Min-Ho Kim Lab:Publications

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Peer-reviewed journal publications

  1. Raouf I, Lee J, Kim H, and Kim MH. Parametric investigations of magnetic nanoparticle hyperthermia in ferrofluid using finite element analysis. International Journal of Thermal Sciences, 159: 106604, 2021
  2. Song R, Yu B, Friedrich D, Li J, Shen H, Krautscheid H, Hunag S, and Kim MH. Naphthoquinone-derivative as a synthetic compound to overcome resistance in MRSA. Communications Biology, 3:529, 2020
  3. Turiv T., Krieger J., Babakhanova G., Yu H., Sergji V., Wei Q., Kim MH., and Lavrentovich O., Topology control of human fibroblast cells monolayer by liquid crystal elastomer. Science Advances, 6:eaaz6485, 2020
  4. Raouf I, Khalid S, Khan A, Lee J, Kim H, and Kim MH. A review on numerical modeling of magnetic nanoparticle hyperthermia: Progress and challenges. Journal of Thermal Biology, 91:102644, 2020
  5. Boler D, Kim MH, Krieger J, Martin J, Milkowski A, Mozdziak P, Sylvester P., Producing food products from cultured animal tissue. CAST Commentary, QTA2020-1, April 2020
  6. Babakhanova G., Krieger J., Li B., Turiv T., Kim MH., and Lavrentovich O., Cell alignment by smectic liquid crystal elastomer coatings with nanogrooves. Journal of Biomedical Materials Research Part A, 108(5):1223-1230, 2020
  7. Yu B, Wang Z, Almutairi L, Huang S, and Kim MH*. Harnessing iron-oxide nanoparticles towards the improved bactericidal activity of macrophages against Staphylococcus Aureus. Nanomedicine: Nanotechnology, Biology, and Medicine, 24:102158, 2020
  8. Almutairi L, Yu B, Filka M, Nayfach J, and Kim MH*. Mild magnetic nanoparticle hyperthermia enhances the susceptibility of Staphylococcus Aureus biofilm to antibiotics. International Journal of Hyperthermia, 37: 66-75, 2020
  9. Albosolemy T, Yu B, Rogers T#, and Kim MH*. Staphylococcus aureus biofilm-conditioned medium impairs macrophage-mediated anti-biofilm immune response by upregulating KLF2 expression. Infection and Immunity, 87:e00643-18, 2019
  10. Sung B, Krieger J, Yu B, and Kim MH*. Colloidal gelatin microgels with tunable elasticity support the viability and differentiation of mesenchymal stem cells under pro-inflammatory conditions. Journal of Biomedical Materials Research Part A, 106:2753-2761, 2018
  11. Wang Z, Yu B, Alamri H, Yarabarla S, Kim MH*, Huang S*. KCa(H2O)2[FeIII(CN)6].H2O nanoparticles as a novel antimicrobial agent for Staphylococcus aureus. Angewandte Chemie, 57:2214-2218, 2018 (*:co-corresponding author)
  12. Sung B and Kim MH. Liquid-crystalline nanoarchitectures for tissue engineering. Beilstein Journal of Nanotechnology. 9:205-215, 2018
  13. Yu B, Alboslemy T, Safadi F, Kim MH. Glycoprotein non-melanoma clone B regulates the crosstalk between macrophages and mesenchymal stem cells towards wound repair. In press, Journal of Investigative Dermatology, 138:219-227, 2018
  14. Sung B and Kim MH. Cell encapsulating polymeric microgels for tissue repair. Invited chapter in 2nd edition of Handbook of Intelligent Scaffolds for Regenerative Medicine, Pan Stanford Publishing, G. Kang (eds), Published on April 28, PP.369-389, 2017
  15. Curry FE, Clark JF, Jiang y, Kim MH, Adamson R & Simon SI. The role of atrial natriuretic peptide to attenuate inflammation in a mouse skin wound and individually perfused rat mesenteric microvessels. 4:e12968, doi: 10.14814/phy2.12968, 2016.
  16. Kim MH*. Nanoparticle-based therapies for wound biofilm infections: Opportunities and Challenges. IEEE Trans Nanobioscience, 15:294-304, 2016.
  17. Yu B, Sondag G, Malcuit C*, Kim MH*, and Safadi F*. Macrophage-associated Osteoactivin/GPNMB mediates mesenchymal stem cell survival, proliferation, and migration via a CD44-dependent mechanism. In press, Journal of Cellular Biochemistry, 117:1511–1521, 2016 (*, equal contribution).
  18. Sung B, Shaffer S, Sittek M, Alboslemy T, Kim C, and Kim MH. Alternating magnetic field-responsive hybrid gelatin microgels for controlled drug release. Journal of Visualized Experiments, 108:e53680, doi:10.3791/53680, 2016.
  19. Kim MH*. Modulation of innate immune response for tissue engineering. Invited chapter in Frontiers in Biomedical Engineering: Convergence Technology, Springer, H. Jo et al (eds.),DOI:10.1007/978-3-319-21813-7_7, 2015.
  20. Worden M, Bruckman M, Kim MH, Steinmetz N, Kikkawa J, LaSpina C, and Hegmann T. Aqueous systhesis of polyhedral “brick-like” iron oxide nanoparticles for hyperthermia and T2 MRI contrast enhancement, Journal of Materials Chemistry B, 3: 6877-6884, 2015.
  21. Sung B, Kim C, and Kim MH. Biodegradable colloidal microgels with tunable thermosensitive volume phase transitions for controllable drug delivery. Journal of Colloid and Interface Science, 450:26-33, 2015.
  22. Yan H, Sung B, Kim MH, and Kim C. A novel strategy for functionalizable photoluminescent magnetic nanoparticles. Materials Research Express, 1:045032, doi:10.1088/2053-1591/1/4/045032, 2014.
  23. Kim MH, Gorouhi F, Ramirez S, Granick JL, Byrne BA, Soulika AM, Simon SI, Isseroff RR. Catecholamine stress alters neutrophil trafficking and impairs wound healing via β2 adrenergic receptor mediated upregulation of IL-6. Journal of Investigative Dermatology, 134:809-817, 2014
  24. Kim MH, Yamayoshi I, Mathew S, Lin H, Nayfach J, and Simon SI, Magnetic nanoparticle targeted hyperthermia of cutaneous S. aureus infection. Annals of Biomedical Engineering, 41:598-609, 2013
  25. Dixit N, Kim MH, Rossaint J, Yamayoshi I, Zarbock A, Simon SI.Leukocyte function antigen-1, kindlin-3, and calcium flux orchestrate neutrophil recruitment during Inflammation. J Immunology, 189:5954-5964, 2012

Prior to joining Kent State

  1. Kim MH, Granick J, Kwok C, Walker N, Borjesson DL, Curry F-E, Miller LS, and Simon SI. Neutrophil survival and c-kit+ progenitor proliferation in Stappylococcus aureus infected skin wounds promote resolution. Blood, 117(12):3343-3352, 2011
  2. Simon SI and Kim MH, A day (or 5) in a neutrophil’s life. Blood, 116:511-512, 2010
  3. Kim MH, Curry F-E, and Simon SI. Dynamics of neutrophil extravasation and vascular permeability are uncoupled during aseptic cutaneous wounding. American Journal of Physiology-Cell Physiology, 296: C848-C856, 2009
  4. Kim MH, Liu W, Borjesson DL, Curry F-E, Miller LS, Cheung AL, Liu F-T, Isseroff RR, and Simon SI. Dynamics of neutrophil infiltration during cutaneous wound healing and infection using fluorescence imaging. Journal of Investigative Dermatology. 128: 1812-1820, 2008
  5. Kim MH, Granger DN, and Harris NR. Mediators of CD18/P-selectin-dependent constriction of venule-paired arterioles in hypercholesterolemia. Microvascular Research, 73, pp. 150-155, 2007
  6. Kim MH, Carter P, and Harris NR. P-selectin-mediated adhesion impairs endothelium-dependent arteriolar dilation in hypercholesterolemic mice. American Journal of Physiology -Heart and Circ Physiology. 292: H632-H638, 2007
  7. Kim MH and Harris NR. Leukocyte adherence inhibits adenosine-dependent venular control of arteriolar diameter and nitric oxide. American Journal of Physiology -Heart and Circ Physiology. 291: H724-H731, 2006
  8. Kim MH, Harris NR and Tarbell JM. Regulation of hydraulic conductivity in response to sustained changes in pressure. American Journal of Physiology-Heart and Circ Physiology. 289: H2551-H2558, 2005
  9. Kim MH, Harris NR and Tarbell JM. Regulation of capillary hydraulic conductivity in response to acute change in shear. American Journal of Physiology-Heart and Circ Physiology, 289: H2126-H2135, 2005
  10. Kim MH, Harris NR and Tarbell JM. Control of the arteriolar myogenic response by transvascular fluid filtration. Microvascular Research, 68, pp. 30-37, 2004
  11. Cho M, Kim MH & et all. A Study on the Room-Temperature Curvature Shapes of Unsymmetric Laminates Including Slippage Effects. Journal of Composite Materials, Vol.32, No. 5, pp. 460 - 482, 1998
  12. Cho M, Kim K and Kim MH. Efficient Higher-order Shell Theory for Laminated Composites. Composite Structures, 34, pp. 197 - 212, 1996
  13. Cho M and Kim MH. A Postprocess Method Using a Displacement Field of Higher Shell Theory. Composite Structures, 34, pp. 185 - 196, 1996