1 |
WANG D, HE P, WANG Z, et al.. Advances in single cell Raman spectroscopy technologies for biological and environmental applications-Science Direct[J]. Curr. Opin. Biotechnol., 2020, 64:218-229.
|
2 |
ANTONIO J S, JACENKO O, FERTALA A, et al.. Collagen structure-function mapping informs applications for regenerative medicine[J/OL]. Bioengineering,2021,8(1):3[2021-10-20]. .
|
3 |
KNOX S, O'BOYLE N M. Skin lipids in health and disease: a review[J/OL]. Chem. Physics. Lipids, 2021, 236:105055[2021-10-20]. .
|
4 |
FU D. Quantitative chemical imaging with multiplex stimulated Raman scattering microscopy[J]. J. Am. Chem. Soc., 2012, 134(8):3623-3626.
|
5 |
ZHANG L, CAMBRON T, NIU Y, et al.. Resolving water, proteins, and lipids from in vivo confocal raman spectra of stratum corneum through a chemometric approach[J/OL]. J. Visual. Exp., 2019,doi: 10.3791/60186[2021-10-20]. .
|
6 |
YANG S, SEN C, THOMPSON R, et al.. An in vitro Raman study on compositional correlations of lipids and protein with animal tissue hydration[J/OL]. Vibrat. Spectros., 2020, 107:103022[2021-10-20]. .
|
7 |
CATANZARO E, BISHAYEE A, FIMOGNARI C. On a beam of light: photoprotective activities of the marine carotenoids astaxanthin and fucoxanthin in suppression of inflammation and cancer[J/OL]. Marine Drugs, 2020, 18(11):544[2021-10-20]. .
|
8 |
BALI A, MOKOS M. Do we utilize our knowledge of the skin protective effects of carotenoids enough?[J/OL]. Antioxidants, 2019, 8(8):259[2021-10-20]. .
|
9 |
MOROVATI A, ANSARI M A, TUCHIN V V. In vivo detection of human cutaneous beta-carotene using computational optical clearing[J/OL]. J. Biophot., 2020, doi:10.1002/jbio.202000124. .
|
10 |
DANCIK Y, KICHOU H, EKLOUH-MOLINIER C, et al.. Freezing weakens the barrier function of reconstructed human epidermis as evidenced by Raman spectroscopy and percutaneous permeation[J/OL]. Pharmaceutics, 2020, doi:10.1002/jbio.202000124[2021-10-20]..
|
11 |
TOH D W K, LOH W W, SUTANTO C N, et al.. Skin carotenoids status and plasma carotenoids: Biomarkers of dietary carotenoids, fruits and vegetables for middle-aged and older Singaporean adults[J]. Br. J. Nutr., 2021,126(9):1-28.
|
12 |
JUNG B, DARVIN M E, JUNG S, et al.. Kinetics of the carotenoid concentration degradation of smoothies and their influence on the antioxidant status of the human skin in vivo during 8 wks daily consumption[J]. Nutr. Res., 2020, 81:38-46.
|
13 |
CHEN W J, TZENG S L, CHENG E H, et al..Correlation of skin carotenoid levels with embryo development and pregnancy result of in vitro fertilization cycles for couples with unexplained infertility[J]. Food Sci. Nutr., 2020,8(7):3353-3361.
|
14 |
CARTMEL B, ANDERSON C, IRWIN M L, et al.. Skin carotenoids are inversely associated with adiposity in breast cancer survivors[J]. Nutr. Res., 2020, 79:77-86.
|
15 |
HOROWITZ M, KAISER L L, MANZO R D, et al.. Influence of pre-schooler and parent nutrition education on carotenoid levels of Mexican-heritage children[J]. Public Health Nutr., 2020, 23(13):1-9.
|
16 |
JONTONY N, HILL E B, TAYLOR C A, et al.. Diet quality, carotenoid status, and body composition in NCAA division I athletes[J]. Am. J. Health Behav., 2020,44(4):432-443.
|
17 |
GUNTER N V, TEH S S, YANG M L, et al.. Natural xanthones and skin inflammatory diseases: multitargeting mechanisms of action and potential application[J/OL]. Front. Pharmacol., 2020, 11:594202[2021-12-21]..
|
18 |
ZHANG L, CAMBRON T, NIU Y, et al.. MCR approach revealing protein, water, and lipid depth profile in atopic dermatitis patients' stratum corneum via in vivo confocal raman spectroscopy[J]. Analyt. Chem., 2019, 91(4):2784-2790.
|
19 |
LANDULFO S, CARLOS A, BENITO B, et al.. Normal-subtracted preprocessing of Raman spectra aiming to discriminate skin actinic keratosis and neoplasias from benign lesions and normal skin tissues [J]. Lasers Med. Sci., 2019, 35(5):1141-1151.
|
20 |
HO C J H, YEW Y W, DINISH U S, et al.. Handheld confocal raman spectroscopy (CRS) for objective assessment of skin barrier function and stratification of severity in atopic dermatitis (AD) patients[J]. J. Dermatol. Sci., 2020, 98(1): 20-25.
|
21 |
KNIG K, BREUNIG H G, BATISTA A, et al..Translation of two-photon microscopy to the clinic: multimodal multiphoton CARS tomography of in vivo human skin[J].J. Biomed. Optics,2020,25(1): 1-12.
|
22 |
LI Q, LI F, QI X, et al.. Pluronic F127 stabilized reduced graphene oxide hydrogel for the treatment of psoriasis: In vitro and in vivo studies[J/OL]. Coll. Surfaces B: Biointerfaces, 2020, 195: 111246[2021-12-21]..
|
23 |
TROIANI T, FALCO V D, NAPOLITANO S, et al.. How we treat locoregional melanoma[J/OL]. ESMO Open,2021, 6(3): 100136[2021-12-21]..
|
24 |
YAKIMOV B P, SHIRSHIN E A, SCHLEUSENER J, et al.. Melanin distribution from the dermal-epidermal junction to the stratum corneum: non-invasive in vivo assessment by fluorescence and Raman microspectroscopy[J/OL]. Sci. Rep., 2020, 10(1): 14374[2021-12-21]. .
|
25 |
ZHANG Y, MOY A J, FENG X, et al.. Assessment of raman spectroscopy for reducing unnecessary biopsies for melanoma screening[J/OL]. Molecules,2020,25(12):2852[2021-12-21]. .
|
26 |
KRITO M, ITUM M, EOVI R. Noninvasive imaging techniques for the diagnosis of nonmelanoma skin cancers[J]. Acta Dermatovenerol. Croat., 2020,28(3):157-165.
|
27 |
SANTOS P I, VAN D R, CASPERS P J, et al.. Improving clinical diagnosis of early-stage cutaneous melanoma based on Raman spectroscopy[J]. Br. J. Cancer, 2018,119(11):1339-1346.
|
28 |
PALOMBO L, IERMAK I, MARIYAMA L, et al.. Optical clearing agent increases effectiveness of photodynamic therapy in a mouse model of cutaneous melanoma: an analysis by Raman microspectroscopy[J]. Biomed. Optics Express, 2020,11(11):6516-6527.
|
29 |
ZAILAIE M Z. Epidermal hydrogen peroxide is not increased in lesional and non-lesional skin of vitiligo[J]. Arch. Dermatol. Res., 2016, 309(1):31-42.
|
30 |
KOURBAJ G, BIELFELDT S, SEISE M, et al.. Measurement of dermal water content by confocal RAMAN spectroscopy to investigate intrinsic aging and photoaging of human skin in vivo[J]. Skin Res. Technol., 2020,27(3):404-413.
|
31 |
YE H, KRUGER U, WANG T, et al.. Burn-related collagen conformational changes in ex vivo porcine skin using Raman spectroscopy[J/OL]. Sci. Rep., 2019, 9(1):19138[2021-12-21]. .
|
32 |
YE H, KRUGER U, WANG T, et al.. Raman spectroscopy accurately classifies burn severity in an ex vivo model[J/OL]. Burns,2021,47(4):812-820.
|
33 |
TAKAMASA S, TOMOHIRO A, MASATO S, et al.. Enhancement of skin permeation of a hydrophilic drug from acryl-based pressure-sensitive adhesive tape[J]. Pharm. Res.,2021 Feb;38(2):289-299.
|
34 |
ZENG L J, SONG W T, HE W H, et al.. Unconventional passive enhancement of transdermal drug delivery: toward a mechanistic understanding of penetration enhancers releasing from acrylic pressure-sensitive adhesive of patches[J/OL]. Pharm. Res., 2020, 37(9):169[2021-12-21]. .
|
35 |
LIU Y, LUNTER D J. Tracking heavy-water-incorporated confocal Raman spectroscopy for evaluating the effects of PEGylated emulsifiers on skin barrier[J/OL]. J. Biophot., 2020, 13(12):e202000286[2021-12-21]. .
|
36 |
STETTLER H, CROWTHER J M, BRANDT M, et al.. Targeted dry skin treatment using a multifunctional topical moisturizer[J]. Int. J. Cosm. Sci., 2020,43(2):191-200.
|