Part 5 · The Diaphragm

Diaphragmatic Injury

Frequently missed — CXR sensitivity 40–60%, collar sign on CT, and surgical repair principles.

Surgical relevance

Overview

Diaphragmatic injury occurs in approximately 1–7% of blunt trauma patients and up to 15% of penetrating thoracoabdominal trauma. It is frequently missed in the acute setting — clinical awareness and a high index of suspicion are essential. Small penetrating injuries in particular may remain clinically silent for months to years before presenting with intestinal obstruction or strangulation as a chronic traumatic hernia.

Mechanisms and laterality

Left-sided injuries are approximately 3 times more common than right-sided — the liver provides a protective buttress to the right hemidiaphragm during blunt trauma, distributing force over a wider area. Left-sided injuries are more likely to allow immediate herniation of abdominal viscera.

Mechanism by injury type
Blunt traumaRTA (most common) · fall from height · crush injury. Sudden rise in intra-abdominal pressure causes radial tears, typically posterolateral — 5–10 cm lacerations.
Penetrating traumaStab wounds · gunshot wounds · iatrogenic (surgical, interventional). Small defects — may not herniate immediately but enlarge over time due to negative intrathoracic pressure.

Diagnosis

Frequently missed — maintain high suspicion

CXR sensitivity for diaphragm rupture is only 40–60% — a normal CXR does not exclude injury. CT sensitivity is better but still misses up to 30% of injuries, particularly small penetrating defects and right-sided tears. Diagnostic laparoscopy is the gold standard when imaging is inconclusive in a haemodynamically stable patient.

  • CXR: elevated hemidiaphragm · stomach or bowel loops in chest · nasogastric tube coiled in chest · contralateral mediastinal shift
  • CT chest/abdomen: Investigation of choice in stable patients. Specific signs: collar sign (waist-like constriction of herniated bowel at the defect) · dependent viscera sign (posteriorly displaced viscera resting against the posterior chest wall — pathognomonic for left-sided rupture) · direct visualisation of diaphragmatic discontinuity
  • MRI: Most sensitive for diaphragm injuries but impractical in acute trauma — useful for delayed or chronic presentation
  • Diagnostic laparoscopy: Directly visualises both hemidiaphragms; allows simultaneous repair; indicated when CT is inconclusive in a haemodynamically stable patient

Classification by timing

  • Acute (<24 hours): diagnosed at initial trauma assessment or laparotomy for associated injuries
  • Subacute (24 hours – 7 days): identified during hospitalisation after missed initial diagnosis
  • Chronic / delayed (>7 days): presents months to years after injury with obstruction, strangulation, or incidental imaging finding — most dangerous due to adhesions between herniated viscera and pleura

Management

Management priorities

Diaphragmatic injury is rarely isolated. Haemorrhage control and management of life-threatening associated injuries take absolute priority over diaphragm repair. A temporary delay in diaphragm repair does not worsen outcome — the diaphragm can be repaired safely once the patient is stabilised.

Surgical approach

Surgical approach by clinical scenario
Clinical settingPreferred approach
Haemodynamically unstable ± abdominal injuryLaparotomy — rapid access; control haemorrhage; repair diaphragm at same sitting
Stable; left-sided blunt injuryLaparotomy or laparoscopy
Isolated right-sided injuryRight thoracotomy — better access to right hemidiaphragm; reduces liver interference
Chronic traumatic herniaThoracotomy — adhesions between herniated viscera and pleura require careful sharp dissection; direct visualisation essential

Repair principles

  • Primary repair with non-absorbable sutures (polyprolene or braided polyester) — interrupted horizontal mattress technique; full-thickness bites are essential
  • Tension-free closure is mandatory — a tight repair will dehisce
  • Large defects: prosthetic mesh (PTFE or polyprolene) — avoids tension; allows reconstruction of significant tissue loss
  • Diaphragmatic flap (phrenoplasty): pedicled diaphragmatic flap for closure of oesophageal defects and bronchial stump buttress — excellent vascularity makes it ideal for contaminated or irradiated fields
Reconstruction after diaphragm resection

Reconstruction is indicated when resection results in: a defect >50% of the hemidiaphragm · inability to achieve primary closure without tension · large anterior defects. Primary closure with non-absorbable sutures for small defects. Synthetic mesh (PTFE or polyprolene) for large defects. Biological mesh is preferred in infected or contaminated fields. After reconstruction, place a chest drain on the ipsilateral side.

Further reading

All clinical content should be verified against current guidelines before clinical application. This resource is intended for revision and educational purposes only.

Standard textbooks

  • Shields TW, LoCicero J, Reed CE, Feins RH. General Thoracic Surgery. 7th ed. Lippincott Williams & Wilkins.
  • Sellke FW, del Nido PJ, Swanson SJ. Sabiston & Spencer Surgery of the Chest. 9th ed. Elsevier.
  • Pearson FG, et al. Thoracic Surgery. 3rd ed. Churchill Livingstone.

Current guidelines & resources