The shoulder plates are made of titanium alloy and are designed in right and lef
The shoulder plates are made of titanium alloy and are designed in right and left configurations, as well as various length configurations. The plates are contoured to provide a close fit with the anatomy of the proximal humerus. The distal segment of the plate is provided with between 4 (73mm configuration) and 13 (220mm configuration) holes to accommodate 3.5mm diameter locking or non-locking cortical screws. The proximal segment of the plate has 2 locking screw holes and 3 locking post holes. Around the proximal end are also 4 suture clips.
The shoulder plates are made of titanium alloy and are designed in right and lef
The shoulder plates are made of titanium alloy and are designed in right and left configurations, as well as various length configurations. The plates are contoured to provide a close fit with the anatomy of the proximal humerus. The distal segment of the plate is provided with between 4 (73mm configuration) and 13 (220mm configuration) holes to accommodate 3.5mm diameter locking or non-locking cortical screws. The proximal segment of the plate has 2 locking screw holes and 3 locking post holes. Around the proximal end are also 4 suture clips.
The long bone plates are made of titanium alloy, are provided in standard and lo
The long bone plates are made of titanium alloy, are provided in standard and low profile thicknesses, and also standard and curved configurations. The plates are contoured to provide a close fit with the anatomy of the radius, ulna and humerus bones. The plates are provided with multiple hole configurations and lengths to accommodate fixation cases for a variety of upper extremity diaphyses.
The long bone plates are made of titanium alloy, are provided in standard and lo
The long bone plates are made of titanium alloy, are provided in standard and low profile thicknesses, and also standard and curved configurations. The plates are contoured to provide a close fit with the anatomy of the radius, ulna and humerus bones. The plates are provided with multiple hole configurations and lengths to accommodate fixation cases for a variety of upper extremity diaphyses.
The long bone plates are made of titanium alloy, are provided in standard and lo
The long bone plates are made of titanium alloy, are provided in standard and low profile thicknesses, and also standard and curved configurations. The plates are contoured to provide a close fit with the anatomy of the radius, ulna and humerus bones. The plates are provided with multiple hole configurations and lengths to accommodate fixation cases for a variety of upper extremity diaphyses.
The long bone plates are made of titanium alloy, are provided in standard and lo
The long bone plates are made of titanium alloy, are provided in standard and low profile thicknesses, and also standard and curved configurations. The plates are contoured to provide a close fit with the anatomy of the radius, ulna and humerus bones. The plates are provided with multiple hole configurations and lengths to accommodate fixation cases for a variety of upper extremity diaphyses.
The long bone plates are made of titanium alloy, are provided in standard and lo
The long bone plates are made of titanium alloy, are provided in standard and low profile thicknesses, and also standard and curved configurations. The plates are contoured to provide a close fit with the anatomy of the radius, ulna and humerus bones. The plates are provided with multiple hole configurations and lengths to accommodate fixation cases for a variety of upper extremity diaphyses.
The long bone plates are made of titanium alloy, are provided in standard and lo
The long bone plates are made of titanium alloy, are provided in standard and low profile thicknesses, and also standard and curved configurations. The plates are contoured to provide a close fit with the anatomy of the radius, ulna and humerus bones. The plates are provided with multiple hole configurations and lengths to accommodate fixation cases for a variety of upper extremity diaphyses.
The long bone plates are made of titanium alloy, are provided in standard and lo
The long bone plates are made of titanium alloy, are provided in standard and low profile thicknesses, and also standard and curved configurations. The plates are contoured to provide a close fit with the anatomy of the radius, ulna and humerus bones. The plates are provided with multiple hole configurations and lengths to accommodate fixation cases for a variety of upper extremity diaphyses.
The long bone plates are made of titanium alloy, are provided in standard and lo
The long bone plates are made of titanium alloy, are provided in standard and low profile thicknesses, and also standard and curved configurations. The plates are contoured to provide a close fit with the anatomy of the radius, ulna and humerus bones. The plates are provided with multiple hole configurations and lengths to accommodate fixation cases for a variety of upper extremity diaphyses.
The long bone plates are made of titanium alloy, are provided in standard and lo
The long bone plates are made of titanium alloy, are provided in standard and low profile thicknesses, and also standard and curved configurations. The plates are contoured to provide a close fit with the anatomy of the radius, ulna and humerus bones. The plates are provided with multiple hole configurations and lengths to accommodate fixation cases for a variety of upper extremity diaphyses.
The long bone plates are made of titanium alloy, are provided in standard and lo
The long bone plates are made of titanium alloy, are provided in standard and low profile thicknesses, and also standard and curved configurations. The plates are contoured to provide a close fit with the anatomy of the radius, ulna and humerus bones. The plates are provided with multiple hole configurations and lengths to accommodate fixation cases for a variety of upper extremity diaphyses.
The long bone plates are made of titanium alloy, are provided in standard and lo
The long bone plates are made of titanium alloy, are provided in standard and low profile thicknesses, and also standard and curved configurations. The plates are contoured to provide a close fit with the anatomy of the radius, ulna and humerus bones. The plates are provided with multiple hole configurations and lengths to accommodate fixation cases for a variety of upper extremity diaphyses.
The long bone plates are made of titanium alloy, are provided in standard and lo
The long bone plates are made of titanium alloy, are provided in standard and low profile thicknesses, and also standard and curved configurations. The plates are contoured to provide a close fit with the anatomy of the radius, ulna and humerus bones. The plates are provided with multiple hole configurations and lengths to accommodate fixation cases for a variety of upper extremity diaphyse
The long bone plates are made of titanium alloy, are provided in standard and lo
The long bone plates are made of titanium alloy, are provided in standard and low profile thicknesses, and also standard and curved configurations. The plates are contoured to provide a close fit with the anatomy of the radius, ulna and humerus bones. The plates are provided with multiple hole configurations and lengths to accommodate fixation cases for a variety of upper extremity diaphyses.
The long bone plates are made of titanium alloy, are provided in standard and lo
The long bone plates are made of titanium alloy, are provided in standard and low profile thicknesses, and also standard and curved configurations. The plates are contoured to provide a close fit with the anatomy of the radius, ulna and humerus bones. The plates are provided with multiple hole configurations and lengths to accommodate fixation cases for a variety of upper extremity diaphyses.
The long bone plates are made of titanium alloy, are provided in standard and lo
The long bone plates are made of titanium alloy, are provided in standard and low profile thicknesses, and also standard and curved configurations. The plates are contoured to provide a close fit with the anatomy of the radius, ulna and humerus bones. The plates are provided with multiple hole configurations and lengths to accommodate fixation cases for a variety of upper extremity diaphyses.
The long bone plates are made of titanium alloy, are provided in standard and lo
The long bone plates are made of titanium alloy, are provided in standard and low profile thicknesses, and also standard and curved configurations. The plates are contoured to provide a close fit with the anatomy of the radius, ulna and humerus bones. The plates are provided with multiple hole configurations and lengths to accommodate fixation cases for a variety of upper extremity diaphyses.
The shoulder plates are made of titanium alloy and are designed in right and lef
The shoulder plates are made of titanium alloy and are designed in right and left configurations, as well as various length configurations. The plates are contoured to provide a close fit with the anatomy of the proximal humerus. The distal segment of the plate is provided with between 4 (73mm configuration) and 13 (220mm configuration) holes to accommodate 3.5mm diameter locking or non-locking cortical screws. The proximal segment of the plate has 2 locking screw holes and 3 locking post holes. Around the proximal end are also 4 suture clips.
The shoulder plates are made of titanium alloy and are designed in right and lef
The shoulder plates are made of titanium alloy and are designed in right and left configurations, as well as various length configurations. The plates are contoured to provide a close fit with the anatomy of the proximal humerus. The distal segment of the plate is provided with between 4 (73mm configuration) and 13 (220mm configuration) holes to accommodate 3.5mm diameter locking or non-locking cortical screws. The proximal segment of the plate has 2 locking screw holes and 3 locking post holes. Around the proximal end are also 4 suture clips.
The shoulder plates are made of titanium alloy and are designed in right and lef
The shoulder plates are made of titanium alloy and are designed in right and left configurations, as well as various length configurations. The plates are contoured to provide a close fit with the anatomy of the proximal humerus. The distal segment of the plate is provided with between 4 (73mm configuration) and 13 (220mm configuration) holes to accommodate 3.5mm diameter locking or non-locking cortical screws. The proximal segment of the plate has 2 locking screw holes and 3 locking post holes. Around the proximal end are also 4 suture clips.
The shoulder plates are made of titanium alloy and are designed in right and lef
The shoulder plates are made of titanium alloy and are designed in right and left configurations, as well as various length configurations. The plates are contoured to provide a close fit with the anatomy of the proximal humerus. The distal segment of the plate is provided with between 4 (73mm configuration) and 13 (220mm configuration) holes to accommodate 3.5mm diameter locking or non-locking cortical screws. The proximal segment of the plate has 2 locking screw holes and 3 locking post holes. Around the proximal end are also 4 suture clips.
The shoulder plates are made of titanium alloy and are designed in right and lef
The shoulder plates are made of titanium alloy and are designed in right and left configurations, as well as various length configurations. The plates are contoured to provide a close fit with the anatomy of the proximal humerus. The distal segment of the plate is provided with between 4 (73mm configuration) and 13 (220mm configuration) holes to accommodate 3.5mm diameter locking or non-locking cortical screws. The proximal segment of the plate has 2 locking screw holes and 3 locking post holes. Around the proximal end are also 4 suture clips.
The shoulder plates are made of titanium alloy and are designed in right and lef
The shoulder plates are made of titanium alloy and are designed in right and left configurations, as well as various length configurations. The plates are contoured to provide a close fit with the anatomy of the proximal humerus. The distal segment of the plate is provided with between 4 (73mm configuration) and 13 (220mm configuration) holes to accommodate 3.5mm diameter locking or non-locking cortical screws. The proximal segment of the plate has 2 locking screw holes and 3 locking post holes. Around the proximal end are also 4 suture clips.
The shoulder plates are made of titanium alloy and are designed in right and lef
The shoulder plates are made of titanium alloy and are designed in right and left configurations, as well as various length configurations. The plates are contoured to provide a close fit with the anatomy of the proximal humerus. The distal segment of the plate is provided with between 4 (73mm configuration) and 13 (220mm configuration) holes to accommodate 3.5mm diameter locking or non-locking cortical screws. The proximal segment of the plate has 2 locking screw holes and 3 locking post holes. Around the proximal end are also 4 suture clips.
The shoulder plates are made of titanium alloy and are designed in right and lef
The shoulder plates are made of titanium alloy and are designed in right and left configurations, as well as various length configurations. The plates are contoured to provide a close fit with the anatomy of the proximal humerus. The distal segment of the plate is provided with between 4 (73mm configuration) and 13 (220mm configuration) holes to accommodate 3.5mm diameter locking or non-locking cortical screws. The proximal segment of the plate has 2 locking screw holes and 3 locking post holes. Around the proximal end are also 4 suture clips.
The shoulder plates are made of titanium alloy and are designed in right and lef
The shoulder plates are made of titanium alloy and are designed in right and left configurations, as well as various length configurations. The plates are contoured to provide a close fit with the anatomy of the proximal humerus. The distal segment of the plate is provided with between 4 (73mm configuration) and 13 (220mm configuration) holes to accommodate 3.5mm diameter locking or non-locking cortical screws. The proximal segment of the plate has 2 locking screw holes and 3 locking post holes. Around the proximal end are also 4 suture clip.
The shoulder plates are made of titanium alloy and are designed in right and lef
The shoulder plates are made of titanium alloy and are designed in right and left configurations, as well as various length configurations. The plates are contoured to provide a close fit with the anatomy of the proximal humerus. The distal segment of the plate is provided with between 4 (73mm configuration) and 13 (220mm configuration) holes to accommodate 3.5mm diameter locking or non-locking cortical screws. The proximal segment of the plate has 2 locking screw holes and 3 locking post holes. Around the proximal end are also 4 suture clips