Three Types of Useful Water and Liquid Based on US- Patents and Applications: A Mini-Review

Alizadeh, Sakineh; Skandari, Elham; Alyarnezhad, Sabri; Hasanzadeh, Mahsa; Moradi Haji Jafan, Mohsen

doi:10.48309/jeires.2023.4.4

Document Type : Review Article

Authors

¹ Department of Analytical Chemistry, Faculty of Chemistry, Bu-Ali Sina University, Hamadan, ‎Iran

² FASA Company, Science and Technology Park, Urmia, Iran

³ Department of Applied chemistry, Faculty of Chemistry, Bu-Ali Sina University, Hamadan, ‎Iran

⁴ Department of Analytical Chemistry, Faculty of Chemistry, Urmia University, Urmia, Iran

⁵ National Standard Organization of Iran, 1991954651, Vanak, Tehran, Iran

10.48309/jeires.2023.4.4

Abstract

In this review, three types of highly consumed and widely used medical water will be examined. These investigations will be done by many Iranian and foreign groups and will be as follows. DEPS water is based on diethyl pyrocarbonate and is prepared from various US patents that have been reviewed. Eye lens maintenance liquid has 6 different substances that make it up and is prepared based on the calculations of the research group of this article. The amount and moles of these medical and chemical substances have been accurately calculated as so cell culture water (hem's f10) based on the series of substances its creator will be further explained. The literature review of these works will be inspected in the text of the article.

Keywords

Main Subjects

Engineering Industrial

References

[1]. A.D. McNaught, Compendium of chemical terminology (Vol. 1669). Oxford: Blackwell Science, 1997. [Google Scholar]

[2]. R. Moreddu, D. Vigolo, A.K. Yetisen, Contact lens technology: from fundamentals to applications, Advanced Healthcare Materials, 2019, 8, 1900368. [Crossref], [Google Scholar], [Publisher]

[3]. Maki et al. (45) Date of Patent: Mar. 16, (2010), United States Patent USOO7678753B 2 (10) Patent No., US 7,678,753 B2

[4]. US7678753B2 United States Patent, 9 (2010), having previously published pregrant publication, Inventor Masataka Maki Hitoshi Ishizuka Nobuyoshi Yamaguchi Yuuichirou Tase Current Assignee Kao Corp Application Note: Endotoxin-Free Water for Tissue Culture.

[5]. Poster: Importance of the quality of the water used to prepare serum-free media for stem cell culture, 2019.

[6].https://www.elgalabwater.com/blog/different-types-pure-water-lab-what-you-need-know, 2021.

[7]. Y. He, J. Tang, K. Kalantar-Zadeh, M.D. Dickey, X. Wang, Noncontact rotation, levitation, and acceleration of flowing liquid metal wires, Proceedings of the National Academy of Sciences, 2022, 119, e2117535119. [Crossref], [Google Scholar], [Publisher]

[8]. Y. He, J. Tang, K. Kalantar-Zadeh, M.D. Dickey, X. Wang, Noncontact rotation, levitation, and acceleration of flowing liquid metal wires, Proceedings of the National Academy of Sciences, 2022, 119, e2117535119. [Crossref], [Google Scholar], [Publisher]

[9]. Y. Jin, C. Wu, P. Sun, M. Wang, M. Cui, C. Zhang, Z. Wang, Electrification of water: From basics to applications, Droplet, 2022, 1, 92-109. [Crossref], [Google Scholar], [Publisher]

[10]. Y. Gao, H. Fang, K. Ni, Y. Feng, Water clusters and density fluctuations in liquid water based on extended hierarchical clustering methods, Scientific Reports, 2022, 12, 8036. [Crossref], [Google Scholar], [Publisher]

[11]. YY. Jin, C. Wu, P. Sun, M. Wang, M. Cui, C. Zhang, Z. Wang, Electrification of water: From basics to applications, Droplet, 2022, 1, 92-109. [Crossref], [Google Scholar], [Publisher]

[12]. C. Huang, K.T. Wikfeldt, T. Tokushima, D. Nordlund, Y. Harada, U. Bergmann, M. Niebuhr, T. Weiss, Y. Horikawa, M. Leetmaa, The inhomogeneous structure of water at ambient conditions, Proceedings of the National Academy of Sciences, 2009, 106, 15214-15218. [Crossref], [Google Scholar], [Publisher]

[13]. R. Ham, An improved nutrient solution for diploid Chinese hamster and human cell lines, Experimental Cell Research, 1963, 29, 515-526. [Crossref], [Google Scholar], [Publisher]

[14]. D. Farley, Keeping an eye on contact lenses, FDA Consumer, 1998, 32, 17-21. [Google Scholar], [Publisher]

[15]. http:// www.biosera.com.

[16].https://northslopechillers.com/blog/deionized-water-in-process-cooling(2019).

[17]. T. Breinlinger, A. Hashibon, T. Kraft, Simulation of the influence of surface tension on granule morphology during spray drying using a simple capillary force model, Powder Technology, 2015, 283, 1-8. [Crossref], [Google Scholar], [Publisher]

[18]. J.A. Whitsett, S.E. Wert, B.C. Trapnell, Genetic disorders influencing lung formation and function at birth, Human Molecular Genetics, 2004, 13, R207-R215. [Crossref], [Google Scholar], [Publisher]

[19]. B.N. Dickhaus, R. Priefer, Determination of polyelectrolyte pKa values using surface-to-air tension measurements, Colloids and Surfaces A: Physicochemical and Engineering Aspects, 2016, 488, 15-19. [Crossref], [Google Scholar], [Publisher]

[20]. C.A. Bergström, R. Holm, S.A. Jørgensen, S.B. Andersson, P. Artursson, S. Beato, A. Borde, K. Box, M. Brewster, J. Dressman, Early pharmaceutical profiling to predict oral drug absorption: current status and unmet needs, European Journal of Pharmaceutical Sciences, 2014, 57, 173-199. [Crossref], [Google Scholar], [Publisher]

[21]. S. Clarysse, J. Tack, F. Lammert, G. Duchateau, C. Reppas, P. Augustijns, Postprandial evolution in composition and characteristics of human duodenal fluids in different nutritional states, Journal of Pharmaceutical Sciences, 2009, 98, 1177-1192. [Crossref], [Google Scholar], [Publisher]

[22]. L. Kalantzi, K. Goumas, V. Kalioras, B. Abrahamsson, J.B. Dressman, C. Reppas, Characterization of the human upper gastrointestinal contents under conditions simulating bioavailability/bioequivalence studies, Pharmaceutical Research, 2006, 23, 165-176. [Crossref], [Google Scholar], [Publisher]

[23]. E.M. Persson, A.-S. Gustafsson, A.S. Carlsson, R.G. Nilsson, L. Knutson, P. Forsell, G. Hanisch, H. Lennernäs, B. Abrahamsson, The effects of food on the dissolution of poorly soluble drugs in human and in model small intestinal fluids, Pharmaceutical Research, 2005, 22, 2141-2151. [Crossref], [Google Scholar], [Publisher]

[24]. N. Vargaftik, B. Volkov, L. Voljak, International tables of the surface tension of water, Journal of Physical and Chemical Reference Data, 1983, 12, 817-820. [Crossref], [Google Scholar], [Publisher]

[25]. R.C. Rowe, P. Sheskey, M. Quinn, Handbook of pharmaceutical excipients, Libros Digitales-Pharmaceutical Press, 2009. [Google Scholar], [Publisher]

[26]. J.P. Kirkness, M. Madronio, R. Stavrinou, J.R. Wheatley, T.C. Amis, Surface tension of upper airway mucosal lining liquid in obstructive sleep apnea/hypopnea syndrome, Sleep, 2005, 28, 457-463. [Crossref], [Google Scholar], [Publisher]

[27]. J. Tiffany, N. Winter, G. Bliss, Tear film stability and tear surface tension, Current Eye Research, 1989, 8, 507-515. [Crossref], [Google Scholar], [Publisher]

[28]. S.A. Mirnezami, M.R. Jafarabadi, M. Abrishami, Temperature distribution simulation of the human eye exposed to laser radiation, Journal of Lasers in Medical Sciences, 2013, 4, 175. [Google Scholar], [Publisher]

[29]. G.A. Georgiev, N. Yokoi, K. Koev, E. Kutsarova, S. Ivanova, A. Kyumurkov, A. Jordanova, R. Krastev, Z. Lalchev, Surface chemistry study of the interactions of benzalkonium chloride with films of meibum, corneal cells lipids, and whole tears, Investigative Ophthalmology & Visual Science, 2011, 52, 4645-4654. [Crossref], [Google Scholar], [Publisher]

Journal of Engineering in Industrial Research

Three Types of Useful Water and Liquid Based on US- Patents and Applications: A Mini-Review

References

References

Volume 4, Issue 4
December 2023
Pages 217-225

Three Types of Useful Water and Liquid Based on US- Patents and Applications: A Mini-Review

References

References

Volume 4, Issue 4December 2023Pages 217-225

Volume 4, Issue 4
December 2023
Pages 217-225