Your cart is empty!
This angled capsulorhexis forceps in titanium addresses challenging anterior capsule engagement in dense or brunescent cataracts. The 45-degree shaft angulation combined with 8.5mm platforms positions the tip optimally for continuous curvilinear capsulorhexis initiation. The flat square-grip handle and 114mm length provide secure control during delicate capsular entry.
Features & Benefits
The Utrata capsulorhexis forceps in titanium combine an angled 45-degree geometry with 8.5mm platforms designed for controlled continuous curvilinear capsulorhexis during cataract surgery. The 13mm bend-to-tip design enables precise capsular manipulation while the flat square grip handle supports stable, controlled grasping across the full 360-degree rhexis maneuver. Titanium construction provides rigidity and corrosion resistance across many cases.
These Masket‑style Utrata capsulorhexis forceps include vaulted ultra‑thin shafts with an 11mm bend‑to‑tip configuration and small bent triangular tips. The round knurled handle increases tactile grip.
This titanium Utrata capsulorhexis forceps combines an angled 102mm shaft with extremely thin construction and small bent tips for precision anterior capsule manipulation. The 11mm bend-to-tip geometry positions the working edges optimally beneath clear corneal incisions, enabling controlled continuous curvilinear capsulorhexis (CCC) without excessive traction on fine tissue. The round handle with longitudinal grooves supports confident grasp during the most critical phase of phacoemulsification.
These Utrata capsulorhexis forceps feature long thin shafts with an 11mm bend‑to‑tip configuration and small bent tips. The round handle with longitudinal grooves improves axial stability.
This Utrata capsulorhexis forceps combines titanium construction with an angled 11.5mm shaft and cystotome‑style tips for controlled continuous curvilinear capsulorhexis. The angled approach accommodates variable anterior chamber depth while the titanium platforms provide reliable platform grip without capsular slippage. The 115mm overall length with round handle supports precise bimanual control.
The Utrata capsulorhexis forceps with cystotome tips and sharp working edges deliver hybrid functionality during anterior capsule management in MICS and standard phacoemulsification. The sharp edges initiate and guide the rhexis, while the cystotome‑style tips provide secure purchase during continuous capsule tearing. Titanium construction and round handle improve control in micro‑incision workflows.
Designed for anterior capsular work during phacoemulsification, this Utrata capsulorhexis forceps combines fine tip geometry with optimized shaft orientation for superior visualization. Angled shaft geometry improves approach angle and visualization during clear corneal capsulotomy. Titanium construction combines exceptional rigidity with superior corrosion resistance for lasting durability across many surgical cases. The flat handle delivers ergonomic stability for extended procedures.
The Utrata capsulorhexis forceps in titanium combines sharp pointed serrated tips with a 13mm bend‑to‑tip geometry that positions the working tips precisely for incisions down to 2.2mm. The vaulted tips and long ergonomic 8mm round handle reduce fatigue during dense nucleus work, while laser marks at 2.5mm and 5mm guide capsulorhexis diameter. Titanium construction provides corrosion resistance and lasting edge.
Utrata capsulorhexis forceps deliver precision control during anterior capsule management. This titanium‑built version features a 2‑hole flat handle that provides secure fingertip access at 111mm overall length. The straight, delicate tips enable continuous, curvilinear capsule tearing without excessive force, supporting clean IOL implantation preparation.
These Style Inamura capsulorhexis forceps incorporate very delicate long tapered shanks and a three‑hole spring handle to improve rhexis edge control during capsular engagement.
Angled 45 degrees with 8.5mm platforms and a 13mm bend‑to‑tip distance, these Utrata‑pattern capsulorhexis forceps support continuous curvilinear tearing under the microscope. The titanium construction combines rigidity with corrosion resistance over many cases, and the round handle gives smooth rotational control through the rhexis arc.
This Utrata capsulorhexis forceps features angled shafts optimized for clear corneal access during anterior capsular manipulation and continuous capsulorhexis.
The Utrata microincision cataract surgery capsulorhexis forceps features fine titanium tips optimized for precise continuous circular capsulorhexis during minimal incision cases. The 1.8mm design suits 1.8mm microincision architecture, and the ultrafine grasping tips control capsular tissue without shredding or variable diameter.
The Watzke angled sleeve spreading forceps manipulate retinal buckle sleeves and scleral fixation beds during retinal detachment repair. The 10mm serrated tips angled at 30 degrees with serrated cross‑action handle enable precise control of silicone tubing geometry. Serrated geometry grips silicone securely without slippage. The 120mm length supports comfortable hand positioning during scleral fixation work.
The Wies chalazion forceps delivers controlled compression of the tarsal lesion during cyst drainage or marsupialization. A solid 15mm-wide lower plate paired with an open, serrated upper plate creates uniform clamping force that stabilizes the meibomian gland without vessel rupture. Locking thumbscrew maintains closure, while the 95mm length supports steady hand positioning over the eyelid margin.
Wills Hospital utility forceps deliver a 13mm crisscross serrated platform for secure grasp on suture, drape, and tissue elements at the ocular field. Straight shafts and a serrated handle support a confident pinch grip across the 110mm length, while the polished finish minimizes microscope glare during use.
The Wills Hospital utility forceps features straight shafts with a 13mm crisscross serrated platform and wide serrated handle, providing secure grip for general lid and anterior segment tissue manipulation. The cross-serrated platform prevents tissue slippage during grasping, supporting reliable tissue handling in various ophthalmic applications. This 111mm instrument offers balanced reach and control.