With the popularization of minimally invasive surgery and upgrading of wound care technologies, disposable skin staplers have gradually replaced traditional thread sutures as mainstream devices for superficial wound closure. They show remarkable technical strengths in medical safety, treatment efficiency and prognosis.

As Class II sterile medical devices, they are sterilized by ethylene oxide with individually sealed packaging, ready for immediate use without pre‑sterilization, suitable for operating rooms, emergency departments and primary medical institutions. Core staples are made of pure medical titanium, corrosion‑resistant and non‑magnetic, causing no interference with CT, MRI and other imaging examinations. The arc‑shaped staples fix full‑thickness skin accurately with balanced tension distribution, adapting to pulling stress of wounds on limbs, trunk, abdomen and other body parts to reduce incision dehiscence.

Compared with traditional suturing techniques, they have outstanding clinical advantages. First, fast suturing: closure time for incisions within 10 cm can be cut by over 60%, reducing intraoperative blood loss and anesthesia duration, especially suitable for emergency trauma and mass casualty treatment. Second, better wound healing: minimal tissue damage, precise edge alignment, less inflammatory response, shorter healing cycles and lower scar hyperplasia risk. Third, controllable infection risks: single‑use design prevents cross‑infection, and tight closure blocks bacterial invasion, meeting core hospital infection control requirements.

Clinically, they are applied in general surgery, obstetrics and gynecology, orthopedics, burn and plastic surgery, trauma surgery and other departments for surgical incisions, cut wounds, lacerations and other closed superficial injuries. Easy to operate with simple training, they are suitable for promotion in primary healthcare. With growing demand for refined wound care, lightweight and optimized disposable skin staplers will further improve materials and structures to fit more minimally invasive scenarios, promoting standardized and efficient superficial wound closure techniques.