Adapts imaging interpretation for pediatric anatomy with age-appropriate normal variants. Use when reading pediatric imaging, differentiating normal variants, or documenting pediatric-specific findings.
Adapts imaging interpretation for pediatric anatomy with age-appropriate normal variants.
Pediatric imaging requires fundamentally different knowledge than adult radiology. Children are not small adults — their anatomy changes with age, normal variants mimic pathology, and disease patterns differ from adults. Misinterpreting a normal ossification center as a fracture, failing to recognize a congenital anomaly, or applying adult measurement standards to a child leads to unnecessary interventions or missed diagnoses. The Image Gently Alliance, ACR, and Society for Pediatric Radiology (SPR) mandate age-appropriate imaging protocols, radiation dose optimization, and specialized interpretation standards.
Unique pediatric concerns include non-accidental trauma (NAT) recognition, which carries mandatory reporting obligations; growth-plate injury assessment using the Salter-Harris classification; and age-specific normal variants (thymus, bowel gas patterns, incompletely ossified skeleton). The radiologist must know when findings are normal for age versus pathologic, which requires systematic reference to age-appropriate atlases and developmental milestones. This skill provides the framework for pediatric-specific interpretation across all imaging modalities.
| Age Group | Normal Variant | Mimics | Key Differentiator |
|---|---|---|---|
| Neonate | Thymus — sail sign, wave sign | Mediastinal mass | Conforms to adjacent structures; changes shape with respiration |
| Neonate | Periosteal new bone (physiologic) | Child abuse, infection | Symmetric, diaphyseal, smooth; present in up to 35% of healthy infants |
| Infant | Anterior vertebral body notching | Fracture | Normal vascular channel; no associated soft-tissue injury |
| Toddler | Irregular ischiopubic synchondrosis | Fracture or tumor | Bilateral, symmetric; normal fusion by age 12 |
| Child (2–10) | Irregularity of distal femoral metaphysis | Periosteal tumor | Posterior cortex only; bilateral; no associated soft-tissue mass |
| Adolescent | Accessory ossification centers (os trigonum, os peroneum) | Avulsion fracture | Smooth, corticated margins; known locations |
| All ages | Nutrient canals in long bones | Fracture lines | Run obliquely through cortex; have sclerotic margins |
| Structure | Appearance Age | Fusion Age |
|---|---|---|
| Distal femoral epiphysis | 36 weeks gestational age | 16–18 years |
| Proximal tibial epiphysis | Birth–2 months | 16–18 years |
| Capitellum (elbow) | 1 year | 14–16 years |
| Radial head | 3 years | 14–16 years |
| Medial epicondyle | 5 years | 15–18 years |
| Trochlea | 7 years | 14–16 years |
| Olecranon | 9 years | 14–16 years |
| Lateral epicondyle | 11 years | 14–16 years |
Elbow mnemonic (CRITOE): Capitellum-1, Radial head-3, Internal (medial) epicondyle-5, Trochlea-7, Olecranon-9, External (lateral) epicondyle-11.
| Type | Description | Frequency | Prognosis |
|---|---|---|---|
| I | Through physis only | 5% | Excellent; rarely causes growth disturbance |
| II | Through physis + metaphysis (Thurston-Holland fragment) | 75% | Excellent; most common |
| III | Through physis + epiphysis | 8% | May cause growth disturbance; intra-articular |
| IV | Through metaphysis + physis + epiphysis | 10% | Growth disturbance risk; requires anatomic reduction |
| V | Crush injury to physis | 2% | Worst prognosis; often diagnosed retrospectively |
| Fracture Type | Description | Age Group |
|---|---|---|
| Buckle (torus) | Cortical compression without complete break | Toddler–child |
| Greenstick | Incomplete fracture; one cortex broken, other bowed | Child |
| Plastic/bowing deformity | Deformation without visible fracture line | Child |
| Toddler's fracture | Spiral tibial shaft fracture; often occult on initial films | 1–3 years |
| Supracondylar humerus | Type I–III (Gartland); posterior fat pad sign = occult fracture | 5–8 years |
| Finding | Specificity for NAT | Mandatory Action |
|---|---|---|
| Classic metaphyseal lesions (CMLs) / "corner" or "bucket-handle" fractures | High | Skeletal survey + social work/child protective services referral |
| Posterior rib fractures (especially in infants) | High | Skeletal survey; evaluate for other injuries |
| Fractures of different ages | High | Document each fracture's estimated age |
| Scapular, spinous process, sternal fractures | High | Rare in accidental trauma |
| Complex skull fractures (bilateral, crossing sutures) | Moderate–High | CT head; evaluate for intracranial injury |
| Subdural hematomas (different ages, with retinal hemorrhages) | High (in combination) | Ophthalmology consult; child protection team |
Mandatory reporting: Radiologists are mandated reporters. If NAT is suspected, communicate immediately to the clinical team and ensure child protective services referral. Document communication in the report.
| Feature | Normal Thymus | Pathologic Mass |
|---|---|---|
| Shape | Bilobed; conforms to adjacent mediastinum | Round, lobulated, or irregular |
| Margins | Smooth, wavy (thymic wave sign) | Displaced or compressed adjacent structures |
| On US | Homogeneous echogenicity, echogenic foci | Heterogeneous, necrotic, calcified |
| On lateral CXR | Fills retrosternal space in infants | Posterior mediastinal mass is never thymus |
| Change with respiration | May change shape | Fixed |
| Pattern | Common Pediatric Causes |
|---|---|
| Bilateral diffuse opacities (neonate) | RDS (hyaline membrane disease), TTN, meconium aspiration |
| Unilateral hyperinflation | Foreign body, congenital lobar emphysema, bronchial atresia |
| Round pneumonia | Typical in children <8 years; mimics mass; follow with post-treatment imaging |
| Mediastinal mass (anterior) | Lymphoma, germ cell tumor, thymic pathology |
| Mediastinal mass (posterior) | Neuroblastoma, ganglioneuroma, neurofibroma |
Per ACR Appropriateness Criteria and Image Gently, ultrasound is the first-line modality for most pediatric abdominal indications:
| Indication | First-Line | Second-Line |
|---|---|---|
| Right lower quadrant pain | US (sensitivity >90% for appendicitis in children) | MRI (avoid CT when possible) |
| Pyloric stenosis | US (muscle thickness >3 mm, length >15 mm, no passage) | — |
| Intussusception | US (target sign, pseudokidney sign) | Air/contrast enema (diagnostic + therapeutic) |
| Abdominal mass | US + Doppler (first); then MRI for characterization | CT for staging if malignancy confirmed |
| Urinary tract infection | US (renal/bladder); VCUG if indicated | DMSA scan for scarring |
| Hypertrophic pyloric stenosis | US (pyloric muscle >3 mm thickness, >15 mm length) | Upper GI if US equivocal |
| Structure | Measurement | Normal |
|---|---|---|
| Kidney length | Varies by age | Neonate: 4–5 cm; 1 year: 6 cm; 5 years: 7.5 cm; 10 years: 9 cm; 15 years: 10 cm |
| Appendix diameter | Outer wall to outer wall | <6 mm (>6 mm suggests appendicitis; wall thickness >2 mm) |
| CBD | Internal diameter | Age-dependent: <1 mm in neonates; <4 mm in children |
| Adrenal | Limb thickness | Neonate: may be prominent (≥5 mm normal); involutes by 6 months |