Micro Kerrison Ejector Rongeur

thin footplates, small handles?Micro Kerrison Ejector Rongeur is identical to our popular Micro Kerrison model but with a small pin ejector that sits within the shaft that's designed to eject any material from within the column when the handle is released. This allows the shaft to remain clear and assists during decontamination and sterilization, ultimately preserving the life of the instrument.

Micro Kerrison Foraminotomy Rongeurs

regular footplates, large handles, strong 70 degrees up-curved shaft, 40 degree up bite, 8" (20.0 cm) Micro Kerrison Foraminotomy Rongeurs are specialized instruments designed for use in laminectomies. The 70 degree up-curved shaft is ideal for better visualization and access needed in foraminotomy procedures. This rongeur features thin footplates and large handles, making it ideal for use in the narrow space surrounding the vertebral column. It is available in 2.0 ? 5.0 mm bite in 1.0 mm increments to accommodate any surgical scenario.

Micro Kerrison Fully Detachable Rongeur

40 degrees up, small handles, 9.0 mm opening, thin footplate Fully Detachable Rongeurs feature a fully-removable shaft to ensure no debris remain in the interior of the instrument after cleaning and sterilization. The instrument can be easily disassembled and reassembled in just a few seconds. By pushing the release button on the body, the front handle can be pulled down and the upper shaft can be pulled backwards and up to remove completely.

Micro Kerrison Rongeur

undefined Micro Kerrison Rongeur is a uniquely designed instrument that can be used in a variety of orthopedic surgeries, particularly laminectomies. This style is the most widely used style for lumbar and cervical procedures, featuring the smaller width and length handles, a thin footplate and the smaller 9.0 mm bite opening. This popular pattern is available in all 4 cutting angles and various working lengths and bite sizes. The regular footplate style is also available in this rongeur, with catalog numbers ending in 'R'.