Congenital Diaphragmatic Hernia – Imaging

Introduction

Congenital diaphragmatic hernia (CDH) is a developmental defect of the diaphragm allowing herniation of abdominal viscera into the thoracic cavity, resulting in pulmonary hypoplasia and pulmonary hypertension.
It is an important cause of neonatal respiratory distress, often presenting immediately after birth.

Imaging plays a crucial role in:

Antenatal detection
Postnatal diagnosis
Determining side, type, and contents of hernia
Assessing lung hypoplasia and associated anomalies

Types of Congenital Diaphragmatic Hernia

Bochdalek hernia (Posterolateral) – ~85–90%, usually left-sided
Morgagni hernia (Anteromedial) – rare
Central diaphragmatic eventration / defects

Antenatal Imaging

1. Prenatal Ultrasound (Primary Modality)

Key USG Findings:

Absent or poorly visualized diaphragm
Abdominal organs within thoracic cavity:
- Stomach (common in left-sided CDH)
- Bowel loops
- Liver (right-sided CDH)
Mediastinal shift to opposite side
Small abdominal circumference
Polyhydramnios (due to esophageal compression)

Signs of Pulmonary Hypoplasia:

Reduced lung area
Compression of ipsilateral lung

Prognostic USG Parameters:

Lung-to-head ratio (LHR)
Observed-to-expected LHR (O/E LHR)

2. Fetal MRI

Advantages:

Superior soft tissue contrast
Accurate assessment of lung volumes
Better delineation of liver herniation

MRI Findings:

Herniation of abdominal viscera into thorax
Compressed hypoplastic lung
Precise calculation of total fetal lung volume
Differentiation between liver and bowel

Prognostic Value:

Lower lung volume → poorer prognosis

Postnatal Imaging

1. Chest Radiograph (First-Line Imaging)

Typical X-ray Findings:

Multiple air-filled bowel loops in hemithorax
Absence of normal diaphragmatic contour
Mediastinal shift to contralateral side
Compressed ipsilateral lung
Scaphoid abdomen (reduced abdominal gas)

Right-sided CDH:

Homogeneous soft tissue opacity due to liver herniation
May mimic lung consolidation

2. Ultrasound (Postnatal)

Role:

Useful in unstable neonates
Confirms presence of abdominal contents in thorax
Differentiates CDH from diaphragmatic eventration or lung pathology

USG Findings:

Absent diaphragmatic continuity
Peristaltic bowel loops or liver within thorax
Reduced lung tissue on affected side

3. CT Scan (Limited Role)

Indications:

Atypical cases
Preoperative anatomical clarification (rare)

CT Findings:

Defect in diaphragm
Herniation of abdominal viscera
Lung hypoplasia
Mediastinal shift

⚠️ CT is generally avoided in neonates due to radiation

4. MRI (Postnatal – Selected Cases)

Superior evaluation of diaphragmatic defect
Excellent soft tissue characterization
Assessment of lung volume and associated anomalies

Differential Diagnosis on Imaging

Congenital pulmonary airway malformation (CPAM)
Eventration of diaphragm
Pulmonary sequestration
Bronchogenic cyst
Large pleural effusion

Associated Anomalies

Cardiac anomalies (most common)
Neural tube defects
Genitourinary anomalies
Chromosomal abnormalities (Trisomy 18, 21)

Imaging-Based Prognostic Factors

Degree of lung hypoplasia
Liver herniation (poor prognostic factor)
Side of hernia (right-sided worse prognosis)
O/E lung-to-head ratio
Presence of associated anomalies

Comparison of Imaging Modalities

Modality	Role
Antenatal USG	Screening & diagnosis
Fetal MRI	Prognosis & lung volume
Chest X-ray	Postnatal confirmation
Ultrasound	Bedside assessment
CT/MRI	Selected pre-op cases

Key Exam Points

Bochdalek hernia is the most common type
Left-sided CDH is more frequent
X-ray shows bowel loops in chest + mediastinal shift
Antenatal MRI helps in prognosis
Pulmonary hypoplasia determines outcome

Conclusion

Imaging plays a pivotal role in the diagnosis and management of congenital diaphragmatic hernia. Antenatal ultrasound and fetal MRI enable early detection and prognostication, while postnatal chest radiography confirms diagnosis and guides management. Accurate imaging assessment significantly influences clinical outcome in affected neonates.