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Baird chalazion forceps isolate and stabilize lid lesions through paired plates with a locking thumb screw. The 15mm solid lower plate backs the everted lid, while the open upper plate (11 × 8mm interior window) frames the chalazion for curettage or excision. Thumb‑screw locking holds compression hands‑free throughout the procedure.
Features & Benefits
These Barraquer cilia forceps carry slightly angled jaws with textured grasping surfaces designed to remove individual lashes during epilation or surgical preparation. The angle clears the brow line for a direct view of the lash root, while the textured grip secures fine cilia without slippage. A three‑hole handle keeps the instrument light through repeated grasps.
Barraquer cilia forceps incorporate a slightly curved 6mm platform tying surface paired with a sandblasted inner jaw finish for reliable micro‑grasping of fine lashes and delicate capsular tissues. The gentle curvature and 109mm length support both fine anterior segment work and posterior pole cilia manipulation during phacoemulsification and anterior capsule management.
The Barraquer Colibri forceps brings titanium micrograsping precision to fine corneal suture placement. The 0.12mm tip with 1 × 2 teeth engages monofilament securely, and 6mm tying platforms support knot positioning. The compact 85mm length and flat square-grip handle provide ergonomic control for delicate anterior segment work.
The Barraquer Colibri forceps in titanium combines 0.12mm 1 × 2 interlocking teeth with 6mm tying platforms for delicate tissue grasping and suture tying during ophthalmic microsurgery. The fine angled tips engage conjunctiva, sclera, and corneal tissue without crush, while the 6mm platforms hold suture securely during knot tying. The square grip flat handle preserves fingertip control across long microsurgical sequences.
These Barraquer‑Colibri forceps combine 0.12mm 1 × 2 teeth with a colibri (bird‑beak) shaft offset that preserves visualization of the corneal entry. A 17 × 5.5mm finger‑grip cut‑out lightens the handle and gives the surgeon a defined pinch zone. The 75.6mm overall length supports stable single‑hand control during corneal suturing.
These Barraquer‑Colibri forceps incorporate 0.4mm micro‑profile tips with 1×2 finely machined teeth and integrated tying platforms. The short‑handle design with a 17×5.5mm grip cut‑out enhances fingertip steering, while the 75.6mm overall length supports controlled corneal edge stabilization during graft or lamellar interface work.
These titanium Barraquer‑Colibri forceps feature 0.12mm 1×2 teeth and a short‑handle design with a 17×5.5mm finger‑grip cut‑out. The 75.6mm length improves maneuverability in pediatric or small‑fissure surgical fields.
The Bechart lens-holding forceps feature curved shafts and serrated jaws for secure grasping of intraocular lenses and capsular tissue during implantation and repositioning. The serrated handle ensures grip stability during delicate lens manipulation. At 120mm with 23mm mid-screw-to-tip reach, proportions support optimal visualization and control.
These Bechert‑McPherson tying forceps include angled shafts and 10mm tying platforms optimized for broad suture support. The three‑hole handle and 105mm length aid in fine knot advancement and stabilization.
The Bechert-McPherson titanium tying forceps delivers the durability and precision required for repeated corneal and scleral suture work. The 45-degree angle and 10mm tip-to-bend measurement position the tying platform optimally for limbal access. Titanium construction ensures corrosion resistance through many sterilization cycles.
The Beer cilia forceps are specialized precision micro-forceps with rounded blunt tips and smooth gripping platforms, designed for gentle ciliary-margin manipulation during entropion repair, trichiasis removal, or anterior-segment epilation work. The blunt rounded tips prevent inadvertent corneal or conjunctival abrasion while the smooth platforms distribute grip without tissue indentation. The compact 78mm length provides ergonomic fingertip control.
The Benner suture retriever is a specialized curved cannula designed for passing and retrieving scleral-fixation sutures through 25-gauge sclerotomies in IOL repositioning and vitreous surgery. The 90-degree bend aligns the instrument path with scleral anatomy while maintaining visualization. Stainless steel construction supports reliable reprocessing across many vitreoretinal cases.
The Berens curved suturing forceps features heavy curved shafts with 2 × 2 fine tooth pattern and crisscross serration suited to robust anterior segment suturing in challenging positions. The heavy construction provides exceptional rigidity, and the curved geometry accommodates natural surgical access. Fine tooth pattern prevents slippage on standard nylon and monofilament.
These angled Bergh cilia forceps reach beneath misdirected lashes for epilation along the lid margin. Pointed tips with serrated jaws grip individual cilia, and the outside bevel keeps the working face flat against the lid for clean extraction. The 89mm overall length seats comfortably between fingers for sustained slit‑lamp work.
The Berke ptosis forceps addresses eyelid reconstruction with multi-curved shafts and straight 20mm blades bearing longitudinal serrations. The 110mm length and standard curve geometry favor both upper and lower eyelid muscle or tissue grasping during ptosis repair or eyelid surgery. Slide-lock mechanism provides stable closure without drift during tissue positioning.
These Bishop‑Harmon forceps incorporate straight 0.6mm cross‑serrated tips engineered for controlled micro‑grasping of delicate membranes. The three‑hole handle and compact 83mm length improve maneuverability in confined spaces.
This Bishop‑Harmon iris forceps is designed for delicate iris manipulation and positioning during anterior segment surgery. The 0.6mm tip and 1 × 2 tooth configuration provide secure engagement of fragile iris tissue and sphincter muscle. At 83mm overall length, the compact proportions optimize tactile control and visibility in iris reconstruction and pupil surgery.
The Bishop‑Harmon extra‑fine 0.3mm tissue forceps provides exceptional precision in fine conjunctival and scleral work. The 1 × 2 tooth configuration and sandblasted finish deliver controlled, nontraumatic grasping of delicate tissues. Lightweight construction suits prolonged microsurgical cases without hand fatigue.
The Bishop‑Harmon tissue forceps with 0.5mm fine tips delivers precision fixation of delicate anterior segment tissues during corneal grafting and microsurgery. The 1 × 2 tooth pattern and sandblasted finish suit controlled handling of corneal and episcleral tissue. The straight geometry enables stable visualization during manipulation.
Bishop‑Harmon tissue forceps in this configuration carry 1 × 2 atraumatic teeth at 0.8mm tips for delicate conjunctival and corneoscleral handling. The flat three‑hole handle reduces weight and provides finger purchase during prolonged microsurgical work. An 85mm overall length keeps the instrument within the microscope's working envelope.
These Bishop-Harmon tissue forceps feature straight shafts with a 0.8mm tip, 1 × 2 interlocking tooth pattern, and shorter shaft geometry for precise manipulation in confined anterior chamber spaces. The flat three-hole handle provides balanced control during fine lid and conjunctival tissue work. At 86mm, this shorter profile is ideal for the delicate ocular surface.
The Blades lens‑holding forceps is engineered for stable IOL positioning within the capsular bag or sulcus during phacoemulsification. The 45‑degree angled geometry and delicate narrow jaws provide atraumatic grasp without scratching optic surfaces. The three‑hole handle enables fine adjustments throughout implantation.
The Blaydes lens forceps combines angled shaft geometry with 8mm distance from bend to tip suited to ergonomic IOL positioning across varied anterior chamber depths. The smooth jaw surfaces prevent IOL optic damage during grasping and delivery. The angled configuration provides natural surgical positioning without awkward hand extension.
The Blaydes lens forceps feature angled geometry with smooth jaws, 12mm tip-to-bend configuration, and cross-action handle with holes, enabling secure lens capture during phacoemulsification and extracapsular cataract extraction. The smooth jaw design prevents tissue trauma to the lens capsule, while the angled approach improves visibility and reduces surgical repositioning. This 119mm instrument supports reliable nucleus removal.
The Bloomberg-Pierce-style Utrata forceps combines a 0.25mm notched tip with 45-degree angling for capsulorhexis initiation and completion. The 14mm bend-to-tip geometry creates optimal mechanical advantage for engaging and tearing the lens capsule under tension. Titanium construction ensures lasting performance across routine phacoemulsification cases.
The Bonaccolto utility forceps is designed for multi‑purpose tissue manipulation across ophthalmic procedures. Its 1.2mm wide platform with lengthwise and cross‑serrated jaw pattern provides dual‑direction grip security on fine tissues and sutures. Straight shafts and serrated handle deliver stable tactile control in anterior segment work.
The Bonaccolto utility forceps grasp lens fragments, foreign bodies, and small tissue elements during anterior segment and vitreoretinal work. A 16 × 1.7mm platform combines lengthwise serrations along the jaws with cross serrations at the tips, producing secure purchase from any approach angle. Straight shafts and a serrated handle support steady fingertip control through the 111mm length.
The Bonaccolto utility forceps combines lengthwise and cross serrated jaw surfaces for secure multi‑directional grasping of iris, lens material, and conjunctival tissue during anterior segment procedures. The straight shaft, 16 × 2.4mm jaw platform, and serrated handle deliver consistent grip without tissue crushing. Polished stainless‑steel finish and 110mm overall length support extended operative use.
The Bonn suture forceps pairs 0.12mm tips with a 1 × 2 interlocking‑tooth pattern and tying platforms set at 90 degrees, suited to fine suture manipulation during corneal and limbal wound closure. The ergonomic fenestrated handle reduces instrument mass during sustained microsurgical work, and the platforms hold suture securely during knot tying.