Showing 33–48 of 71 results
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Wide hole range from 4 to 18 for surgical flexibility
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Compatible with 2.7mm locking and cortical screws
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Stacked hole design for multi-plane fixation
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Fixed-angle locking system enhances stability
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Titanium construction ensures durability and biocompatibility
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Smooth polished surface reduces tissue irritation
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Ideal for canine and feline orthopedic surgery
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Suitable for trauma, fracture repair, and reconstruction
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Enhances stability in widened metaphyseal and periarticular bone regions.
Allows tailored fixation coverage for different fracture patterns.
Maintains alignment and reduces micromotion during healing.
Optimized for fine-bone stabilization in small animal orthopedics.
Minimizes soft tissue irritation and supports smoother recovery.
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Allows accurate implant selection for short bone segments and confined anatomical regions.
Minimizes soft tissue interaction and improves post-operative comfort in animals.
Encourages indirect bone healing by maintaining controlled separation at the fracture site.
Provides balanced mechanical support and enhanced resistance to rotational stress
Delivers precise stabilization for fine-bone veterinary orthopedic procedures.
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Reduces soft tissue interaction and improves post-operative comfort in animals.
Allows accurate implant selection for short and intermediate bone segments.
Delivers precise stabilization suitable for fine-bone veterinary applications.
Distributes mechanical forces evenly to enhance construct stability and durability
Encourages indirect bone healing by maintaining controlled separation across the fracture zone.
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Provides stable anchorage in confined metaphyseal and periarticular regions.
Ideal for localized stabilization without excessive implant length.
Maintains alignment while reducing dependence on bone quality.
Supports soft tissue preservation and improved post-operative comfort.
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Follows natural bone contours to support accurate skeletal positioning.
Delivers extensive fixation coverage and uniform load distribution.
Enhances rigidity while maintaining a controlled plate profile.
Provides reliable stabilization for fine-bone veterinary procedures.
Supports tissue preservation and improved post-operative recovery.
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Promotes indirect bone healing by maintaining controlled spacing across the fracture zone.
Delivers balanced fixation and enhanced resistance to rotational forces.
Provides reliable stability for fine-bone veterinary orthopedic applications.
Supports precise implant matching across a wide range of bone dimensions.
Reduces plate-to-tissue contact and improves post-operative tolerance.veterinary surgical stabilization device
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Adapts closely to the natural contour of the orbital rim for accurate fixation.
Supports biological bone repair while maintaining cranial alignment.
Ensures even force distribution and reliable construct strength.
Designed for fine craniofacial bone fixation in veterinary patients.
Reduces tissue irritation near sensitive orbital structures.
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Distributes fixation forces evenly around the cranial access site.
Provides secure multi-point anchorage for stable skull coverage.
Minimizes soft tissue irritation and post-operative prominence.
Ensures fixed-angle stability in thin cranial bone.
Optimized for small animal cranial anatomy and procedures.
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Small animal cranial and neurosurgical procedures
Ensures balanced stabilization across the skull surface.
Maintains screw stability without relying on bone compression
Reduces implant prominence and soft tissue irritation.
Adapted for small animal cranial anatomy and surgical needs.
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Reduces soft tissue irritation and improves post-operative comfort.
Allows accurate implant sizing for varied small animal anatomy.
Maintains construct rigidity without compressing bone surfaces.
Enhances stability in widened or transitional bone regions.
Delivers balanced fixation across opposing bone segments.
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Provides symmetrical fixation across parallel bone segments.
Enhances stability and load distribution on both sides of the construct.
Improves anatomical conformity and surgical precision.
Maintains alignment without relying on plate-to-bone compression.
Minimizes soft tissue irritation and supports faster recovery.
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Maintains alignment without relying on plate-to-bone compression.
Provides extensive bilateral anchorage with controlled central support.
Delivers strength without excessive implant bulk.
Reduces soft tissue irritation and supports smoother recovery.
Enhances load transfer through the middle of the construct.
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Promote accurate screw placement and reliable fixation.
Minimizes soft tissue irritation and enhances recovery comfort.
Ensures construct stability without compressing bone surfaces.
Allows precise fixation in confined anatomical regions.
Supports linear alignment and controlled load transfer along the bone.
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Enhances stability without relying on plate compression.
Ensures anatomical accuracy and surgical efficiency.
Minimizes soft tissue irritation in small patients.
Supports fixation across intersecting bone planes.
Optimized for small animal bone geometry
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Provides controlled fixation across head and shaft regions.
Maintains alignment without relying on plate compression.
Optimized for small animal bone structure and fracture patterns.
Reduces soft tissue disruption in small patients.
Improves placement accuracy and surgical efficiency.
