Cookies on this website
We use cookies to ensure that we give you the best experience on our website. If you click 'Continue' we'll assume that you are happy to receive all cookies and you won't see this message again. Click 'Find out more' for information on how to change your cookie settings.

Researchers have developed a non-invasive means to measure pain-related brain activity, which could help to reduce pain in babies undergoing medical procedures.

Baby 1

One of the major challenges to assessing and managing pain in very young children is that they are unable to articulate their feelings. Instead, paediatricians must rely on observations of facial expressions or heart rates to infer whether babies are experiencing pain.

What’s more, administering pain relief can be problematic in small children because analgesics that are effective for adults might not be suitable for infants, who metabolise drugs differently – making the correct dosage difficult to calculate.

In order to determine a better metric of pain, Caroline HartleyRebeccah Slater, and colleagues from the University of Oxford and Great Ormond Street Hospital established a measurement of pain-related brain activity based on electroencephalographic (EEG) recordings of brain activity.

The researchers derived the EEG signature in a study of 18 infants undergoing a routine and clinically-necessary heel-lance procedure for newborn blood screening, then went on to validate their results in four additional studies of 72 babies in total.

The EEG signature was validated for use in babies born preterm, correlated with traditional methods (i.e. facial grimacing) used  to infer infant pain and was distinct from brain activity changes associated with non-painful stimuli like a flash of light, a gentle touch, or an auditory tone.

The measure was reduced when local anaesthetic was placed on the babies skin, confirming that the measure can be used to test pain relieving drugs in infants.

 

The full article: 'Nociceptive brain activity as a measure of analgesic efficacy in infants' can be read in the journal Science Translational Medicine.