Mi Jung Han scite author profile

Mi Jung Han

4Publications

75Citation Statements Received

79Citation Statements Given

How they've been cited

138

How they cite others

Affiliations

Seoul National University Hospital, Wonkwang University, Seoul National University Bundang Hospital

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Hydrogel-laden paper scaffold system for origami-based tissue engineering

Kim

Lee

et al. 2015

Proc. Natl. Acad. Sci. U.S.A.

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In this study, we present a method for assembling biofunctionalized paper into a multiform structured scaffold system for reliable tissue regeneration using an origami-based approach. The surface of a paper was conformally modified with a poly(styrene-comaleic anhydride) layer via initiated chemical vapor deposition followed by the immobilization of poly-L-lysine (PLL) and deposition of Ca 2+ . This procedure ensures the formation of alginate hydrogel on the paper due to Ca 2+ diffusion. Furthermore, strong adhesion of the alginate hydrogel on the paper onto the paper substrate was achieved due to an electrostatic interaction between the alginate and PLL. The developed scaffold system was versatile and allowed area-selective cell seeding. Also, the hydrogel-laden paper could be folded freely into 3D tissue-like structures using a simple origamibased method. The cylindrically constructed paper scaffold system with chondrocytes was applied into a three-ring defect trachea in rabbits. The transplanted engineered tissues replaced the native trachea without stenosis after 4 wks. As for the custom-built scaffold system, the hydrogel-laden paper system will provide a robust and facile method for the formation of tissues mimicking native tissue constructs.paper scaffolds | origami | tissue engineering | initiated chemical vapor deposition | hydrogel T he living organ changes its shape from a sheet-like arrangement with primitive cells to mature three-dimensional (3D) structures through morphogenetic processes (1-3). To date, a wide range of biomaterials have been used for the total or partial replacement of damaged organs and/or tissue structures (4-7). As the functions of the living organ are realized by periodic changes in the spatial arrangement of tissue elements, multiform scaffold systems mimicking the native tissue are desired. Moldcasting and electrospinning, among various other methods, have been introduced to fabricate diverse scaffolds (8, 9). These fabrication processes, however, possess limitations for organlike structure productions. Although recent progress in tissue engineering has focused on using 3D printer schemes, there are still limitations such as the shortage of appropriate printing materials and technical challenges related to the sensitivity of living cells (10-12).Paper-based scaffolds have been used previously for cell culture platforms (13), high-throughput biochemical assay platforms (14), and a point-of-care diagnostic system (15). As a nature-originated substrate, paper has attracted enormous research interest for applications in tissue engineering (16). Cellulose-based paper may serve as a promising material for tissue engineering as it contains macroporous structures that allow nutrient transport and oxygenation (13). In this regard, paper origami is a simple alternative approach for fabricating a multiform scaffold. Based on computeraided design (CAD) planar figures, a variety of shaped scaffolds could be designed using biofunctionalized paper.In this report, a vapor-phase method, init...

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Effects of the Early Administration of Heparin in Patients With ST-Elevation Myocardial Infarction Treated by Primary Angioplasty

Chung

Han

Cho

et al. 2007

Circ J

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Background The effect of adjunctive heparin for primary angioplasty in patients with ST-elevation myocardial infarction (STEMI) is not well established, so the authors investigated the effect of early heparin administration in the emergency room (ER) on initial patency of the infarct-related artery (IRA) and on the clinical outcome in STEMI patients. Methods and Results One hundred and twenty consecutive patients who presented with STEMI less than 12 h from pain onset and who were eligible for primary percutaneous coronary intervention were allocated to an early heparin group (heparin administered in ER) or a late heparin group (heparin administered after angiography). In the early heparin group, unfractionated heparin (60 U/kg bolus IV, then 14 U·kg -1 ·h -1 IV infusion) or enoxaparin (1 mg/kg bolus SC) were administered 144±95 min before angioplasty. No significant differences in baseline characteristics were observed between the early heparin group (n=56) and the late heparin group (n=64). However, initial Thrombolysis In Myocardial Infarction (TIMI) flow grade in the IRA was significantly different between the 2 groups (frequency of TIMI 0/1/2/3; 48/4/7/41% vs 70/8/11/11%, early vs late respectively, p=0.002). TIMI 2 or 3 flow was significantly more frequent in the early heparin group than in the late heparin group (48% vs 22%, p=0.002). However, no significant differences were noted between the 2 groups in terms of in-hospital major adverse cardiac events (7% vs 11%, p=0.472) and TIMI major bleeding (2% vs 3%, p=0.639). Conclusions In STEMI patients, early heparin therapy administered in the ER improves coronary patency, despite not reaching clinical benefit. (Circ J 2007; 71: 862 -867)

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58.5: Late‐News Paper: 14.3 inch Active Matrix‐Based Plastic Electrophoretic Display Using Low Temperature Processes

Lee

Wang

Kim

et al. 2007

Symp Digest of Tech Papers

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Should We Consider the Ethnic Difference in Selecting Size of Intraaortic Balloon by Commercial Guideline?

Cho

Lim

Han

et al. 2009

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To evaluate the appropriateness of commercial guideline in selecting the size of balloon for intraaortic counterpulsation in Asian patients, we analyzed the relationship between aortic dimensions measured from computed tomography and body indexes. There were 125 patients who underwent the computed tomography. They were divided into three height groups [<152 cm (I), 152-162 cm (II), and 163-183 cm (III)]. Aortic length and diameter were obtained from the origin of left subclavian artery to the orifice of renal artery. We compared those measurements with the balloon size according to the commercial guideline. Aortic lengths were measured as 250 +/- 15 (233-289), 262 +/-16 (227-298), and 285 +/- 19 (239-334) mm in each group, respectively. As the guideline, if we insert the balloon of 25 ml/191 mm, 34 ml/236 mm, and 40 ml/280 mm, there will be 29 of 66 patients (44%) in group III, who have shorter aortic length, with increased risk of obstructing renal artery. In addition, the younger the patient the higher is the risk (p = 0.038). We should pay attention to proper positioning of intraaortic balloon in younger Asian patients with 163-183 cm height, in applying the commercial guideline to prevent renal arterial obstruction.

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Mi Jung Han

Hydrogel-laden paper scaffold system for origami-based tissue engineering

Effects of the Early Administration of Heparin in Patients With ST-Elevation Myocardial Infarction Treated by Primary Angioplasty

58.5: Late‐News Paper: 14.3 inch Active Matrix‐Based Plastic Electrophoretic Display Using Low Temperature Processes

Should We Consider the Ethnic Difference in Selecting Size of Intraaortic Balloon by Commercial Guideline?

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