Executive Editor: James Hunter General Editor: Fergal Monsell

Authors: Andrew Howard, Peter Schmittenbecher, Theddy Slongo

Pediatric forearm shaft

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Glossary

Forearm anatomy
Forearm surface anatomy enlarge

Introduction

An understanding of the forearm surface anatomy particularly bony prominence and the cross-sectional contour is important for effective reduction and safe application of a cast.


Bony landmarks enlarge

Bony landmarks

  • Radial styloid
  • Ulnar styloid
  • Olecranon
  • Medial and lateral humeral epicondyle

Forearm axis and rotation enlarge

Forearm axis and rotation

The radius, ulna, elbow joint, and proximal and distal radial/ulnar joints function together to provide nearly 180° of pronation and supination. The radius can be thought of rotating around a fixed ulna.

Clinical implications:

  • Both bone fractures are common.
  • Monteggia lesions are common.
  • Other single bone fractures are rare.
  • Accurate reduction and stability is required to maintain forearm function.
  • Anatomic or near anatomic reduction is necessary if little or no growth remains.
  • Younger children with tough periosteum can be successfully treated with closed reduction and casting.

Periosteum as a factor in reduction and stability enlarge

Periosteum as a factor in reduction and stability

Children’s periosteum is a thick, tough tissue and is often intact on the concave (compression) side of a fracture.

The stability of the periosteum is an advantage when performing gentle reduction maneuvers.

If the periosteum needs to be loosened to allow gentle reduction, it may be necessary to exaggerate the fracture deformity.


Thick periosteum confers extra stability with three-point molding enlarge

Thick periosteum confers extra stability with three-point molding as the concave periosteum acts as a tension band.


Developmental anatomy of the proximal radius enlarge

Developmental anatomy

The proximal radius ossification center is the second to appear around the elbow at the age of 3-5 years.

This fuses close to maturity at about 12 years in girls and 14 in boys.

The olecranon ossification center appears at nine years and fuses gradually between 11 to 13 years in girls and 13 to 15 years in boys.


Developmental anatomy of the distal radius enlarge

The distal radial ossification center typically appears by 1-2 years and fuses at 14 in girls and 16 in boys.

The distal ulnar ossification center appears between 3 to 5 years and fuses at 14 years in girls and 16 in boys.


The majority of longitudinal growth in the forearm is from the distal radius and ulna.

Clinical implications:

  • Growth related modeling of distal metaphyseal fractures is significant.
  • Modeling cannot be relied on to realign malunions of shaft or proximal radius and ulna.

v1.0 2018-11-28