Locking Cortical Screws Specification, Uses & Sizes
2 mm Locking Cortical Screw
2.4 mm Locking Cortical Screw
2.7 mm Locking Cortical Screw
3.5 mm Locking Cortical Screw
5 mm Locking Cortical Screw
Locking Cortical Screws Introduction
Locking Cortical Screws are used to repair bone fractures or to stabilise bones during reconstructive surgery. By preventing the screw from backing out of the bone, these screws are intended to give increased stability and stable fixation. Locking Cortical Screws are frequently used in conjunction with plates. The locking mechanism of the screw connects with the plate, forming a stable and stiff structure that holds bone pieces together.
Locking Cortical Screws Specification
Locking Cortical Screws available lengths are 6mm, 8mm, 10mm, 12mm, 14mm, 16mm, 18mm, 20mm, 22mm, 24mm, 26mm, 28mm, 30mm, 32mm, 34mm, 36mm, 38mm, 40mm, 42mm, 44mm, 46mm, 48mm, 50mm, 55mm, 60mm, 65mm, 70mm, 75mm, 80mm, 85mm, 90mm, 95mm, 100mm, 105mm, 110mm ,115mm, and 120mm.
Locking Cortical Screws are made from pure Titanium and SS 316L.
Any additional length sizes of this screw will be made on demand.
This is Self Tapping Screw. Self Tapping Screws cuts its own thread while being driven into the bone. It makes a small hole while entering the bone which creates a tight friction fit between the threads. This helps fight vibration loosening and allows the parts to be taken apart if needed..
Instruments are available for this screw such as Bone Taps, Combined Drill & Tap Sleeve, Counter Sink, Depth Gauge, Drill Bits, Drill Guide, Drill Sleeve, Hollow Mill Screw Removal, Reverse Measuring Device, Screw Drivers and Screw Holding Forceps etc.
Locking Cortical Screws uses
Locking Cortical Screws are used in fixation of different size of locking plates such as
2 mm screws used for 2 mm plates
2.4 mm screws used for 2.4 mm plates
3.5 mm screws used for 3.5 mm plates
5 mm screws used for 5 mm plates
Advantages of using locking Cortical Screws
locking plate does not have to precisely contact the underlying bone in all areas. When Locking Cortical Screws are tightened, they “lock” to the threaded screw holes of the plate, stabilizing the segments without pulling the bone to the plate. Locking Cortical Screws make it impossible for screw insertion to alter the reduction. Nonlocking plate/screw systems require a precise adaptation of the plate to the underlying bone. Without this close contact, tightening of the screws will pull the bone segments toward the plate, resulting in loss of reduction and possibly the occlusal relationship
Locking Cortical Screws do not disrupt the underlying cortical bone perfusion as much as conventional plates, which compress the plate to the cortical bone.
Lock Screws are unlikely to loosen from the plate. Similarly, if a bone graft is screwed to the plate, a locking head screw will not loosen during the phase of graft incorporation and healing. The possible advantage to this property of a locking plate/screw system is decreased risk of inflammatory complications due to hardware loosening.
Locking plate/screw systems have been shown to provide more stable fixation than conventional nonlocking plate/screw systems.
Locking Cortical Screws Technology
The heads of the Locking Cortical Screws contain male threads while the holes in the plates contain female threads. This allows the screw head to be threaded into the locking plates. This technical innovation provides the ability to create a fixedangle construct while using familiar plating techniques.
By using Lock screws in a bone plate, a fixed-angle construct is created. In osteopenic bone or fractures with multiple fragments, secure bone purchase with conventional screws may be compromised. Lock screws do not rely on bone/plate compression to resist patient load, but function similarly to multiple small angled blade plates. In osteopenic bone or comminuted fractures, the ability to lock screws into a fixed-angle construct is imperative.
By combining Locking Cortical Screws holes with compression screw slots in the shaft, the plate can be used as both a locking device and a fracture compression device. If compression is desired, it must be achieved first by inserting the standard screws in the compression screw slots before inserting any lock screws.
Locking Cortical Screws Contraindications
Contraindications may be qualified or total, and need to be taken into consideration when evaluating the prognosis in each case. The physician’s education, training and professional judgement must be relied upon to choose the most appropriate device and treatment. Conditions presenting an increased risk of failure include:-
Any active or suspected latent infection or marked local inflammation in or about the affected area.
Compromised vascularity that would inhibit adequate blood supply to the fracture or the operative site.
Bone stock compromised by disease, infection or prior implantation that can not provide adequate support and/or fixation of the devices.
Material sensitivity, documented or suspected.
Obesity. An overweight or obese patient can produce loads on the implant that can lead to failure of the fixation of the device or to
failure of the device itself.
Patients having inadequate tissue coverage over the operative site.
Implant utilization that would interfere with anatomical structures or physiological performance.
Any mental or neuromuscular disorder which would create an unacceptable risk of fixation failure or complications in postoperative care.
Other medical or surgical conditions which would preclude the potential benefit of surgery.
All associated diseases which could endanger the function and success of the Locking Cortical Screws.
Warnings and Precautionary for Locking Cortical Screws
Before using Locking Cortical Screws, the surgeon and ancillary staff should study the safety information in these instructions, as well as any product-specific information in the product description, surgical procedures and/or brochures.
Locking Screws are made from medical grade materials and are designed, constructed and produced with utmost care. These quality screw assure best working results provided they are used in the proper manner. Therefore, the following instructions for use and safety recommendations must be observed.
Improper use of screw can lead to damage to the tissue, premature wear, destruction of the instruments and injury to the operator, patients or other persons.
It is vital for the operating surgeon to take an active role in the medical management of their patients. The surgeon should thoroughly understand all aspects of the surgical procedure and instruments including their limitations. Care in appropriate selection and proper use of surgical instruments is the responsibility of the surgeon and the surgical team. Adequate surgical training should be completed before use of implants.
Factors which could impair the success of the operation:
Allergies to implanted materials.
Localized bone tumours.
Osteoporosis or osteomalacia.
System disease and metabolic disturbances.
Alcohol and drug abuse.
Physical activities involving excessive shocks, whereby the implant is exposed to blows and/or excessive loading.
Patients who are mentally unable to understand and comply with the doctor’s instructions.
Poor general health.
Possible Adverse Effects
The following adverse effects are the most common resulting from implantation:
Loosening of the screw, which may result from cyclic loading of the fixation site and/or tissue reaction of the implant.
Early and late infection.
Further bone fracture resulting from unusual stress or weakened bone substance.
Temporary or chronic neural damage resulting from pressure or hematomata.
Wound hematomas and delayed wound healing.
Vascular disease including venal thrombosis, pulmonary embolism and cardiac arrest.
Heterotopic ossification.
Pain and discomfort due to presence of the Locking Cortical Screws.
Mechanical failure of the implant, including bending, loosening or breakage.
Migration of implant resulting in injury.
Preoperative Planning for Locking Cortical Screws
The operating planning is carried out following a thorough clinical evaluation of the patient, Also, x-rays must be taken to allow a clear indication of the bony anatomy and associated deformities. At the time of the operation, the corresponding implantation instruments in addition to a complete size of Locking Cortical Screws must be available.
The clinician should discuss with the patient the possible risks and complications associated with the use of implants. It is important to determine pre-operatively whether the patient is allergic to any of the implant materials. Also, the patient needs to be informed that the performance of the device cannot be guaranteed as complications can affect the life expectancy of the device.
Locking Cortical Screws Precautions
Confirm functionality of instruments and check for wear during reprocessing. Replace worn or damaged instruments prior to use.
It is recommended to use the instruments identified for screws.
Handle devices with care and dispose worn bone cutting instruments in a sharps container.
Always irrigate and apply suction for removal of debris potentially generated during implantation or removal.