We describe the aspiration of a traumatic haemopneumothorax and an unexpected anteroposterior chest radiograph finding after the procedure. Chest aspiration is now routine emergency management for spontaneous pneumothorax. There have been no previous documented reports of this clinical scenario of radiological deterioration with clinical improvement after aspiration of a haemopneumothorax.
- Chest x ray
Statistics from Altmetric.com
A 92 year old man with moderate dementia presented to the emergency department after a fall that morning in his nursing home. Radiographic investigation confirmed left sided rib fractures but no pneumothorax. He was discharged back to the nursing home. He returned 4 days later with increasing dyspnoea and continuing chest wall pain, despite paracetamol and ibuprofen analgesia. Examination findings included bilateral coarse crepitations that were worse on the left side, hyper-resonance on the left side, and decreased air entry. The anteroposterior chest radiograph was repeated and demonstrated a pneumothorax of approximately 80%1 on the left side with a small haemothorax (fig 1A). There was no history of a further fall; however, the patient remained confused and noncompliant.
The medical team felt that standard treatment for traumatic pneumothorax (28 Fr drain in the fifth intercostal space) would not be well tolerated, owing to his confusion. A different approach was proposed and was accepted by the family. Thus, 800 ml of air were successfully aspirated from the second intercostal space, midclavicular line, using a 16 Fr cannula. This was confirmed by improvement in documented air entry and of oxygen saturation (on 15 litres of oxygen) from 93% to 96%.
The repeat radiograph demonstrated a fluid level in the left lung field extending up to the third rib posteriorly. This appearance was suggestive of a massive haemothorax (fig 1B). The patient’s pulse, blood pressure, respiratory rate, and oxygen saturation remained stable, before and after this investigation.
Repeated clinical examination by three senior doctors, (two consultants and a specialist registrar) confirmed dullness and decreased air entry only at the left base. This contradicted the radiological findings that suggested mid or upper zone involvement of the haemothorax. The chest radiograph was repeated the next day (fig 1C) and showed almost complete re-expansion with a small haemothorax at the left lung base. No physiotherapy or other interventions occurred. The patient’s respiratory rate and oxygen saturations remained unchanged.
Manual aspiration is a proven management for spontaneous pneumothorax.2,3 The technique of choice for a traumatic pneumothorax is intercostal tube thoracostomy. This was not deemed feasible or safe in this confused elderly man. Outpatient management of spontaneous pneumothorax by small gauge chest drain with a flutter valve has also been used successfully.4,5
On review of the literature there have been no similar cases reported where radiological appearances have deteriorated in this manner following chest aspiration.
Possible explanations for the radiographic appearance of apparent massive haemothorax in our patient include:
Failure of expansion of the lung with a raised left diaphragm following aspiration. There is one previous report in the literature of failure of expansion.10 Our patient’s chest was resonant to percussion, with good air entry in the middle and upper zones, after the aspiration.
Our favoured theory: Archimedean*. As the lung re-expanded, the serosanguinous collection in the costodiaphragmatic gutter (from the fractured ribs) was displaced superiorly in the pleural space, giving the appearance of an acute haemothorax.
We believe this case clearly demonstrates the old adage of treating the patient and not the radiograph, and we use first principles (as all scientists should) to support our hypothesis.
We thank Dr S Anheuser, who examined the patient, Dr S England for his radiology opinion, and Dr J O’Connell for her suggestions for improvement.
↵* Although many of mankind’s discoveries were the result of serendipity, the first recorded example of an accidental discovery took place in third century BC Greece. The king of Syracuse, Hiero, suspected his new gold crown was not pure gold. He called on the services of the mathematician Archimedes to lay his fears to rest. Archimedes knew that to determine what the crown was made of, he would need to work out the volume of an irregular solid. When he stepped into the bath, he noticed water spilling over the top, and suddenly realised that the volume of the spilt water was equal to his bulk, thus, if he put the crown into water, he could find its volume. If he then put a block of pure gold the same weight as the crown into water, and the volume was the same, it would prove the crown was gold, not an alloy. According to the story, Archimedes was so excited, he jumped out the bath and ran naked through the streets of Syracuse shouting "Eureka, eureka!" – "I’ve found it!"
Competing interests: there are no competing interests
If you wish to reuse any or all of this article please use the link below which will take you to the Copyright Clearance Center’s RightsLink service. You will be able to get a quick price and instant permission to reuse the content in many different ways.