Search results
Results from the WOW.Com Content Network
Maceration is defined as the softening and breaking down of skin resulting from prolonged exposure to moisture. It was first described by Jean-Martin Charcot in 1877. [1] [2] Maceration is caused by excessive amounts of fluid remaining in contact with the skin or the surface of a wound for extended periods.
The shared objective of treatment and prevention is maintenance and/or restoration of the integrity and healthy functionality of skin surrounding the wound. Main treatment and prevention strategies include the following: Holistic wound assessment that includes periwound assessment. [1] Elimination of factors causing moisture-associated skin damage.
It’s very contagious and spreads easily through skin-to-skin contact in crowded spaces. Treatment: ... Dr. Lal explains. These rashes are often very red, macerated, and erosive-looking and are ...
"Plantar" here refers to the sole of the foot. The ulcerative condition includes macerated lesions with scaly borders. [11] Maceration is the softening and breaking down of skin due to extensive exposure to moisture. A vesiculobullous disease is a type of mucocutaneous disease characterized by vesicles and bullae (blisters).
Surrounding skin: Appearance of the surrounding skin can provide clues to underlying disease processes, such as redness/erythema due to cellulitis, maceration due to uncontrolled wound exudate, or eczematous changes due to a chronic irritation (e.g. allergic reaction to wound dressing).
Atrophy refers to a loss of skin, and can be epidermal, dermal, or subcutaneous. [30] With epidermal atrophy, the skin appears thin, translucent, and wrinkled. [29] Dermal or subcutaneous atrophy is represented by depression of the skin. [29] Maceration: softening and turning white of the skin due to being consistently wet.
Warm water immersion foot is a skin condition of the feet that results after exposure to warm, wet conditions for 48 hours or more and is characterized by maceration ("pruning"), blanching, and wrinkling of the soles, padding of toes (especially the big toe) and padding of the sides of the feet.
The exact mechanism of action of silicone gel sheeting has not been fully studied. Currently, many proposed mechanisms explain the efficacy of such treatment, including the occlusion and hydration effect, increased body surface temperature, polarized electric charge, immunological effects, etc. [9] The occlusion and hydration effect is the most studied mechanism of action.