Min Suk Lee scite author profile

Min Suk Lee

2Publications

12Citation Statements Received

95Citation Statements Given

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Dankook University

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Enhanced extraction of skin interstitial fluid using a 3D printed device enabling tilted microneedle penetration

Kim

Lee

Yang

et al. 2021

Sci Rep

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Interstitial fluid (ISF) is a body fluid that fills, surrounds cells and contains various biomarkers, but it has been challenging to extract ISF in a reliable and sufficient amount with high speed. To address the issues, we developed the tilted microneedle ISF collecting system (TMICS) fabricated by 3D printing. In this system, the microneedle (MN) was inserted at 66° to the skin by TMICS so that the MN length could be extended within a safe range of skin penetration. Moreover, TMICS incorporating three MN patches created reliable ISF collecting conditions by penetrating the skin at consistent angle and force, 4.9 N. Due to the MN length increase and the patch number expansion, the surface area of the penetrated tissue was increased, thereby confirming that ISF extraction efficiency was improved. Skin ISF was collected into the paper reservoir on the patch, and the absorbed area was converted into a volume. ISF extraction from the rat skin in vivo by TMICS was well tolerated, and the 2.9 μL of ISF was obtained within 30 s. Therefore, TMICS is promising to apply in the diagnosis of multiple biomarkers in ISF with high speed and stability.

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Enhanced Extraction of Skin Interstitial Fluid Using a Tilted Microneedle Device Fabricated by 3D Printing

Kim

Lee

Yang

et al. 2021

Preprint

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Interstitial fluid (ISF) is a body fluid that fills, surrounds cells and contains various biomarkers, but it has been challenging to extract ISF in a reliable and sufficient amount with high speed. To address the issues, we developed the tilted microneedle ISF collecting system (TMICS) fabricated by 3D printing. In this system, the microneedle (MN) was inserted at 66° to the skin by TMICS so that the MN length could be extended within a safe range of skin penetration. Moreover, TMICS incorporating three MN patches created reliable ISF collecting conditions by penetrating the skin at consistent angle and force, 4.9 N. Due to the MN length increase and the patch number expansion, the surface area of the penetrated tissue was increased, thereby confirming that ISF extraction efficiency was improved. Skin ISF was collected into the paper reservoir on the patch, and the absorbed area was converted into a volume. ISF extraction from the rat skin in vivo by TMICS was well tolerated, and the 2.9 μL of ISF was obtained within 30 sec. Therefore, TMICS is promising to apply in the diagnosis of multiple biomarkers in ISF with high speed and stability.

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Min Suk Lee

Enhanced extraction of skin interstitial fluid using a 3D printed device enabling tilted microneedle penetration

Enhanced Extraction of Skin Interstitial Fluid Using a Tilted Microneedle Device Fabricated by 3D Printing

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Min Suk Lee

Enhanced extraction of skin interstitial fluid using a 3D printed device enabling tilted microneedle penetration

Enhanced Extraction of Skin Interstitial Fluid Using a Tilted Microneedle Device Fabricated by 3D&nbsp;Printing

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Enhanced Extraction of Skin Interstitial Fluid Using a Tilted Microneedle Device Fabricated by 3D Printing