Presentation is loading. Please wait.

Presentation is loading. Please wait.

Principles of management Pediatric Fractures

Published byOsborn McCoy Modified over 9 years ago

Similar presentations

Presentation on theme: "Principles of management Pediatric Fractures"— Presentation transcript:

1 Principles of management Pediatric Fractures
بسم الله الرحمن الرحيم Principles of management Pediatric Fractures

2 Objectives Statistics about fractures in children
How children’s bones are different Outline principles of management Point out specific precautions Acknowledgement and recommendation Lynn T Staheli

3 introduction In Middle East ~60% of population are < 20 yrs.
Fractures account for ~15% of all injuries in children. Different from adult fractures Vary in various age groups ( Infants, children, adolescents )

4 Statistics ~ 50% of boys and 25% of girls, expected to have a fracture during childhood. Boys > girls Rate increases with age. Mizulta, 1987

5 Statistics ~ 50% of boys and 25% of girls, expected to have a fracture during childhood. Boys > girls Rate increases with age. Physeal injuries with age. Mizulta, 1987

6 (sample of 923 children, Mizulta, 1987)
Statistics Most frequent sites (sample of 923 children, Mizulta, 1987)

7 Why are children’s fractures different?
Children have different physiology and anatomy Growth plate. Bone. Cartilage. Periosteum. Ligaments. Age-related physiology

8 Why are children’s fractures different?
Children have different physiology and anatomy Growth plate: In infants, GP is stronger than bone increased diaphyseal fractures Provides perfect remodeling power. Injury of growth plate causes deformity. A fracture might lead to overgrowth.

9 Why are children’s fractures different?
Children have different physiology and anatomy Bone: Increased collagen: bone ratio - lowers modulus of elasticity

10 Why are children’s fractures different?
Children have different physiology and anatomy Bone: Increased collagen: bone ratio - lowers modulus of elasticity Increased cancellous bone - reduces tensile strength - reduces tendency of fracture to propagate less comminuted fractures Bone fails on both tension and compression - commonly seen “buckle” fracture

11 Why are children’s fractures different?
Children have different physiology and anatomy Cartilage: Increased ratio of cartilage to bone - better resilience - difficult x-ray evaluation - size of articular fragment often under-estimated

12 Why are children’s fractures different?
Children have different physiology and anatomy Periosteum: Metabolically active more callus, rapid union, increased remodeling Thickness and strength Intact periosteal hinge affects fracture pattern May aid reduction

13 Why are children’s fractures different?
Children have different physiology and anatomy Age related fracture pattern: Infants: diaphyseal fractures Children: metaphyseal fractures Adolescents: epiphyseal injuries

14 Why are children’s fractures different?
Children have different physiology and anatomy Physiology Better blood supply rare incidence of delayed and non-union

15 Physeal injuries Account for ~25% of all children’s fractures.
More in boys. More in upper limb. Most heal well rapidly with good remodeling. Growth may be affected.

16 Classification: Salter-Harris, Peterson, Ogden
Physeal injuries Classification: Salter-Harris, Peterson, Ogden

17 Physeal injuries Less than 1% cause physeal bridging affecting growth.
Small bridges (<10%) may lyse spontaneously. Central bridges more likely to lyse. Peripheral bridges more likely to cause deformity Avoid injury to physis during fixation. Monitor growth over a long period. Image suspected physeal bar (CT, MRI)

18 The power of remodeling
Tremendous power of remodeling Can accept more angulation and displacement Rotational mal-alignment ?does not remodel

19 The power of remodeling
Factors affecting remodeling potential Years of remaining growth – most important factor Position in the bone – the nearer to physis the better Plane of motion – greatest in sagittal, the frontal, and least for transverse plane Physeal status – if damaged, less potential for correction Growth potential of adjacent physis e.g. upper humerus better than lower humerus

20 The power of remodeling
Factors affecting remodeling potential Growth potential of adjacent physis e.g. upper humerus better than lower humerus

21 Indications for operative fixation
Open fractures Displaced intra articular fractures ( Salter-Harris III-IV ) fractures with vascular injury ? Compartment syndrome Fractures not reduced by closed reduction ( soft tissue interposition, button-holing of periosteum ) If reduction could be only maintained in an abnormal position

22 Indications for operative fixation

23 Methods of fixation Casting - still the commonest

24 Methods of fixation Casting - still the commonest K-wires
most commonly used Metaphyseal fractures

25 Methods of fixation Casting - still the commonest K-wires
most commonly used Metaphyseal fractures K- wires could be replaced by absorbable rods

26 Methods of fixation Casting - still the commonest K-wires
most commonly used Metaphyseal fractures K- wires could be replaced by absorbable rods Preoperative immediate months months Hope et al , JBJS 73B(6) ,1991

27 Methods of fixation Casting - still the commonest K-wires
most commonly used Metaphyseal fractures Intramedullary wires, elastic nails Very useful Diaphyseal fractures

28 Methods of fixation Casting - still the commonest K-wires
most commonly used Metaphyseal fractures Intramedullary wires, elastic nails Very useful Diaphyseal fractures Screws

29 Methods of fixation Casting - still the commonest K-wires
most commonly used Metaphyseal fractures Intramedullary wires, elastic nails Very useful Diaphyseal fractures Screws

30 Methods of fixation Casting - still the commonest K-wires
most commonly used Metaphyseal fractures Intramedullary wires, elastic nails Very useful Diaphyseal fractures Screws Plates – multiple trauma

31 Methods of fixation Casting - still the commonest K-wires
most commonly used Metaphyseal fractures Intramedullary wires, elastic nails Very useful Diaphyseal fractures Screws Plates – multiple trauma IMN - adolescents only (injury to growth)

32 Methods of fixation Casting - still the commonest K-wires
most commonly used Metaphyseal fractures Intramedullary wires, elastic nails Very useful Diaphyseal fractures Screws Plates – multiple trauma IMN - adolescents Ex-fix – usually in open fractures

33 Methods of fixation Combination Casting - still the commonest K-wires
most commonly used Metaphyseal fractures Intramedullary wires, elastic nails Very useful Diaphyseal fractures Screws Plates – multiple trauma IMN - adolescents Ex-fix Combination

34 Fixation and stability
Fixation methods provide varying degrees of stability. Ideal fixation should provide adequate stability and allow normal flexibility. Often combination methods are best.

35 Complications Ma-lunion is not usually a problem
( except cubitus varus ) Non-union is hardly seen ( except in the lateral condyle ) Growth disturbance – epiphyseal damage Vascular – volkmann’s ischemia Infection - rare

36 Non-accidental injuries
Beware! Non-accidental injuries

37 Non-accidental injuries
Beware! Non-accidental injuries ?Multiple At various levels of healing Unclear history – mismatching with injury Circumstantial evidence

38 Non-accidental injuries
Beware! Non-accidental injuries Circumstantial evidence Soft tissue injuries - bruising, burns Intraabdominal injuries Intracranial injuries Delay in seeking treatment

39 Non-accidental injuries
Beware! Non-accidental injuries Specific pattern Posterior ribs Skull

40 Non-accidental injuries
Beware! Non-accidental injuries Specific pattern Corner fractures (traction & rotation)

41 Non-accidental injuries
Beware! Non-accidental injuries Specific pattern Bucket handle fractures (traction & rotation)

42 Non-accidental injuries
Beware! Non-accidental injuries Specific pattern Femur shaft fracture <1 year of age ( 60-70% non accidental) Transverse fracture Humeral shaft fracture <3 years of age Sternal fractures

43 Beware! Malignant tumours Can present as injury.
History of trauma usual. 12 y old girl History of trauma mild tenderness Periosteal reaction 2m later, still tender Ewings sarcoma

44 Special considerations
During resuscitation

45 summary Children’s bones are different

46 summary About 60% of population in ME are children!
Fractures in children are common. Children’s bones are different Outline principles of management. Specific treatment plans (combinations possible) Specific precautions. Beware Non-accidental trauma Malignant tumors

47 Thank You AO Courses, Riyadh 1-5 May 2005

48 Thank You

49

50

Download ppt "Principles of management Pediatric Fractures"

Similar presentations

Diaphyseal fractures in children Mohamed M. Zamzam Associate Professor & Consultant Pediatric Orthopedic Surgeon KKUH, Riyadh, Saudi Arabia.

Diaphyseal fractures in children Mohamed M. Zamzam Associate Professor & Consultant Pediatric Orthopedic Surgeon KKUH, Riyadh, Saudi Arabia.
Introduction to Pediatric Orthopaedics: Common Fractures

Introduction to Pediatric Orthopaedics: Common Fractures
Skeletal Injury in Child Abuse

Skeletal Injury in Child Abuse
The principles of intra- articular fracture care Joseph Schatzker M.D., B.Sc.,(med.), F.R.C.S.(C )

The principles of intra- articular fracture care Joseph Schatzker M.D., B.Sc.,(med.), F.R.C.S.(C )
Tibial Plateau Fractures

Tibial Plateau Fractures
Sadeq Al-Mukhtar Consultant orthopaedic surgeon

Sadeq Al-Mukhtar Consultant orthopaedic surgeon
Fractures and Bone Healing

Fractures and Bone Healing
Dr. Maha Arafah 2013 MUSCULOSKELETAL BLOCK Pathology Fracture and bone healing.

Dr. Maha Arafah 2013 MUSCULOSKELETAL BLOCK Pathology Fracture and bone healing.
 The animal will not be able to use the leg at all and if able will hold the leg up. Sometimes the foot will be rested on the ground when the animal.

 The animal will not be able to use the leg at all and if able will hold the leg up. Sometimes the foot will be rested on the ground when the animal.
Failure After Fixation with Flexible IM Nail in Adolescent Femur Shaft Fracture Inje University, Ilsan Paik Hospital Suk Kyu Choo MD.

Failure After Fixation with Flexible IM Nail in Adolescent Femur Shaft Fracture Inje University, Ilsan Paik Hospital Suk Kyu Choo MD.
External Fixation Indications and Techniques

External Fixation Indications and Techniques
Pat Fleming Consultant Orthopaedic Surgeon

Pat Fleming Consultant Orthopaedic Surgeon
Paediatric fractures in the Emergency Department October 2012

Paediatric fractures in the Emergency Department October 2012
Definition; classification; causes fractures. ORTHOPEDICS History “ortho” straight “paedia” child Straightening of musculoskeletal deformities in children.

Definition; classification; causes fractures. ORTHOPEDICS History “ortho” straight “paedia” child Straightening of musculoskeletal deformities in children.
Fracture shaft of the femur While the powerful muscles surrounding the femur protect it from all but the powerful forces it cause sever displacement of.

Fracture shaft of the femur While the powerful muscles surrounding the femur protect it from all but the powerful forces it cause sever displacement of.
Extracapsular Fractures

Extracapsular Fractures
Pediatric Forearm Fractures OTA RCFC 2014. Pediatric Considerations Periosteum Greenstick / Incomplete fractures Remodeling Cast technique.

Pediatric Forearm Fractures OTA RCFC Pediatric Considerations Periosteum Greenstick / Incomplete fractures Remodeling Cast technique.
Physeal injuries Kakwani. Introduction Introduction The physis The physis Classification of physeal injuries Classification of physeal injuries Principles.

Physeal injuries Kakwani. Introduction Introduction The physis The physis Classification of physeal injuries Classification of physeal injuries Principles.
PRINCIPLES OF FRACTURES (ADULTS)

PRINCIPLES OF FRACTURES (ADULTS)
Common Pediatric Fractures and Trauma

Common Pediatric Fractures and Trauma

Similar presentations

Ads by Google