Skin Physiological Phenomena
"Skin Physiological Phenomena" is a descriptor in the National Library of Medicine's controlled vocabulary thesaurus,
MeSH (Medical Subject Headings). Descriptors are arranged in a hierarchical structure,
which enables searching at various levels of specificity.
The functions of the skin in the human and animal body. It includes the pigmentation of the skin.
|Skin Physiological Phenomena
- Skin Physiological Phenomena
- Phenomena, Skin Physiological
- Phenomenas, Skin Physiological
- Physiological Phenomena, Skin
- Physiological Phenomenas, Skin
- Skin Physiological Phenomenas
- Skin Physiology
- Skin Physiological Phenomenon
- Phenomenon, Skin Physiological
- Phenomenons, Skin Physiological
- Physiological Phenomenon, Skin
- Physiological Phenomenons, Skin
- Skin Physiological Phenomenons
- Skin Physiological Concepts
- Concept, Skin Physiological
- Concepts, Skin Physiological
- Physiological Concept, Skin
- Physiological Concepts, Skin
- Skin Physiological Concept
- Physiology, Skin
Below are MeSH descriptors whose meaning is more general than "Skin Physiological Phenomena".
Below are MeSH descriptors whose meaning is more specific than "Skin Physiological Phenomena".
This graph shows the total number of publications written about "Skin Physiological Phenomena" by people in this website by year, and whether "Skin Physiological Phenomena" was a major or minor topic of these publications.
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|Year||Major Topic||Minor Topic||Total|
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Below are the most recent publications written about "Skin Physiological Phenomena" by people in Profiles.
Iorizzo TW, Jermain PR, Salomatina E, Muzikansky A, Yaroslavsky AN. Temperature induced changes in the optical properties of skin in vivo. Sci Rep. 2021 01 12; 11(1):754.
Novak P. Electrochemical skin conductance: a systematic review. Clin Auton Res. 2019 02; 29(1):17-29.
Xiong S, Zhang X, Lu P, Wu Y, Wang Q, Sun H, Heng BC, Bunpetch V, Zhang S, Ouyang H. A Gelatin-sulfonated Silk Composite Scaffold based on 3D Printing Technology Enhances Skin Regeneration by Stimulating Epidermal Growth and Dermal Neovascularization. Sci Rep. 2017 06 27; 7(1):4288.
Chaspari T, Tsiartas A, Stein LI, Cermak SA, Narayanan SS. Sparse representation of electrodermal activity with knowledge-driven dictionaries. IEEE Trans Biomed Eng. 2015 Mar; 62(3):960-71.
Richmond JM, Harris JE. Immunology and skin in health and disease. Cold Spring Harb Perspect Med. 2014 Dec 01; 4(12):a015339.
Chin MS, Freniere BB, Fakhouri S, Harris JE, Lalikos JF, Crosby AJ. Cavitation rheology as a potential method for in vivo assessment of skin biomechanics. Plast Reconstr Surg. 2013 Feb; 131(2):303e-305e.
Tuchin VV, Yaroslavsky AN, Jacques SL, Popp J. Biophotonics for dermatology: science & applications. J Biophotonics. 2010 Jan; 3(1-2):9-10.
Magit DP, McGarry M, Tibone JE, Lee TQ. Comparison of cutaneous and transosseous electromagnetic position sensors in the assessment of tibial rotation in a cadaveric model. Am J Sports Med. 2008 May; 36(5):971-7.
Chen Y, Shi-Wen X, van Beek J, Kennedy L, McLeod M, Renzoni EA, Bou-Gharios G, Wilcox-Adelman S, Goetinck PF, Eastwood M, Black CM, Abraham DJ, Leask A. Matrix contraction by dermal fibroblasts requires transforming growth factor-beta/activin-linked kinase 5, heparan sulfate-containing proteoglycans, and MEK/ERK: insights into pathological scarring in chronic fibrotic disease. Am J Pathol. 2005 Dec; 167(6):1699-711.
Mamelak AJ, Kowalski J, Murphy K, Yadava N, Zahurak M, Kouba DJ, Howell BG, Tzu J, Cummins DL, Li?geois NJ, Berg K, Sauder DN. Downregulation of NDUFA1 and other oxidative phosphorylation-related genes is a consistent feature of basal cell carcinoma. Exp Dermatol. 2005 May; 14(5):336-48.