Short Stature

By admin On Mar 2, 2024

Ovid: 5-Minute Orthopaedic Consult

Editors: Frassica, Frank J.; Sponseller, Paul D.; Wilckens, John H.

Title: 5-Minute Orthopaedic Consult, 2nd Edition

> Table of Contents > Short Stature

Short Stature

Paul D. Sponseller MD

Basics

Description

Short stature is defined as height under the 3rd percentile for age of the general population.
Many causes for short stature exist; orthopaedic causes are addressed here.
- Most common cause overall is familial or constitutional short stature
- The most common orthopaedic cause is
  osteochondrodysplasia, a group of skeletal disorders (>600 types)
  characterized by an intrinsic abnormality in the growth and remodeling
  of cartilage and bone
Diagnosis usually is apparent from birth or early childhood.
Classification:
- International Classification of Osteochondrodysplasia (1) most widely accepted
- According to body segment most severely affected: Short limb, short trunk (2)
- According to area of extremity involved: Epiphyseal, metaphyseal, diaphyseal (1)
  - Patients with epiphyseal involvement are most likely to have contractures and arthritis because of involved joint surfaces.
  - The term “rhizomelic” often is used when extremity shortening is greatest in proximal segments, as in achondroplasia.
Synonym: Dwarfism, defined as disproportionate short stature

Epidemiology

Incidence

~1 per 3,000–1 per 5,000 live births (2).

Risk Factors

Family history
Consanguinity
Regionally concentrated dysplasias (e.g., diastrophic dysplasia in Finland, metaphyseal dysplasia in Amish communities)

Genetics

Most dysplasias are transmitted autosomally as dominant or recessive traits.
However, many affected persons acquire the disorder as a new mutation and may pass it on to their children.
Genetic testing is becoming available for many disorders and may be useful in family planning when the history is positive.

Etiology

A defect in the locus for the fibroblast growth factor receptor accounts for achondroplasia.
The gene for the cellular sulfate transporter accounts for diastrophic dysplasia.
Mucopolysaccharidoses are the result of enzyme deficiencies in the pathway of mucopolysaccharide metabolism.
Not all causes are identified.

Associated Conditions

Neurologic and respiratory symptoms, owing to spinal deformity
Mental retardation in Hurler syndrome
Hip dysplasia
Clubfeet in diastrophic dysplasia and spondyloepiphyseal dysplasia
Scoliosis

Diagnosis

Signs and Symptoms

Achondroplasia:
- Most common skeletal dysplasia
- Midface hypoplasia
- Rhizomelic dwarfism
- Frontal bossing
- Delay in motor milestones
- Thoracolumbar kyphosis
- Spinal stenosis (mostly lumbar)
- Overweight
- Narrowed foramen magnum
- Height usually <50 inches
Multiple epiphyseal dysplasia is 1 of the most common dysplasias.
- Autosomal dominant with disturbed ossification in many epiphyses
- Mild short stature, so may not present until later in childhood
- Short limbs
- Irregular epiphyseal ossification with deformity
- Hips, knees, and ankles most severely involved
- Joint pain
- Decreased ROM
- Prominent joints
- Extremity angular deformities
- Final height: 57–67 inches
Hypochondroplasia is an autosomal-dominant, mild, short-limb dwarfism.
- Severe cases share many features with achondroplasia.
- Mild frontal bossing
- No midface hypoplasia
- Symmetric shortening of extremities
- Mild kyphosis and lordosis
Diastrophic dysplasia is a rhizomelic dwarfism.
- Autosomal recessive transmission
- Cauliflower ear
- Major joint contracture
- Hitchhiker (abducted) thumb
- Foot deformity
- Scoliosis
- Cervical spina bifida with kyphosis
Mucopolysaccharidoses:
- Joint contractures
- Organomegaly
- Often cataracts
- Sometimes developmental delay
Multiple osteocartilaginous exostoses:
- Autosomal dominant
- Mild short stature
- Local impingement on tendons, nerves, spinal canal
- Deformity of extremities
- Leg-length discrepancy
- Risk of malignant degeneration in 1% (2)
Spondyloepiphyseal dysplasia:
- Cervical spine instability
- Scoliosis
- Joint contractures
- Stiffness at hip and knee
Down syndrome:
- Simian crease
- Pes planus
- Typical facies
- Developmental delay
- Ligamentous laxity
Turner syndrome:
- Single X-chromosome
- Females only
- Cubitus valgus
- Webbed neck
- Delayed sexual development

P.389

Physical Exam

The patient should be examined for proportionality and physical maturity.
To make the diagnosis of skeletal dysplasia, it is important to know the following patient information:
- Length at birth
- Current height and percentile
- Body proportion by comparing limb and trunk length ratio
- Dysmorphism (morphologic variations of bone and soft tissue that may characterize disorder)
- Complete neurologic examination to rule out stenosis or instability
- Quantitated ROM and contractures
- Examination for angular disturbances of the limbs and for scoliosis and kyphosis of the spine

Tests

Lab

The following tests usually are not indicated, but they can be useful to rule out other conditions if suspected:
- Chemistry profile
- Endocrine evaluation
- Urine workup for storage disorder

Imaging

Radiographic evaluation should include:
- Lateral skull and cervical spine
- Lateral lumbar spine
- AP film of the pelvis
- AP film of the hand and wrist

Pathological Findings

Vary with the different types of disorder.
Most dysplasias show alterations in cartilage, ligament, and tendon.

Differential Diagnosis

Consult with a geneticist or endocrinologist.
Consider other alternatives:
- Constitutional short stature
- Malnutrition
- Hormonal disorder
- Chronic illness
- Chronic steroid use

Treatment

General Measures

Orthopaedic management of patients with
osteochondrodysplasia is mainly symptomatic, correcting and achieving
alignment and stability.
- Evaluate and treat cervical spine instability with collar or fusion, if indicated.
- Decompress neurologic claudication from spinal stenosis, if indicated.
- Document and follow scoliosis and kyphosis.
- Accurate genetic counseling is indicated.
- Recognition and treatment of musculoskeletal abnormalities and intrinsic medical problems are needed.
- With age, many patients need powered devices for transport because arthritis or spinal disorder decreases mobility.
- Growth hormone is not useful for increasing stature.
- Limb lengthening may gain up to 1 additional foot of height in those with achondroplasia.

Special Therapy

Physical Therapy

Physical therapy will not correct skeletal deformity, but it may improve the patient’s function.

Medication

First Line

No medications are available for skeletal dysplasia at this time.

Surgery

Spinal fusion, decompression, and instrumentation are used to correct spinal disorders.
Osteotomy is used to correct extremity deformities.
Patients with early osteoarthritis from epiphyseal deformity may benefit from joint replacement.

Follow-up

Prognosis

Spinal instability, stenosis, and arthritis frequently are associated with many of the dysplasias.

Complications

Degenerative disease of the hips and knees is common.
Cervical instability is seen in spondyloepiphyseal dysplasia and mucopolysaccharidoses.
Complications vary with the different types of disorder.

Patient Monitoring

Patients should be followed approximately every 6 months to monitor developmental milestones and skeletal deformities.

References

1. Beighton P, Giedion A, Gorlin R, et al. International classification of osteochondrodysplasias. Am J Med Genet 1992;44:223–229.

2. Sponseller
PD, Ain MC. The skeletal dysplasias. In: Morrissy RT, Weinstein SL,
eds. Lovell and Winter’s Pediatric Orthopaedics, 6th ed. Philadelphia:
Lippincott Williams & Wilkins, 2006:205–250.

Miscellaneous

Codes

ICD9-CM

259.4 Dwarfism, nonspecific
756.4 Achondroplasia
756.56 Multiple epiphyseal dysplasia
756.59 Other (Spondyloepiphyseal dysplasia)

Patient Teaching

Genetic counseling is indicated.
Refer families when a positive history becomes known.

FAQ

Q: How do I make the diagnosis of short stature?

A:
It is a statistical definition: Height below 2 standard deviations from
the mean for the age. The cause may be determined by physical
examination, skeletal survey, and consultation by a geneticist or
endocrinologist.

Q: What is the role of growth hormone in short stature?

A:
The role varies with the cause. For all skeletal dysplasias, little
gain in height occurs. For constitutional short stature, more benefit
may accrue. An endocrinologist is best qualified to make
recommendations.