Edward F. Adolph Distinguished Lecture: Skin-deep insights into vascular aging

The skin is an accessible model circulation for studying vascular function and dysfunction across the lifespan. Age-related changes, as well as those associated with disease progression, often appear first in the cutaneous circulation. Furthermore, impaired vascular signaling and attendant endotheli...

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Bibliographic Details
Published in:Journal of applied physiology (1985) 2017-11, Vol.123 (5), p.1024-1038
Main Author: Kenney, W Larry
Format: Article
Language:English
Subjects:
Adolph, Edward F
Age
Age Factors
Aging
Aging (artificial)
Animals
Biopsy
Blood flow
Blood Flow Velocity
Body Temperature Regulation
Cardiovascular disease
Cold stimuli
Disease control
Doppler effect
Humans
In vivo methods and tests
Laser-Doppler Flowmetry
Life span
Microcirculation
Microdialysis
Microvasculature
Microvessels - innervation
Microvessels - metabolism
Microvessels - physiology
Models, Cardiovascular
Nitric oxide
Nitric Oxide - metabolism
Pathogenesis
Pharmacology
Regional Blood Flow
Review
Signal Transduction
Signaling
Skin
Skin - blood supply
Skin Aging
Skin diseases
Skin Temperature
Stimuli
Time Factors
Vasodilation
Vein & artery diseases
Writers
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Description
Summary:The skin is an accessible model circulation for studying vascular function and dysfunction across the lifespan. Age-related changes, as well as those associated with disease progression, often appear first in the cutaneous circulation. Furthermore, impaired vascular signaling and attendant endothelial dysfunction, the earliest indicators of cardiovascular pathogenesis, occur in a similar fashion across multiple tissue beds throughout the body, including the skin. Because microvascular dysfunction is a better predictor of long-term outcomes and adverse cardiovascular events than is large vessel disease, an understanding of age-associated changes in the control of the human cutaneous microcirculation is important. This review focuses on ) the merits of using skin-specific methods and techniques to study vascular function, ) microvascular changes in aged skin (in particular, the role of the endothelial-derived dilator nitric oxide), and ) the impact of aging on heat-induced changes in skin vasodilation. While skin blood flow is controlled by multiple, often redundant, mechanisms, our laboratory has used a variety of distinct thermal provocations of this model circulation to isolate specific age-associated changes in vascular function. Skin-specific approaches and techniques, such as intradermal microdialysis coupled with laser-Doppler flowmetry (in vivo) and biochemical analyses of skin biopsy samples (in vitro), have allowed for the targeted pharmacodissection of the mechanistic pathways controlling skin vasoreactivity and study of the impact of aging and disease states. Aged skin has an attenuated ability to vasodilate in response to warm stimuli and to vasoconstrict in response to cold stimuli.
ISSN:8750-7587
1522-1601
1522-1601
DOI:10.1152/japplphysiol.00589.2017