Gymnast Wrist

Gymnast Wrist

Dr. Kris Buedts, Dr Yo Baeten

Europa Ziekenhuis Site Sint Michiel, Brussel

Dr. Briffoz, Marc Walraeven lic.

Medical Staff Topsportschool Gent

Dr Nick Baelde

MRI Unit AZ Jan Palfijn Gent

Wrist pain

• Introduction

• General

considerations

• Case Reports

Outline of a

prospective study

protocol in elite

gymnasts

General considerations



• More gymnasts

• Immature skeleton

• Higher training levels in elite and non-elite

gymnasts

Wrist pain



• Is common among both sexes

• The wrist is converted into a weight

bearing structure

• Loading in dorsiflexion

• As much as 16X body weight

• Prevalence : 46% to 79%, Difiori et al, Clinical sports

medicine update 2006

Wrist pain



• Floor Exercises

Wrist pain



• Balance Beam

Wrist pain



• Pommel Horse

Wrist pain



• Vaulting

Wrist pain



• Wrist pain for several months is common

up to 45%, Mandelbaum Br et al, Am J Sportsmedecine, 1996







In direct correlation with

1) Training intensity (= level of competition

X training hours



2) Age

3) Age of initiation

Wrist pain



• Distribution in function of training intensity

Wrist pain



• Side of pain, DiFiori et all, Am J of Sportsmedicine, 1996



• Dorsal : 61,5 %

• Ulnar : 12,3 %

• Palmar : 7,7 %

• Radial : 6,2 %

• Non localized : 14 %

Wrist pain



• Distribution, Garron et all, Clinics in sportsmedicine, 1992



• More ulnar sided pain in female

• More dorsal sided pain in male

• Age

• More ulnar sided pain in mature wrist

• More dorsal sided pain in immature wrist

Wrist Pain



• Distal Radius Physeal stress reaction

Wrist pain



• Stress fracture of the scaphoid

Wrist pain



• Scaphoid impaction syndrome and

scapholunate area injury

Wrist pain



• Ulnar Impaction syndrome

Wrist pain



• Avascular necrosis of the capitate

Wrist pain



• Distal Radius Physeal arrest

Wrist pain



• Triquetrolunate impingement

Wrist pain



• Chronic Soft tissue capsulitis

• Wrist Impingement

• Wrists splint

• Ganglia

• TFCC complex tears

Point of interest

• The Immature wrist :

Distal Radius Physeal

stress reaction

• Why ?

– Protection for future

– Prevention for wrist

degeneration

Repetitive injury and

compression of the wrist leads

to a premature closure of the

distal radials growth plate

resulting in secondary ulnar

overgrowth, L De Smet et al, Am J

of Sports medicine, 1994

Difference between boys and girls



• Girls

 Short Statue

 Leanness

 More proprioceptif training

 More ulnar sided wrist pain







• Boys

 Power training

 More repetition

 Less proprioceptif training

 More dorsal sided wrist pain

Wrist degeneration



• Ulnar wrist pain

• Madelung like deformity

• Ulna + with Ulnar impingement syndrome

And/or TFCC problems,

L. De Smet et al, Act Orthop Belg, 1993,

Prevention



• Prevention measures : cut down of wrist

pain

• Training equipment

• Cleaning of bars

• Bracing

• Nutritional advice

• Coaching

One Exception

• Puberal Boys and girls

• Age Group 12- 15 years

• Initiation to training :

• High training intensity

• Fysionomy

• Small stature

• Delayed puberty

Out of Control

Case Report



• HT, 15y, Dorsal sided wrist pain, elite

• Started training at 5Y

Case Report

Distal Radial Physeal Injury



• Biomechanics

- 80% of load is borne by the radius in the

extended wrist, Palmer et al, J Hand Surg 1982

- Shortening of the ulna increases the load

borne by the radius

- open physis :

- 2 mm

Hafner et al, Skeletal rad, 1989

Distal Radial Physeal Injury

• Histology

– Dynamic compression can

stimulate bone growth

– Loading can exceed

adaptive capacity of the

growth plate

– Growth plate more

vulnerable during puberal

growth spurt

Flachsmann et al, Clin Orthop rel res, 2000

Distal Radial Physeal Injury

• Compromise of blood

supply

• Disrupts mineralization

• Prolonging the life of the

chondrocytes

• Widening of the growth

plate

• “Logjam” of chondrocytes

Jaramillo et al, Radiology 1993

Distal Radial Physeal Injury

• Radiology

– Widening of the distal

radial physis

– Beaking of the

epiphysis

– Cystic changes and

irregularity of the

methaphyseal margin

Distal Radial Physeal Injury

Distal Radial Physeal Injury

Introduction to a prospective study

protocol in elite gymnast

• Purpose

To determinate mean velocity age of onset

To determinate wrist side involvement

To determinate in open physis

To determinate correlation between ulna +

and Distal Radial Physeal Injury

To protect our young athletes for chronic

injury

Introduction to a prospective study

protocol in elite gymnast

• Questionnaire

• Physical examination

• Training volume, Training intensity

• Rate of growth, endocrinal follow up

• Standard RX

• Screening with MRI

• Control group

Distal Radial Physeal Injury



Thank you