SAS: Ortho 1-9 (DONE)

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43 Terms

1
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Physical Exam

  • Orthopedic 

    • When: Observe before stress/pain

    • Look for: regional and gross 

      • Lameness, abnormal posture, gait, atrophy, behavior 

        • “sound is down” → forelimb headbob lameness

  • Neuro

    • Look for: conscious proprioception

  • Dt:

    • Non-Invasive: rads, CT, MRI (soft tissue), Scintigraphy 

    • Invasive: FNA / Biopsy, Arthrography, Arthrocentesis, Arthroscopy

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Regional Examination of the Forlimb

  • Digits & Metacarpal/Metatarsal Bones

    • Check each digit/nail bed

    • Pain, abnormal size, webbing, foreign material, draining tracts

    • Flex/extend phalangeal joints

  • Carpus

    • Effusion: radiocarpal joint (cranial)

  • Long Bones (Radius/Ulna, Humerus)

    • Palpate systematically (avoid muscle belly pressure)

    • Look for atrophy, stiffness, swelling, proliferation, focal pain, neoplasia, panosteitis, HOD, HO, fractures

  • Elbow

    • Effusion: caudomedial/caudolateral

  • Shoulder

    • Effusion: tricky

    • ROM: Check biceps tendon

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Regional Examination of the Hindlimb

  • Tarsus

    • Effusion: tarsocrural joint (craniolateral, caudolateral)

    • ROM: Check Achilles tendon integrity

      • pronation, supination, varus, valgus

  • Long Bones (Tibia/Fibula, Femur)

    • Palpate systematically (avoid muscle belly pressure)

    • Look for atrophy, stiffness, swelling, proliferation, focal pain, neoplasia, panosteitis, HOD, HO, fractures

  • Stifle

    • Effusion: parapatellar

    • Collateral lig: Medial limits valgus, Lateral limits varus, patella tracking

  • Hip

    • Effusion: rarely palpable

    • Ortolani maneuver (hip laxity; done under sedation)

    • Lumbosacral vs Hip Pain

      • Palpation: compression test

      • Standing exam: extension of limbs → iliopsoas pain

      • Raise tail: flexes hip joint

      • Rectal exam: pressure dorsal to joint

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Arthrocentesis

  • When: Performed after non-invasive imaging

  • Why: confirm/categorize joint disease, monitor therapy

  • Risks: infection

  • Where:

    • Carpus (cranial, flexed)

    • Elbow (caudomedial/lateral)

    • Shoulder (lateral, distal to acromion)

    • Tarsus (craniolateral/caudolateral)

    • Stifle (parapatellar, flexed)

    • Hip (dorsal/craniodorsal, neutral)

  • Synovial fluid analysis: color, turbidity, viscosity, bacti

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Normal Blood Supply of Long Bones

  • Nutrient artery: medullary cavity (30%), inner 2/3 cortical bone (70%)

    • Medullary circulation is mostly disrupted 

  • Metaphyseal arteries: proximal & distal metaphyses

    • Hypertrophy if nutrient artery is damaged

  • Periosteal arteries: outer 1/3 cortical bone

    • Primary circulation in fractures

  • Epiphyseal arteries: supply epiphysis (do not cross physis)

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Inflammatory Phase of Bone Fracture Healing

  • When: Immediate after fracture

  • How: 

    • Mediators: serotonin, histamine, thromboxane A, vasodilation, permeability

    • Hematoma: fibrin, platelets, clot

    • Removal of necrotic osteocytes

    • New extraosseous blood vessels form

  • Cs: swelling, erythema, pain, impaired fxn

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Repair Phase of Bone Fracture Healing

  • Necrotic tissue replaced with new cells/matrix

  • Undifferentiated mesenchymal cells

    •  bone, cartilage, vessels, fibrous tissue

  • Callus formation:

    • Soft callus: cartilage (central) + fibrous tissue

    • Hard callus: bony (peripheral)

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Remodeling Phase of Bone Fracture Healing

  • Reorganization of reparative tissue

  • Callus → more ordered structure and resorbed 

  • ↓ Cell density, ↓ vascularity

  • Matrix fibrils align along stress lines

  • Endochondral ossification → cartilage → bone

  • Woven bone → lamellar bone

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Direct (Primary) Bone Healing

  • Fracture ends in direct contact

  • Requires rigid stability

  • Osteoblasts cross fracture line → bone deposition

  • No callus required

  • Gap healing: Gap ≤ 150–300 µm

    1. Gap filled with fibrous bone

    2. Haversian remodeling: longitudinal bone

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Indirect (Secondary) Bone Healing

  • Occurs with instability

  • Ends not in contact

  • Requires callus formation

    • Motion = larger callus

    • Involves endochondral ossification

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Complications of Bone Healing

  • Dt: Take films every 4-6 weeks postop

  • Delayed Union: Healing slower than expected, but evidence of healing present

    • Tx: wait, bone graft, stabilize, remove loose implants

  • Nonunion: No progression on rads for 3+ months, instability, poor blood supply

    • Vascular (viable): callus present, fracture line persists

      • Tx: stabilize, remove implants, align

    • Avascular (non-viable): little/no callus, poor biology 

      • Tx: curettage, rigid fixation, cancellous graft

  • Malunion: Fracture healed in abnormal alignment

    • Varus: distal limb deviates medially

    • Valgus: distal limb deviates laterally

    • Torsion: bone rotated on long axis

    • Translation: displacement, axis intact

    • Recurvatum: apex caudal, distal limb cranial

    • Procurvatum (antecurvatum): apex cranial, distal limb caudal

  • Wolff’s Law: bone remodels along stress lines 

    • explains partial correction of malunion

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Bone Grafting Materials

  • Autograft (auto): donor = recipient

    • best osteogenic potential

  • Allograft: donor = same species

  • Xenograft: donor = different species 

    • less useful in ortho

  • Cortical: strong, structural support; osteoconduction only, min osteoinduction

    • risk of sequestrum with infection

  • Cancellous: highly cellular, weak mechanically; provides osteogenesis + induction + conduction

  • Corticocancellous: mix (ribs, iliac crest, ulna)

  • Synthetic: calcium phosphate, bioactive glass

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Bone Graft Procedure

  • Why: Delayed union, nonunion, arthrodesis, osteotomies, high-risk fractures, segmental replacement, fill defects or cavities

    • Osteogenesis: direct new bone formation by grafted osteoblasts

    • Osteoinduction: stimulates progenitor cell proliferation (BMPs)

    • Osteoconduction: scaffold for new bone growth

    • Osteopromotion: enhances osteoinduction

  • Sites: proximal humerus, wing of ilium, proximomedial tibia, distal femur, proximolateral femur

  • How: Harvest only when ready, use separate instruments if infection, store in blood (not saline)

  • Risk: Infection, donor site seeding, neoplasia, donor site morbidity (pain, fracture, seroma, dehiscence)

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General Principles of Fracture Management and Repair

  • Evaluate, describe fracture, and plan 

    1. Open: Antibiotics asap, analgesia, cover, immobilize

      • Broad spec (ampicillin/sulbactam) intra/post-op

    2. Closed: Immobilize, analgesia, stabilize before repair 

      • Cefazolin q90 min intra-op only

    3. Fixation: load sharing, control forces, maintain alignment 

    4. Implant: tension surface > compression surface

  • Skin prep: Clip after induction

    1. #1 source of infection = patient’s own skin

  • Perform surgery

  • Evaluate :rads q4-6w; alignment, apparatus integrity, activity of healing, apposition

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Fracture Classification

  • Location: 

    • Spine, skull, joints: require special imaging (CT, oblique, stress views)

    • Long bones: Epiphysis, Physis (growth plate), Metaphysis, Diaphysis, Articular

      • Salter-Harris = Physeal Fractures

        • Common in young animals (open physes)

  • Forces: Tension, compression, bending, torsion, shear

  • Pattern: Transverse, Oblique, Spiral, Comminuted

  • Gustilo/Anderson Grading system: Open fractures

    • Grade I: inside-out, puncture <1 cm, clean

  • Grade II: wound >1 cm, mild soft tissue trauma, no flaps

  • Grade III: extensive trauma, skin loss, exposed bone

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Halstead’s principles

  • Gentle tissue handling

  • Control hemorrhage

  • Maintain strict asepsis

  • Preserve blood supply

  • Eliminate dead space

  • Accurate tissue apposition

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External Coaptation

  • Why: Immobilization, support, protect, analgesia, compression 

    • Limb fractures, lig instability, pre/post-op support, swelling, luxation

  • How: Bandages and slings 

    • Avoid excessive tightness: 2° & 3° layers

    • circulation risk

    • Always include joint above & below

    • Always allow visualization of 3/4 digits

  • Risk: Bandage sores, necrosis, slippage, nonunion

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Bandage Components

  • Tape stirrups: adhesive strips for stability

  • Primary layer: non-adherent dressing 

    • protects wounds

  • Secondary layer: cast padding or rolled cotton

    • Protects tissue, relieves pain, immobilizes limb

  • Tertiary layer: cling gauze + Vetwrap/Elasticon

    • Compression & protection

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Robert Jones Bandage

  • Why:Temp distal limb splint for below elbow/stifle

    • compression, immobilization, reduces swelling, dead space, pain, protect

  • How:

    • Cover with non-adherent dressing

    • Tape stirrups applied cranial/caudal or medial/lateral

    • Limb held in extension

    • Rolled cotton or cast padding layer

    • Cling gauze (compression) layer

    • Fold stirrups over bandage

    • Vetwrap/Elasticon (compression) layer

  • Check: “thump like a watermelon”

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Modified Robert Jones Bandage

  • Why: Less bulk, immobilization, compression, support

  • How:

    • Cover with non-adherent dressing

    • Tape stirrups applied cranial/caudal or medial/lateral

    • Limb held in standing angle

    • 3-4 layers cast padding

      • NO rolled cotton

    • Cling gauze (compression) layer

    • Fold stirrups over bandage

    • Vetwrap/Elasticon (compression) layer

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Splint Bandage

  • Why: Temp immobilization, support post-op, definitive for mod stable fracture

    • No compression = not for swollen limbs

  • Types:

    • Distal limb: below elbow/stifle

    • Spica: proximal limb, extends to torso

    • Malleable: metal rods, thermoplastics, padded metal, cast tape

    • Rigid: preformed plastic/metal

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Casts

  • Why: definitive fracture stabilization 

    • indirect bone healing

    • Fractures are closed, stable (not axial), distal to elbow/stifle

  • How:

    • Limb immobilized

    • Closed reduction of fracture

    • Tape stirrups → stockinette → casting tape 

      • 2-4 layers, 50% overlap

  • Check: 

    • Rads with >50% reduction needed

    • High risk of sores, weekly checks

  • Removal: bivalve or saw/spreader

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Ehmer Sling

  • Why: maintain reduction of craniodorsal hip luxation

    • abducts + internally rotates hip putting femur into acetabulum

  • How:

    • Under anesthesia, reduce hip first

    • Elasticon tape applied around metatarsals across dorsum to opposite hip

      • Keep metatarsal wrap loose (avoid swelling)

    • Repeat multiple times

  • Removal: after 10-14 days

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Velpeau Sling

  • Stabilizes shoulder with medial dislocation

  • Supports scapular fractures

  • Prevents weight-bearing

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Intramedullary Pins

  • Why: Controls bending, Strength ∝ radius⁴

    • NOT effective against rotation or axial loading

  • Where: femur, tibia, ulna, humerus

    • NOT for radius

  • Type: 

    • Primary stabilizer: 60-70% diameter of medullary canal

    • Adjunct stabilizer: 30-40% diameter of medullary canal

    • Texture: smooth > threaded

  • How: 

    • Adjunct fixation: required; plate/screws, cerclage, external fixator

      • Exception is physeal fractures in young dogs (can be sole implant)

    • Insertion: 

      • Retrograde: fracture site → out epiphysis → repositioned → across fracture

        • Ulna: retrograde; canal is narrow distally

        • Humerus: normograde OR retrograde; proximolateral → distomedial

      • Normograde: proximally → down medullary canal → across fracture

        • Femur: normograde, ↓ sciatic/physis risk; start at trochanteric fossa

        • Tibia: normograde ONLY; start at tibial crest 

          • medial, ~⅓ distance caudal to joint line, near patellar tendon

        • Humerus: normograde OR retrograde; proximolateral → distomedial

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Cross Pins

  • Why: physeal fractures 

    • femur, tibia

  • What: Small smooth IM pins

  • How: inserted laterally, cross physis

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Cerclage Wire

  • What: Stainless steel 18–22 gauge

  • Why: adjunctive, long oblique fracture (>2× diameter)

    • never sole fixation

  • How: Fully encircles bone

    • Anatomical reduction

    • Use ≥ 2 wires perpendicular to fracture line

      • Closest wire 3-5 mm from fracture

      • Wires ~1 cm apart (closer is better)

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Screws

  • Classified: by outer diameter

  • Types: Stainless steel or titanium, partially or fully threaded, Locking vs. non-locking

    • Non-locking: rely on bone–plate friction

    • Locking: screw head threads into plate 

      • fixed-angle stability

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Plates

  • What:

    • Round (compression) or oval holes

    • Dynamic compression plate (DCP)

    • Limited-contact DCP (LC-DCP)

    • Locking plates: rigid plate-screw interface, for poor bone quality, less contouring needed

  • Why: 

    • Compression: transverse fractures

    • Neutralization: protects adjunct fixation (lag screw/cerclage)

    • Buttress: carries full load for unstable fracture

  • How:

    • Apply to tension surface of bone

    • Must engage ≥6 cortices on each side of fracture

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Interlocking Nail

  • What: IM pin + locking bolts

    • IM pin controls bending

    • Bolts control shear & rotation

  • Why: femur, tibia, humerus

    • $$, technically demanding, specialized

  • How: 

    • Fills 80-90% of medullary canal

    • Place proximal and distal of break

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Tension Band Wiring

  • Why: Converts distractive into compressive forces

    • Patellar, Traction physeal, Olecranon fractures, Tibial crest avulsion

  • What: Kirschner wires + figure-of-eight cerclage wire (18-22g)

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External Skeletal Fixation

  • Why: Long bone fractures, Arthrodesis, Spinal stabilization, Mandibular fractures, Distraction osteogenesis

  • What: Pins, Clamps, Connecting bar

    • Use threaded pins, Lg size possible (25% diameter of bone)

  • How: use the simplest frame design that will work

    • Place 3-4 pins per main fragment, evenly, and perpendicular to long axis of bone along safe corridors

      • Safe corridors: distal radius/ulna, tibia/fibula

        • Femur has NONE

    • Connecting bar placed 1-2 cm from bone

    • Clamp interface inside connecting bar

  • Risk: infection, neurovascular injury, breakage/loosening, loss of reduction, necrosis, delayed union, iatrogenic fracture

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Fixation Pins

  • Class: thread location

    • Half pin and Full pin

  • Types:

    • Smooth (Steinmann pin, Kirschner wire)

      • ↓ Pullout strength

      • ↑ Susceptibility to cyclic loading

      • ↑ Premature loosening

    • Threaded

      • Positive: threads rolled, strong

      • Negative: threads cut, weak

      • Tapered end improves strength

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Types of External Skeletal Fixation

  • What: 

    • Pins: Engage bone, provide stabilization

    • Clamps: Secure pins to connecting bar.

    • Connecting bar: Links clamps and pins.

  • Types: 

    • Linear: Frame strength ↑ with complexity

      • Type IA: Unilateral, uniplanar

      • Type IB: Unilateral, biplanar

      • Type II: Bilateral, uniplanar

      • Type III: Bilateral, biplanar

    • Hybrid

      • Why: fractures with small bone fragments

      • What: Combo half pins + ring with small fixation wires

    • Circular

      • What: Kirschner wires + rings + connecting bars

      • Why: comminuted fractures, angular limb deformities

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Scapular Fractures

  • Body & Spine

    • Minimally displaced: stable, Velpeau sling 2w

    • Comminuted or Transverse: unstable, internal fixation

  • Supraglenoid Tuberosity

    • Et: immature dogs, avulsion/physeal separation from biceps pull

    • Tx: pin + tension band, or lag screw

  • Neck & Glenoid Cavity

    • Tx: reconstruction required, cross pins, lag screw

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Humeral Fractures

  • Considerations: 

    • Radial n.: lateral/superficial to brachiali

  • Proximal Physeal Fractures

    • Sig: growing dogs

    • Tx: parallel K-wires, cross the physis, heals fast

  • Diaphyseal Fractures

    • Tx: fxn alignment

      • Spiral: plate + screws, or IM pin + cerclage 

        • pin sized to distal canal; normograde/retrograde; lateral → medial

      • Transverse: plate + screws, IM pin

      • Comminuted: plate + screws + IM pin, buttress, external fixator

  • Condylar Fractures: Lateral > medial

    • Sig: Young dogs w/ Salter-Harris IV, older dogs w/ incomplete ossification of humeral condyle

    • Tx:

      • Lateral condyle: lag screw + anti-rotational K-wire

      • T or Y fracture: bilateral plates + screws

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Radius & Ulna Fractures

  • Considerations: No soft tissue envelope, weight-bearing, blood supply poor in small breeds, poor healing

  • Tx: rigid fixation, often only radius tx

    • Bone plate & screws (#1)

      • IM pins contraindicated for radius

    • External skeletal fixation 

    • Casting: acceptable if 50% reduction; best for transverse fractures in young dogs

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Pathologic Fractures

  • Et: neoplasia, fungal osteomyelitis

  • Tx: Repairable if limb, adjunctive therapy

  • Px: Same as underlying disease

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Carpal, Metacarpal, Digital, Metatarsal Fractures

  • Carpal: lag screw

  • Metacarpal and Metatarsal: common 

    • Tx: closed reduction + caudal splint (Rx #1), IM pins/plates + caudal splint (Sx)

      • Sx indicated if open, grossly displaced, intra-articular, or all 4 fractured

  • Digital: caudal splint bandage for 6w

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Pelvis Fractures

  • Considerations: Multi physes, normally breaks at multi sites 

    • Sciatic n.: through ischiatic notch

    • Weight transfer: paw → tibia → femur → acetabulum → ilium → SI joint

  • Et: males > females, trama

  • Dt: Rads, CT for complex fractures/Sx planning

  • Tx: 

    • Rx: non-displaced, unilateral, non-articular, non-weight-bearing fractures

      • 6 w crate rest, sling, pain control, controlled walks, PT

    • Sx: ilium/acetabulum/SI joint (weight-bearing), bilateral fractures, displacement, colon compromise, pelvic canal compromise (parturition), sciatic entrapment

      • Ilium: plate + screws

      • Acetabulum: plate + screws, cross pins, PMMA

      • SI joint: screw stabilization

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Femur Fractures

  • Capital Physis: Salter-Harris I, skeletally immature

    • Dt: AP & frog-leg radiographs

    • Tx: K-wires (diverging/parallel), temp“apple-coring”

  • Patellar fractures

    • Apical (<1/3 patella): excision

    • Multifragmentary: patellectomy

    • Transverse (#1): wire + tension band

  • Greater Trochanter Avulsion: Young, gluteal muscle traction

    • Tx: pin + tension band

  • Diaphyseal fractures (#1)

    • Tx: plate + screws, interlocking nail, IM pin + cerclage

      • ESF not recommended as no safe corridors

  • Distal Physeal fractures: young, Salter-Harris type, growth plate involvement

    • Tx: cross pins (linear), plates (if comminuted)

      • Risk of quadriceps contracture

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Tibia & fibula Fractures

  • Considerations: Common, Min soft tissue envelope, risk of open fracture

  • Tx:

    • Rx: Casting/splinting 

      • closed, transverse fractures, >50% reduction, lateral splint (greenstick fractures)

    • Sx: Plate + screws, IM pin + cerclage, Interlocking nail, ESF

      • Avulsion: tension band + K-wire, or K-wires alone

      • Physeal: urgent fixation, cross pins

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Fractures of the Mandible and Maxilla

  • Considerations: 

    • Body: bending forces, tension greatest at alveolar surface

    • Ramus: shear forces

    • Symphysis/Incisive region: rotational forces

  • Et: Trauma, severe dental disease, neoplasia

    • Mandibular: Dogs body and cats incisor region

    • Maxillary: Dogs alveolar region and cats midline palate separation

  • Dt: Rads, CT for surgical planning

  • Tx: Keep teeth for stability & occlusion, strong fixation and tension at alveolar surface, pharyngostomy intubation

    • Tape muzzle: cheap, easy, unilateral stable fractures

      • not good for cats/brachycephalics

    • Symphyseal wiring: cats, cerclage wire between canines, 6-8w healed

    • Maxillomandibular bonding: bonds upper/lower canines, cats/brachycephalics

      • aspiration risk, slurry diet needed

    • Interdental splinting: acrylic/wire splinting, good for rostral, requires stable teeth

    • Interfragmentary wiring: good for linear, 2-piece fractures, requires exact reduction

      • not good for comminution/bone loss

    • Plates & screws: body/ramus, avoid tooth roots & mandibular canal, place ventrolaterally

    • ESF: strong, min invasive, high postop care, self-trauma risk

  • Comp: Dental issues, malocclusion, facial deformity, oronasal fistula, palate defects, osteomyelitis, bone sequestration, delayed union/non-union

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