Minimally Invasive Plating of Fractures · • Relative stability for bridging construct, callus...
Transcript of Minimally Invasive Plating of Fractures · • Relative stability for bridging construct, callus...
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Matthew Garner, MD
Created January 2016
Minimally Invasive Plating of Fractures:
Advantages, Techniques and Trade-offs
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OUTLINE • Principles of fracture management
• The importance of vascular supply
• Equipment and reduction techniques
• Examples of minimally invasive plating
• Advantages and outcomes of minimally invasive plating
• Disadvantages of minimally invasive plating
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OUTLINE • Principles of fracture management
• The importance of vascular supply
• Equipment and reduction techniques
• Examples of minimally invasive plating
• Advantages and outcomes of minimally invasive plating
• Disadvantages of minimally invasive plating
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PRINCIPLES OF FRACTURE MANAGEMENT
1. Restoration of anatomic relationships:
– Malalignment leads to limited function of limb
– Limp leads to increased physiologic demand
– Either can lead to chronic disability and an unsatisfied patient
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PRINCIPLES OF FRACTURE MANAGEMENT
2. Preservation of osseous blood supply : - Bone has two primary blood supplies:
- Endosteal—high pressure, inner 2/3
- Periosteal—low pressure, outer 1/3
- Loss of blood supply limits healing
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PRINCIPLES OF FRACTURE MANAGEMENT
2. Preservation of osseous blood supply : - An intact blood supply is necessary for fracture healing
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PRINCIPLES OF FRACTURE MANAGEMENT
3. Stable fixation until union: – Surgical implants share or bear physiologic
loads until healing: • Absolute stability for anatomic reduction and
primary bone healing • Relative stability for bridging construct, callus
formation and secondary bone healing
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PRINCIPLES OF FRACTURE MANAGEMENT
4. Early and safe mobility: – Limits risk of morbidity that is associated with
immobilization • Pneumonia • Venous thromboembolism • Bedsores/skin breakdown
– Helps restore joint range of motion and prevent contractures
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OUTLINE • Principles of fracture management
• The importance of vascular supply
• Equipment and reduction techniques
• Examples of minimally invasive plating
• Advantages and outcomes of minimally invasive plating
• Disadvantages of minimally invasive plating
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Importance of Vascular Supply
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• All fractures are associated with soft tissue disruption of some extent: – Vascular tearing, laceration or occlusion – Periosteal stripping
• Soft tissue damage is typically related to mechanism of injury: – Rotation = low energy with limited soft tissue
damage – Blunt trauma = high energy with potential for
extensive stripping
Importance of Vascular Supply
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• Early ORIF results were discouraging: – Over dissection of distal femur resulted in
unacceptably high rates of non-union, malunion, infection and need for bone graft
Importance of Vascular Supply
Neer et al., Injury 1975 Schatzker and Lambert, Clin Orthop 1979 Siliski et al., J Bone Joint Surg-Am 1989
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• Rabbit Model: – Healing was significantly retarded with muscle
and periosteal injury – Healing potential was inversely proportional to
amount of soft tissue stripping
Importance of Vascular Supply
Whitesides and Lesker, JBJS 1978
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– 10 fresh cadaveric specimens underwent conventional open plating and minimally invasive plating.
– Each cadaver was injected with silicone dye and vascularity was assessed.
– Results: • MIPO demonstrated improved extramedullary and
intramedullary perfusion
Importance of Vascular Supply
– JOT, 1999
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Periosteal perfusion after MIPO (A) and conventional plating (B)
Importance of Vascular Supply A
B
Farouk et al., JOT 1999
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Medullary perfusion after MIPO (A) and conventional plating (B)
Importance of Vascular Supply
Farouk et al., JOT 1999
A
B
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• “…the extensive operative exposure require to achieve an anatomic reduction often results in devitalization of the bone and surrounding tissues as well as evacuation of the fracture hematoma, which has osteogenic potential.”
Importance of Vascular Supply
Collinge et al., JAAOS 2000
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• “Biologic Fixation”: – Surgical techniques designed to limit biological
damage at the time of surgery. • Avoids the need for precise reduction by using
bridging construct and indirect reduction techniques. • Minimizes soft tissue trauma and damage to the
remaining vascular supply. • Can be achieved with plating or intramedullary
rodding.
Importance of Vascular Supply
Moore et al., J Trauma 1987 Perran et al., JBJS (Br) 2002
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• Surgeon’s responsibility: – Limit iatrogenic soft tissue damage – Limit further damage to periosteal and/or endosteal
blood supply
Importance of Vascular Supply
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OUTLINE • Principles of fracture management
• The importance of vascular supply
• Equipment and reduction techniques
• Examples of minimally invasive plating
• Advantages and outcomes of minimally invasive plating
• Disadvantages of minimally invasive plating
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MIPO Reduction Techniques
• Minimally invasive plating relies on indirect reduction techniques.
• Required Equipment:
– Radiolucent Table – C-arm/Fluoroscopy – Total Paralysis
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• Required Equipment Continued: – Length and Coronal Plane Alignment:
• Traction pin: – Can often help with pulling femur to length, especially for
extra-articular fractures » May actually be harmful if attempting joint reduction
as it tensions surrounding soft tissues – May be placed within the distal femur or proximal tibia
depending on fracture pattern and planned fixation
MIPO Reduction Techniques
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• Required Equipment Continued: – Length and Coronal Plane Alignment:
• Schantz Pins/T-Handle: – Can be used to manipulate fracture fragments through small incisions – Place outside of footprint of plate
MIPO Reduction Techniques
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• Required Equipment Continued: – Length and Coronal Plane Alignment:
• Universal AO Distractor or External fixator: – Can be used for both length and coronal plane alignment – Hold preliminary reduction while assessing
alignment/rotation and while placing definitive fixation – Multiplanar external fixation can assist with correction of
deformity in multiple planes
MIPO Reduction Techniques
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• Universal AO Distractor:
MIPO Reduction Techniques
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• External Fixator:
MIPO Reduction Techniques
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• Required Equipment Continued: – Sagittal Alignment:
• Towel Bumps: for under the leg to correct apex anterior/posterior
MIPO Reduction Techniques
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MIPO Reduction Techniques
Bump adjustment to restore anterior bow
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MIPO Reduction Techniques External Fixator for length and varus/valgus
Bump to push distal fragment anteriorly
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OUTLINE • Principles of fracture management
• The importance of vascular supply
• Equipment and reduction techniques
• Examples of minimally invasive plating
• Advantages and outcomes of minimally invasive plating
• Disadvantages of minimally invasive plating
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Pediatric Femoral Shaft Fracture Submuscular Plating
MIPO Examples
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• Pediatric Femoral Shaft Fracture—Submuscular Plating – Patient positioning can help with reduction and ensure easy access
to plate insertion site
MIPO Examples: Femoral Shaft
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• Pediatric Femoral Shaft Fracture—Submuscular Plating – Marking osseous landmarks is essential to making accurate
incisions. – Use fluoroscopy if necessary.
MIPO Examples: Femoral Shaft
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• Pediatric Femoral Shaft Fracture—Submuscular Plating – The plate is used for submuscular dissection. – Insertion handles make insertion easier
MIPO Examples: Femoral Shaft
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• Pediatric Femoral Shaft Fracture—Submuscular Plating – Suture tied to the screw head prevents the screw from being lost in
a large soft tissue envelope
MIPO Examples: Femoral Shaft
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• Pediatric Femoral Shaft Fracture—Submuscular Plating
MIPO Examples: Femoral Shaft
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• Pediatric Femoral Shaft Fracture—Submuscular Plating
MIPO Examples: Femoral Shaft
Antiglide Screw on Concavity of Fracture and
Plate for reduction
Pre-bent Plate
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• Pediatric Femoral Shaft Fracture—Submuscular Plating
MIPO Examples: Femoral Shaft
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Intra-articular Distal Femur Fracture
MIPO Examples
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• Intra-articular Distal Femur Fracture: – Lateral or lateral parapatellar incision permits
access to articular surface
MIPO Examples: Distal Femur
Lateral Lateral Parapatellar
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• Intra-articular Distal Femur Fracture: – Lateral parapatellar incision
MIPO Examples: Distal Femur
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MIPO Examples: Distal Femur
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• Intra-articular Distal Femur Fracture: – Absolute articular stability with lag screws
MIPO Examples: Distal Femur
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• Intra-articular Distal Femur Fracture: – Submuscular plate insertion (Lateral Incision)
MIPO Examples: Distal Femur
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• Intra-articular Distal Femur Fracture: – Submuscular plate insertion (Lateral incision)
MIPO Examples: Distal Femur
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• Intra-articular Distal Femur Fracture: – Lateral incision with plate in place
MIPO Examples: Distal Femur
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• Intra-articular Distal Femur Fracture: – Lateral parapatellar closure
MIPO Examples: Distal Femur
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Extra-articular Distal Femur Fracture
MIPO Examples
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• Extra-articular Distal Femur Fracture:
MIPO Examples: Distal Femur
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• Extra-articular Distal Femur Fracture: – Traction and bump improves alignment
MIPO Examples: Distal Femur
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• Extra-articular Distal Femur Fracture: – Femoral distractor to hold reduction and length
MIPO Examples: Distal Femur
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MIPO Examples: Distal Femur
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MIPO Examples: Distal Femur
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Intra-articular Proximal Tibial Shaft
MIPO Examples
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MIPO Examples: Proximal Tibia
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MIPO Examples: Proximal Tibia • Intra-articular Proximal Tibial Shaft Fracture:
– Restore anatomic articular surface and hold reduction
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MIPO Examples: Proximal Tibia
• Intra-articular Proximal Tibial Shaft Fracture: – Reduce shaft component percutaneously
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MIPO Examples: Proximal Tibia
• Intra-articular Proximal Tibial Shaft Fracture: – Lag screw fixation into shaft component
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MIPO Examples: Proximal Tibia
• Intra-articular Proximal Tibial Shaft Fracture:
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MIPO Examples: Proximal Tibia
• Intra-articular Proximal Tibial Shaft Fracture:
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• Example of plate insertion handle for proximal tibia
MIPO Examples: Proximal Tibia
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Tibial Shaft Fracture
MIPO Examples
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MIPO Examples: Tibial Shaft • Tibial Shaft Fracture below TKA with prior
saphenous vein graft
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MIPO Examples: Tibial Shaft
• Select appropriate plate length and incision location
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MIPO Examples: Tibial Shaft
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MIPO Examples: Tibial Shaft
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Extra-Articular Distal Tibial Shaft Fracture
MIPO Examples
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MIPO Examples: Distal Tibia
• Extra-articular Distal Tibial Shaft Fracture:
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MIPO Examples: Distal Tibia
• Extra-articular Distal Tibial Shaft Fracture:
Bumps assist with reduction
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MIPO Examples: Distal Tibia • Extra-articular Distal Tibial Shaft Fracture:
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MIPO Examples: Distal Tibia
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Extra-Articular Distal Tibia Fracture: Anterior wounds prevent conventional appraoch
MIPO Examples
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MIPO Examples: Distal Tibia
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OUTLINE • Principles of fracture management
• The importance of vascular supply
• Equipment and reduction techniques
• Examples of minimally invasive plating
• Advantages and outcomes of minimally invasive plating
• Disadvantages of minimally invasive plating
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• Indirect reduction and preservation of soft tissues resulted in improved outcomes: – Distal Femur:
• 0-10% non-union • 2% infection • 2% malunion
Minimally Invasive Plating Outcomes
Riemer et al, Orthopaedics 1992 Bolhofner et al, JOT 1996 Ostrum and Geel, JOT 1995 Schatzker et al., CORR 1998
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• Newer studies with larger cohorts better demonstrate risks, complications and clinical outcomes
Minimally Invasive Plating Outcomes
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• 111 fracture treated with locked plating – 18% non-union rate:
• Risks = Open fracture and severity of open injury (Type III > Type I or II)
– 10 % implant failure – TKA = risk of implant failure and poor outcome
Minimally Invasive Plating Outcomes
J Orthop Surg Res, 2013
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• Up to 22% implant failure rate with VA implant compared to 14% and 0% for LISS and LCP plating.
• New technology does not always result in improved fixation/outcomes
Minimally Invasive Plating Outcomes
J Ortho Trauma, 2016
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• Tibial fractures, clinical results: – Proximal tibia:
• 3-9% malalignment • 3% non-union • 0-4% infection
Cole et al., JOT 2004 Ricci et al., JOT 2004 Sitnik et al. CORR 2013
Minimally Invasive Plating Outcomes
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• Tibial fractures, clinical results: – Distal Tibia:
• 0-20% malunions • 0-4% nonunions • 0-5% infection
Helfet et al., Injury 1997 Oh et al. Clin Orthop 2002 Borg et al. Injury 2004 Redfern et al. Injury 2004 Maffuli et al. Int Orthop 2004 Khoury et al. Foot Ankle Int 2002 Sitnik et al. CORR 2013 Paluvadi et al. J Ortho Trauma, 2014
Minimally Invasive Plating Outcomes
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OUTLINE • Principles of fracture management
• The importance of vascular supply
• Equipment and reduction techniques
• Examples of minimally invasive plating
• Advantages and outcomes of minimally invasive plating
• Disadvantages of minimally invasive plating
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• Restoration of fracture alignment is critical to gaining acceptable clinical outcomes
• Intraoperative assessment of length, alignment and rotation may be difficult with fluoroscopy
• Several techniques can be used to help assess and maintain alignment
Disadvantages of Minimally Invasive Plate Fixation
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• Accurate plate placement is essential: – Modern plates are designed to fit the femur anatomically, but not
all patients are the same – A plate placed in the wrong location can lead to malalignment in
the coronal or sagittal plane, malrotation, or translation – Avoid the “golf club deformity”—medialization and external
rotation of the distal femoral articular surface. • Typically occurs when plate placed too posteriorly
Disadvantages of Minimally Invasive Plate Fixation
J Ortho Trauma, 2011
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Disadvantages of Minimally Invasive Plate Fixation
• Difficulty assessing length
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Disadvantages of Minimally Invasive Plate Fixation
• Use intraoperative measurements from other leg
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Disadvantages of Minimally Invasive Plate Fixation
• Unable to assess varus/valgus
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• Get intraoperative plain radiograph and measure on PACS
Disadvantages of Minimally Invasive Plate Fixation
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Disadvantages of Minimally Invasive Plate Fixation • Other Disadvantages:
– Indirect reduction can be technically difficult – Learning curve associated with use—may increase
malreduction rate early on.
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Minimally Invasive Plate Fixation
Future direction of MIPO:
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Minimally Invasive Plate Fixation
Humeral Shaft Fractures?
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Minimally Invasive Plate Fixation
J Ortho Trauma, 2007
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Minimally Invasive Plate Fixation
J Ortho Trauma, 2007
J Shoulder and Elbow, 2012
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Minimally Invasive Plate Fixation
J Orthop Trauma, 2015
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• Humeral Shaft Fractures: – More data on surgical
techniques, complications and clinical outcomes is required
– Complex neurovascular anatomy may limit utility of minimally invasive plating in this area
Minimally Invasive Plate Fixation
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SUMMARY • Fracture healing requires an intact soft tissue envelope and blood
supply.
• Minimally invasive plating of fractures allows for the preservation of surrounding vasculature. – Improves union rates – Limits infection risk
• Achievement and maintenance of reduction can be technically
demanding
• Must be overly critical of fracture alignment as malreduction and malunion is more common with minimally invasive techniques.
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Special Thanks for Clinical Photos • Cory Collinge, MD • Dave Barei, MD • Claude Sagi, MD • Patrick Schottel, MD
• Selected Images from: Court-Brown, C. et al. Rockwood
& Greens Fractures in Adults. Philadelphia: Lippincott Williams & Wilkins, 2014