Dr. Kim’s complete publication list can be found on his UCSF Profiles page.
Imaging and Applied Optics
Kim TN, Goodwill PW, Chen Y, Conolly SM, Schaffer CB, Liepmann D, Wang RA. Line-scanning particle image velocimetry: an optical approach for quantifying a wide range of blood flow speeds in live animals. PLoS One. 2012 June 26; 7(6):e38590. (PMID22761686).
Goodwill PW, Saritas EU, Croft LR, Kim TN, Krishnan KM, Schaffer DV, Conolly SM. X-space MPI: magnetic nanoparticles for safe medical imaging. Adv Mater. 2012 Jul 24;24(28):3870-7. (PMID22988557)
Tsai, PS, Migliori B, Campbell K, Kim TN, Kam Z, Groisman A, Kleinfeld D. Spherical aberration correction in nonlinear microscopy and optical ablation using transparent deformable membrane. Appl Phys Lett, 91, 191102 (2007).
Kim TN, Campbell K, Groisman A, Kleinfeld D, CB Schaffer. Femtosecond laser-drilled capillary integrated into a microfluidic device. Appl Phys Lett, 86, 201106 (2005)
Vascular and Developmental Biology
Murphy PA*, Kim TN*, Huang L, Nielsen CM, Lawton MT, Adams RH, Schaffer CB, Wang RA. Constitutively active Notch4 receptor elicits brain arteriovenous malformations through enlargement of capillary-like vessels. Proc Natl Acad Sci USA. 2014 Dec 16; 111(50):18007-12. (PMID25468970) *equally contributing authors
Kim TN, Goodwill PW, Chen Y, Conolly SM, Schaffer CB, Liepmann D, Wang RA. Line-scanning particle image velocimetry: an optical approach for quantifying a wide range of blood flow speeds in live animals. PLoS One. 2012 June 26; 7(6):e38590. (PMID22761686).
Murphy PA*, Kim TN*, Lu G, Bollen AW, Schaffer CB, Wang RA. Notch4 normalization reduces blood vessel size in arteriovenous malformations. Science Transl Med. 2012 Jan 18;4(117):117ra8. (PMID22261032). *equally contributing authors
Herbert SP, Huisken J, Kim TN, Feldman ME, Shokat KM, Wang RA, Stainier DYR. Arterial-Venous Segregation by Selective Cell Sprouting: An Alternative Mode of Blood Vessel Formation. Science. 2009 Oct 9;326(5950):294-8 (PMID19815777).
Ophthalmology
Kim TN, Aaberg M, Li P, Davila J, Bhaskaranand M, Bhat S, Ramachandra C, Solanki K, Myers F, Reber C, Jalalizadeh R, Margolis TP, Fletcher Dan, Paulus YM. Comparison of automated and expert human grading of diabetic retinopathy using smartphone-based retinal photography. Eye. 2020 Apr 27. (PMID32341536)
Patel TP, Aaberg MT, Paulus YM, Lieu P, Dedania VS, Qian CX, Besirli CG, Margolis TP, Fletcher DA, Kim TN. Smartphone-based fundus photography for screening of plus-disease retinopathy of prematurity. Graefes Arch Clin Exp Ophthalmol. 2019 Nov;257(11):2579-2585. (PMID31501929)
Li P, Paulus YM, Davila JR, Gosbee J, Margolis TP, Fletcher DA, Kim TN. Usability testing of a smartphone-based retinal camera among first-time users in the primary care setting. BMJ Innov. Sept 2019. (PMID32864157)
Patel T*, Kim TN*, Yu G, Dedania V, Lieu P, Qian C, Besirli C, Demirci H, Margolis TP, Fletcher DA, Paulus YM. Smartphone-based, rapid, wide-field fundus photography for diagnosis of pediatric retinal diseases. Transl Vis Sci Technol. May 2019. May 30;8(3):29. (PMID31171996) *equally contributing authors
Kim TN*, Myers F*, Reber C*, Loury P, Lomou N, Webster D, Echanique C, Li P, Davila JR, Mamaari RN, Switz NA, Keenan JD, Woodward MA, Paulus YM, Margolis TP, Fletcher DA. A smartphone-based tool for rapid, portable, and automated wide-field retinal imaging. Transl Vis Sci Technol. 2018 Oct 1;7(5):21. (PMID30280006)
