What is skin ageing?
There are two types of ageing processes: intrinsic and extrinsic ageing.
- • Intrinsic or chronological ageing affects the skin of the entire body, including sun-protected sites.
- • Extrinsic ageing is induced by chronic ultraviolet radiation exposure, smoking, and other pollutants, and is superimposed on the intrinsic ageing process.
Who does skin ageing affect?
Intrinsic ageing affects everyone, whatever their skin type. Extrinsic ageing affects people who are chronically exposed to sunlight — this is known as sun damage or photoaging. People who typically present with marked signs of photoaging include those who:
- • Have Fitzpatrick sun-reactive skin types I-II (with red/blond and blue eyes)
- • Live in the tropics or subtropics
- • Live at high altitudes
- • Work outdoors or spend long periods outdoors for recreation
- • Have sometimes been exposed to artificial sources of UV radiation, such as indoor tanning
- • Have a genetic predisposition to premature ageing (eg, progeria which is rare).
Premature ageing of the skin also affects tobacco smokers and those who have been chronically exposed to other environmental pollutants.
What causes the skin to age?
Intrinsic ageing is defined by the clinical, histological and physiological changes that occur in sun-protected areas of skin of older individuals. Intrinsic ageing can be compounded by other environmental factors.
Ultraviolet radiation
UV radiation attacks the integrity of the skin.
- • It causes thousands of alterations in the DNA of each cell every day.
- • The multi-hit model, which has been proposed to describe how UV radiation interacts with components of the extracellular matrix, results in the deposition of a disorganized, elastic-fiber rich matrix (solar elastosis).
Menopause
The signs of intrinsic ageing begin at around 50–60 years of age. Women develop these signs earlier than men, which is attributed to a decrease in the protective effects of oestrogen during menopause.
Smoking
Smoking exposes the skin to several damaging factors.
- • Nicotine narrows blood vessels and blood flow, reducing the amount of oxygen and nutrients that reach the cells.
- • Many other chemicals in tobacco smoke increase dermal MMPs and degrade collagen and elastin.
- • The heat from burning cigarettes and the facial muscle movements associated with smoking contribute to wrinkles.
- • Chemicals such as nitrosamines and tar are carcinogens.
Nutrition
Nutrition is known to affect extrinsic ageing.
- • Fruits, vegetables, legumes, herbs, and teas contain antioxidative compounds.
- • Higher levels of vitamin C and increased linoleic acid intake have been associated with decreased wrinkling, dryness, and atrophy of the skin.
- • In a nutritional study that recruited Greek, Australian, and Swedish subjects, resilience to photoaging was associated with a higher intake of vegetables, olive oil, fish, and legumes such as chickpeas, beans, peas, and lentils, and a lower intake of margarine, sugar and dairy products.
- • A higher fat and carbohydrate intake has been associated with an increased risk of wrinkles and skin atrophy.
- • Vitamin A, which can be applied topically, has been observed to decrease the production of MMPs.
- • The consumption of fish oil can also confer some sun protection.
Immune dysfunction
Skin ageing can be a symptom of immune deficiency diseases, immunosuppressive agents, and chronic psychological stress.
What are the clinical features of skin ageing?
Intrinsic ageing
Intrinsically aged skin appears dry and pale, smooth, thin, transparent, and unblemished.
- • It is finely wrinkled, due to gravitational and conformational forces which determine how proteins are folded.
- • Skin sagging or laxity may occur with body movement, due to loss of elasticity.
- • The degrees of pigmentation in intrinsically aged skin are very mild and regular in comparison to photoaged skin.
- • Aged skin tends to develop a variety of benign neoplasms, such as sebaceous hyperplasia and cherry angiomas.
- • Skin cancers are less common in intrinsically aged skin than in extrinsically aged skin.
- • The surface of the skin maintains youthful geometric patterns.
Extrinsic ageing
Extrinsic ageing, such as photoaging, is related to environmental factors. Extrinsic ageing was first reported at the end of the 19th century, and was then described as 'farmer's skin' or 'sailor’s skin'.
- • Extrinsic ageing affects habitually exposed areas of the body, such as the individual's face, neck, and arms.
- • The features of photodamage include roughness, sallowness, deep wrinkling, dyspigmentation, senile purpura, telangiectasia, and the development of a variety of benign and malignant skin lesions.
- • Hyperpigmented lesions include diffuse mottling, freckles, lentigines, and flat seborrheic keratoses.
- • Deep wrinkles are usually found on the individual's forehead and in the peri-orbital region.
Sun-induced cutaneous changes vary considerably among individuals, reflecting inherent differences in vulnerability to sun exposure and repair capacity. Even among Caucasians, the appearance of photoaged skin of individuals with skin phototypes I–III often differs from that of individuals with skin phototypes IV–VI.
Fitzpatrick skin phototypes
Skin type |
Skin color |
Effect of UV |
I |
White or freckled skin |
Always burns, never tans |
II |
White skin |
Usually burns, tans poorly |
III |
Olive skin |
Sometimes burns mildly, gradually tans |
IV |
Light brown skin |
Rarely burns, tans easily |
V |
Dark brown skin |
Very rarely burns, tans very easily |
VI |
Black skin |
Never burns, tans very easily |
Ethnicity
The degree of photoaging is significantly affected by an individual’s ethnicity and Fitzpatrick phototype. Fair-skinned individuals of Northern European descent (Fitzpatrick phototypes I–III) are more prone to photoaging than individuals with skin of color (Fitzpatrick phototypes IV–VI, which include people of African, African-American, Asian, and Latino or Hispanic descent), with melanin affording protection against sun-induced damage.
Hypertrophic and atrophic photoaging
In white Caucasians, severe facial photoaging tends to result in two phenotypes:
- • Hypertrophic photoaging — this is characterized by deep furrows and a leathery appearance
- • Atrophic photoaging — this is characterized by telangiectasia, a smooth, relatively unwrinkled appearance, and the development of a variety of benign and malignant skin lesions.
Individuals with Fitzpatrick phototypes III (and, to some extent, phototype IV skin) tend to show hypertrophic responses; while those with phototypes I and II tend towards the atrophic phenotype.
Features |
Atrophic photoaging |
Hypertrophic photoaging |
Wrinkling |
Minimal |
Coarse, deep |
Texture |
Smooth, thin |
Rough, leathery |
Appearance |
Shiny skin |
Sallow skin |
Pigmentation |
Focal depigmentation |
Dyspigmentation |
Vasculature |
Telangiectasia and senile purpura are common |
Minimal, or absent, vascular changes |
Dysplastic changes |
Actinic keratoses, basal cell carcinomas, and squamous cell carcinomas are common |
Actinic keratoses, basal cell carcinomas, and squamous cell carcinomas are uncommon |
Other |
Poikiloderma of Civatte |
Associated with Favre-Racouchot syndrome |
Dermatoporosis
Dermatoporosis is a term used to describe chronic cutaneous insufficiency and fragility associated with both intrinsic and extrinsic ageing. The features of dermatoporosis include:
- • Skin fragility and atrophy
- • Senile purpura
- • Stellate pseudoscars (star-shaped white patches)
- • Non-healing atrophic ulcers
- • Dissecting haematomas (bruises that spread under the skin)
- • Delayed wound healing.
How do we diagnose skin ageing?
The features of ageing skin are diagnosed clinically. Lesions suspicious of skin cancer present as growing lumps or sores that fail to heal. Such lesions often undergo diagnostic biopsy before or as part of treatment.
How do we prevent skin ageing?
Intrinsic ageing is inevitable. In perimenopausal women, systemic hormone replacement may delay skin thinning; the skin is less dry, with fewer wrinkles, and wound healing is faster than prior to treatment. Hormone replacement is less effective at improving skin ageing in the postmenopausal decades. The effects of topical oestrogens, phyto-oestrogens, and progestins are under investigation.
Protection from solar UV is essential at all ages.
Many oral supplements with antioxidant and anti-inflammatory properties have been advocated to retard skin ageing and to improve skin health. These include carotenoids; polyphenols; chlorophyll; aloe vera; vitamins B, C, and E; red ginseng; squalene; and omega-3 fatty acids. Their role in combatting skin ageing is unclear.
Author: Dr Jean Ayer, Consultant Dermatologist, University of Manchester, Manchester, United Kingdom. DermNet NZ Editor in Chief: Adjunct A/Prof Amanda Oakley, Dermatologist, Hamilton, New Zealand. Copy edited by Maria McGivern/Gus Mitchell. June 2018.