Article

Swelling Ratio Determination of a Polymer Microbead via Video-Microscopy
Il-Hoon Cho, Seunggeun Jeon^*, Hyun-Woo Jeong^*, and Sangsoo Park^*,†
Department of Biomedical Laboratory Science, Eulji University, Gyeonggi-do 13135, Korea
^*Department of Biomedical Engineering, Eulji University, Gyeonggi-do 13135, Korea
비디오 현미경을 이용한 고분자 마이크로비드의 팽윤도 측정
조일훈 · 전승근^* · 정현우^* · 박상수^*,†
을지대학교 임상병리학과, ^*을지대학교 의료공학과
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References

1. Kosemund K.; Schlatter H.; Ochsenhirt J. L.; Krause, E. L.; Marsman, D. S.; Erasala, G. N. Safety evaluation of superabsorbent baby diapers. Regul Toxicol Pharmacol 2009, 53, 81-89.
2. Magnay, J. L.; Nevatte, T. M.; Dhingra, V.; O’Brien, S. Menstrual Blood Loss Measurement: Validation of the Alkaline Hematin Technique for Feminine Hygiene Products Containing Superabsorbent Polymers. Fertil Steril 2010, 94, 2742-2746.
3. Runeman, B. Skin Interaction with Absorbent Hygiene Products. Clin Dermatol 2008, 26, 45-51.
4. Wiegand, C.; Abel, M.; Ruth, P.; Hipler, U. C. Superabsorbent Polymer-containing Wound Dressings Have a Beneficial Effect on Wound Healing by Reducing PMN Elastase Concentration and Inhibiting Microbial Growth. J. Mater. Sci. Mater. Med. 2011, 22, 2583-2590.
5. Kumar, S. K. S.; Prakash, C.; Vaidheeswaran, S.; Kumar, B. K.; Subramanian, S. Design and Characterization of Secondary and Tertiary Layers of a Multilayer Wound Dressing System. J. Test. Eval. 2018, 48, 2683-2698.
6. Barrett, S.; Callaghan, R.; Chadwick, P.; Haycocks, S.; Rippon, M.; Stephen-Haynes, J.; Simm, S. An Observational Study of a Superabsorbent Polymer Dressing Evaluated by Clinicians and Patients. J. Wound. Care. 2018, 27, 91-100.
7. Barrett, S.; Welch, D.; Rippon, M. G.; Rogers, A. A. Clinical Evaluation of a Superabsorbent Polymer Dressing in Enabling Self-care of Wounds. Br J. Commun. Nurs. 2020, 25, Suppl 6, S28-S36.
8. Sharp, C. Managing the Wound with Hydration Response^® Technology. Wounds UK 2010, 6, 112-115.
9. Browning, P.; White, R. J.; Rowell, T. Comparative Evaluation of the Functional Properties of Superabsorbent Dressings and Their Effect on Exudate Management. J. Wound. Care. 2016, 25, 452-462.
10. Aronne, L. J.; Anderson, J. E.; Sannino, A.; Chiquette, E. Recent Advances in Therapies Utilizing Superabsorbent Hydrogel Technology for Weight Management: a Review. Obes Sci Pract.
11. Giruzzi, N. Plenity (oral superabsorbent hydrogel). Clin Diabetes 2020, 38, 313-314.
12. Sanaei Moghaddam Sabzevar Z.; Mehrshad, M.; Naimipour, M. A Biological Magnetic Nano-hydrogel Based On Basil Seed Mucilage: Study of Swelling Ratio and Drug Delivery. Iran. Polym. 2021, 30, 485-493.
13. Duncanson, W. J.; Lin, T.; Abate, A. R.; Seiffert, S.; Shah, R. K.; Weitz, D. A. Microfluidic Synthesis of Advanced Microparticles for Encapsulation and Controlled Release. Lab. on a Chip. 2012, 12, 2135-2145.
14. Liu, S.; Deng, R.; Li, W.; Zhu, J. Polymer Microparticles with Controllable Surface Textures Generated Through Interfacial Instabilities of Emulsion Droplets. Adv. Func. Mater. 2012, 22, 1692-1697.
15. Wu, T.; Huang, J.; Jiang, Y.; Hu, Y.; Ye, X.; Liu, D.; Chen, J. Formation of Hydrogels Based on Chitosan/alginate for the Delivery of Lysozyme and Their Antibacterial Activity. Food Chem 2018, 240, 361-369.
16. Fan, T. F.; Hwang, Y.; Ibrahim, M. S.; Ferracci, G.; Cho, N. J. Influence of Chemical and Physical Change of Pollen Microgels on Swelling/de-swelling Behavior. Macromol. Rapid Commun. 2020, 41, e2000155.
17. Gyenes, T.; Torma, V.; Zrínyi, M. Swelling Properties of Aspartic Acid-based Hydrogels. Colloids Surf A Physicochem Eng Aspects 2008, 319, 154-158.
18. Memmolo, P.; Miccio, L.; Merola, F.; Ferraro, P. The Talbot Effect in Self-assembled Red Blood Cells Investigated by Digital Holography. J. Physics: Photonics 2020, 2, 035005.
19. Yamazaki, T.; Hirayama, K.; Matsukawa, Y.; Takemura, M.; Umemura, K. Digital Holographic Microscopy of Living Hela Cells Before and After Enzyme Treatments. In Proceedings of the 6th International Conference on Biomedical Engineering and Applications, Hangzhou, China, May 13-15, 2022; pp 127-129.
20. Moon, M. H.; Park, I.; Kim, Y. Size Characterization of Liposomes by Flow Field-flow Fractionation and Photon Correlation Spectroscopy: Effect of Ionic Strength and pH of Carrier Solutions. J. Chromatography A, 1998, 813, 91-100.
21. Maille, M. J.; Sala, K.; Scott, D. M.; Zukswert, H. Critical Examination of Particle Swelling During Wetting of Ground Coffee. J. Food. Eng. 2021, 295, 110420.
22. Zhang, K.; Feng, W.; Jin, C. Protocol Efficiently Measuring the Swelling Rate of Hydrogels. MethodsX 2020, 7, 100779.
23. Mechtcherine, V.; Snoeck, D.; Schröfl, C.; De Belie, N.; Klemm, A. J.; Ichimiya, K. Falikman, V. Testing Superabsorbent Polymer (SAP) Sorption Properties Prior to Implementation in Concrete: Results of a RILEM Round-robin Test. Mater. Struct. 2018, 51, 28.
24. Wang, W.; Zong, L.; Wang, A. A Nanoporous Hydrogel Based on Vinyl-functionalized Alginate for Efficient Absorption and Removal of Pb²⁺ ions. Int. J. Biol. Macromol. 2013, 62, 225-231.
25. Kumar, B.; Priyadarshi, R.; Sauraj, Deeba, F.; Kulshreshtha, A.; Gaikwad, K. K.; Negi, Y. S. Nanoporous Sodium Carboxymethyl Cellulose-g-poly (sodium acrylate)/fecl₃ Hydrogel Beads: Synthesis and Characterization. Gels 2020, 6, 49.
26. Soleyman, R.; Rezanejade, B. G.; Pourjavadi, A.; Varamesh, A.; Davoodi, A. A. Hydrolyzed Salep/gelatin-g-polyacrylamide as a Novel Micro/nano-porous Superabsorbent Hydrogel: Synthesis; Optimization and Investigation on Swelling Behavior. Sci. Iran. 2015, 22, 883-893.

Polymer(Korea) 폴리머
Frequency : Bimonthly(odd)
ISSN 0379-153X(Print)
ISSN 2234-8077(Online)
Abbr. Polym. Korea
2023 Impact Factor : 0.4
Indexed in SCIE

This Article

2023; 47(4): 440-446

Published online Jul 25, 2023
10.7317/pk.2023.47.4.440
Received on Feb 7, 2023
Revised on Apr 28, 2023
Accepted on May 2, 2023

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Correspondence to

Sangsoo Park
Department of Biomedical Engineering, Eulji University, Gyeonggi-do 13135, Korea
E-mail: spark@eulji.ac.kr