We think NMR metabolomics has a great potential to study post-mortem changes, but we need further studies to complete the whole picture and understand what is happening beyond the first 24 hours. This proof-of concept work opens the doors to a new field of research, Thanatometabolomics, that could be employed – paradoxically – to improve the lives of people.Dr Marina Mora-Ortiz
05 March 2019
Life after death? Measuring metabolism beyond the grave
Research points to new method to help forensic scientists determine time of death
Researchers have provided early evidence for a new method that could help forensic scientists determine time of death more accurately in criminal investigations.
The team found that the levels of certain molecules in organs such as the heart, kidney and liver in mice change in particular patterns after death.
These patterns could one day be used by forensic investigators to work out more accurately when someone died, according to the researchers.
Why did they do this research?
Although rare, it’s not always possible to work out when exactly someone has died.
Forensic scientists working on criminal investigations, for example, have to rely on a number of different physical tests and checks to estimate time of death.
In 2016, researchers were surprised to find that hundreds of genes actually increase their activity in the days after death.
Dr Mora-Ortiz and her colleagues therefore decided to see whether there are also changes in the levels of certain molecules involved in metabolism – known as metabolites – in the body after death.
What did they do?
The team studied the heart, kidney, liver, spleen, skin and fat of 10 mice at three different time points after death, up to 24 hours.
The researchers used a powerful technique known as NMR spectroscopy to determine the levels of certain metabolites in each of these body parts.
What did they find?
The team identified 43 metabolites linked with post-mortem changes.
The spleen, heart and kidneys had the most changes in metabolite levels over the 24-hour period.
The liver and skin however were less affected, which suggests that these organs are more resistant to degradation after death.
What does this mean?
These results are early evidence that the NMR spectroscopy technique could be used to help analyse changes in organs after death, and one day help forensics teams in their investigations.
In the future, doctors could also use this method to check the quality of donated organs in more detail, and so improve outcomes for transplant recipients.
What’s the next step?
As this work was carried out in mice, the next step will be to see if the same method can accurately capture changes in metabolites and time of death in humans.