Background Life-like end-tidal capnography (ETCO₂) waveforms have been demonstrated in recently deceased and fresh-frozen cadavers following tracheal intubation, offering potential for high fidelity airway simulation training. As the mechanism for carbon dioxide production is not fully understood, it is possible that oesophageal intubation may also generate a capnograph. Our aim was to measure ETCO₂ levels following (1) oesophageal and (2) tracheal intubation in fresh-frozen cadavers, and to observe the size, shape and duration of any capnographic waveform.

Methods Four fresh frozen cadavers underwent oesophageal intubation by an emergency medicine specialist with confirmation by a second specialist. Hand ventilation with room air via a self-inflating resuscitation bag was provided at 12 breaths per minute for 2 min or until ETCO₂ was zero for 10 consecutive breaths. ETCO₂ and waveform morphology were examined and video recorded. The oesophagus was then extubated and the process was repeated for tracheal intubation.

Results In no case was oesophageal ETCO₂ detected. For two cadavers, life-like ETCO₂ waveforms were achieved immediately after tracheal intubation, with maximum ETCO₂ achieved by the second breath. In these cases waveform morphology was normal and persistent.

Conclusions Cadaveric oesophageal intubation did not result in a capnography waveform, simulating live patients. When present, ETCO₂ following tracheal intubation showed normal morphology which was sustained for 2 min. However, ETCO₂ was not present following tracheal intubation in all cadavers. These results represent instrumentation on the cadavers for the first time after thawing and further work should assess the repeatability of the findings with subsequent intubations.