Limbkeepers Non-Compression Full Fit Forearm Sleeves are specially designed for people with highly sensitive thin skin, arthritis, and individuals who need gentle protection without tight compression. These forearm sleeves are seamless, without fasteners, moisture-wicking, permanent antimicrobial, easy care, and made of soft knit, medium-weight construction.
The Limbkeepers Non-Compression Full Fit Forearm Sleeves are designed with a graduated taper to reduce gapping at the wrist. They provide excellent protection for newly healed skin. The 10-inch length with taper accommodates a graduated circumference measurement from elbow to wrist. To make the correct size choice, measure the widest point of the circumference of the forearm. These sleeves are helpful for users who need extra room to accommodate swelling often associated with arthritis, circulation concerns, or mobility challenges. The design offers a relaxed, non-binding fit that stays comfortable throughout the day without restricting movement or causing pressure on sore joints. Made with a seamless knit design, these protective sleeves help reduce friction, rubbing, and skin breakdown while providing all-day comfort. Moisture-wicking, antimicrobial, and latex-free fabric helps keep skin dry, fresh, and protected, making them ideal for long-term wear. Sold in pairs and available in Small, Medium, and Large sizes, these unisex forearm sleeves are a simple and effective solution for protecting delicate skin while supporting comfort and mobility.
The Limbkeepers Non-Compression Full Fit Forearm Sleeves are made with medium-weight fabric consisting of 60% Polypropylene, 37% Nylon, 3% Elastane. The sleeves measure 10 inches long and are available in Small, Medium, and Large sizes. To determine the size, measure at the widest point of the forearm. Small size fits 12 to 15 inch circumference, Medium fits 15 to 18 inch circumference, Large fits 18 to 21 inch circumference. The Limbkeepers Non-Compression Full Fit Forearm Sleeves help protect fragile, thin skin against abrasion and impact.
