What really causes wrinkles? New research says it’s not age, it’s physics |
The idea that skin folds only because you get older or spend too many summers on the beach is too simple. A new set of experiments from Binghamton University shows that wrinkles form when the living fabric of your skin starts behaving like a stretched piece of ‘silly putty’. Using strips of real human skin from volunteers aged 16 to 91, biomedical engineer Guy German and colleagues discovered that, as the years add up, skin no longer stretches and shrinks evenly. Instead, it pulls harder side-to-side while staying under a quiet, constant tension even at rest. When that sideways pull reaches a tipping point, the outer layer buckles and the familiar lines appear. The work, published July 2025 in the Journal of the Mechanical Behavior of Biomedical Materials, offers the first direct proof that pure physics drives wrinkle formation, while age-related loss of collagen and UV damage merely speed the process.
Skin physics: Why uneven stretch creates permanent creases
German’s team placed each skin sample in a low-force tensometer and watched how it behaved under gentle strain. Youthful skin returned smoothly to shape. Older skin shrank more in the direction opposite the pull, building internal stress until the surface finally folded. The group likens the effect to a thin film that crumples when one side contracts faster than the other, a phenomenon engineers call buckling. Their measurements confirm earlier computer models but replace theory with hard numbers on living tissue.
Sunlight accelerates the same mechanical failure
Chronological ageing is not the only path to buckling. Ultraviolet rays break down collagen and elastin, the proteins that give dermal layers bounce and load-bearing strength. German notes that a lifetime outdoors ages skin “even if you are still young on paper.” Photo-damaged tissue reaches the critical buckling threshold sooner, explaining why farmers and sailors often show deep furrows well before office workers of the same age.
Beyond collagen creams: New targets for anti-wrinkle care
Most cosmetic products promise to “boost collagen” or “lock in moisture.” The Binghamton data suggest future treatments may instead focus on rebalancing the internal stresses that build up in ageing skin. Materials scientists already test micro-mesh patches that redistribute lateral tension, while pharmaceutical labs explore peptides that adjust how dermal cells align their fibres. By attacking the physics, not just the chemistry, researchers hope to delay the buckling event itself.
Practical steps that still matter right now
Dermatologists emphasise that the new study does not erase proven basics. Sunscreen blocks photo-ageing, retinoids boost collagen repair, and a protein-rich diet supplies raw material for resilient dermis. Gentle facial exercises can preserve balanced tension across muscle groups, potentially reducing the uneven pull highlighted in the Binghamton tests. Adequate sleep and hydration keep the extracellular matrix pliable, again lowering mechanical stress.
