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2019년 1학기에 진행된 생명공학과 미생물및생물공학기초실험 과목에서 최종 성적 A+를 받은 결과레포트입니다. 결과레포트가 YSCEC을 이용하여 Turnitin 검수과정을 거치지 않고 메일과 하드카피 제출로 이루어지기 때문에 해당 레포트 내용을 조금씩만 변경하여 제출하시면 수월하게 A+를 받아가실 수 있을 것입니다. 글꼴은 맑은 고딕(본문) 혹은 a타이틀고딕(네이버에서 다운로드 가능)으로 작성하였습니다.

목차

1. Abstract
2. Material and Method
3. 결과 및 고찰
4. 고찰 (실험에 대한 고찰)
5. 퀴즈
6. Reference

본문내용

Dissolving microneedles (DMNs) are high molecular or biodegradable materials that have been solidified into a form of a microscopic needle. The size of the microneedle differs, and it is usually larger than 100 ㎛ size scale. Microneedles made through the centrifugal lithography method are usually 600 ㎛ in size, but differs among situations and can be longer. This is because due to the stratum corneum of the skin. The microneedle is utilized in order to deliver drugs and encapsulated medical substances into the human body, and this process can be conducted in a minimal invasive matter. The technology of using microneedles is a very developed transdermal delivery system as it enables the delivery of active ingredients into the skin. The needle penetrates the stratum corneum which is the most outer layer of the epidermis. After the DMNs are permeated, the microneedle is to be dissolved within the skin so that the ingredients it withholds can be absorbed by the tissues.

참고 자료

“Experiment in Microbiology and Biochemical Engineering”, 이동우 외 7명 저, Department of Biotechnology, College of Life Science and Biotechnology, Yonsei University
“Droplet-born air blowing: novel dissolving microneedle fabrication”, Kim JD, Kim M, Yang H, Lee K, Jung H, Journal of Controlled Release, volume 170, issue 3, September 2013
“Microneedles: A smart approach and increasing potential for transdermal drug delivery system”, Tejashree Waghule, Gautam Singhvi, Sunil Kumar Dubey Murali Monohar Pandey, Gaurav Gupta, Mahaveer Singh, Kamal Dua, Biomedicine & Pharmacotherapy, Volume 109, January 2019
“Microneedle, bio-microneedle and bio-inspired microneedle: A review”, Guojun Ma, Chengwei Wu, Journal of Controlled Release, Volume 251, April 2017
“Microneedles: A versatile strategy for transdermal delivery of biological molecules”, Dong-Jin Lim, Jeremy B. Vines, Hansoo Park, Soo-Hong Lee, International Journal of Biological Macromolecules, Volume 110, April 2018
“Polymeric microneedles for transdermal protein delivery”, Yanqi Ye, Jicheng Yu, Di wen, Anna R. Kahkoshka, Zhen GU, Advanced Drug Delivery Reviews, Volume 127, March 2018
“On the interpretation of shear viscosity ultrasonic measurements”, Mihail Gitis, Ultrasonics, Volume 93, March 2019
“A computer-interfaced falling ball viscometer”, Jian Wang, Fritz Reitz, Tom Donaldson, Len Pagliaro, Journal of Biochemical and Biophysical Methods”, Volume 28, Issue 4, June 1994
“Protein contact maps: A binary depiction of protein 3D structures”, Issac Arnold Emerson, Arumugam Amala, Physica A: Statistical Mechanics and its Applications, Volume 465, January 2017
“A fabrication method of microneedle molds with controlled microstructures”, Qi Lei Wang, Dan Dan Zhu, Yang Chen, Xin Dong Guo, Materials Science and Engineering: C, Volume 65, August 2016
“A three-dimensional and bevelangled ultrahigh aspect ratio microneedle for minimally invasive and painless blood sampling”, Dae-sik Lee, Cheng Guo Li, Chunhwa Ihm, Hyungil Jung, Sensors and Actuators B: Chemical, Volume 255, February 2018
“Centrifugal Lithography: Self-Shaping of Polymer Microstructures Encapsulating Biopharmaceutics by Centrifuging Polymer Drops”, Huisuk Yang, Suyong Kim, Geonwoo Kang, Shayan F. Lahiji, Mingyu Jang, Young Mi Kim, Jae-Myung Kim, Sang-Nae Cho, Hyungil Jung, Advanced Healthcare Materials, Volume 6, July 2017
“Proper personal protective equipment for a Jetting Job”, Ken Wysocky, Cleaner, April 2018, https://www.cleaner.com/online_exclusives/2018/04/proper-ppe-for-a-jetting-job
“Microneedles: quick and easy delivery methods of vaccines”, Ki Mun Kwon, Su-Kim Lim, Seulgi Choi, Da-Hee Kim, Hee-Eun Jun, Grace Jee, Kee-Jong Hong, Joo Young Kim, Clin Exp Vaccine Res, July 2017