018; 44; 669-677.
B. Cecen, L.D. Kozaci, M. Yuksel, O. Ustun, B.U. Ergur and H. Havitcioglu; Mater. Sci. Eng. C; 2016; 69; 437-446.
M. Vranceanu, I. Antoniac, F. Miculescu and R. Saban; J. Optoelectron. Adv. Mater.; 2012; 14; 671-677.
V. Mitran, R. Ion, F. Miculescu, M.G. Necula, A.-C. Mocanu, G.E. Stan, I.V. Antoniac and A. Cimpean; Materials; 2018; 11; 1097.
F. Miculescu, L. Ciocan, M. Miculescu and A. Ernuteanu; Dig. J. Nanomater. Biostructures (DJNB); 2011; 6; 225-233.
M. Markovic, B.O. Fowler and M.S. Tung; J Res Natl Inst Stand Technol; 2004; 109; 553.
A. Rapacz-Kmita, C. Paluszkiewicz, A. Ślósarczyk and Z. Paszkiewicz; J. Mol. Struct.; 2005; 744; 653-656.
M. Lombardi, P. Palmero, K. Haberko, W. Pyda and L. Montanaro; J. Eur. Ceram. Soc.; 2011; 31; 2513-2518.
J.-Y. Rho, L. Kuhn-Spearing and P. Zioupos; Med Eng Phys; 1998; 20; 92-102.
Downloads
Published
How to Cite
Issue
Section
License
Copyright (c) 2020 Studia Universitatis Babeș-Bolyai Chemia
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
