Current clinical practices to evaluate sperm morphology require human analysis and chemical staining of the sperm cells which can cause damage. But this new method, from Monash University’s Department of Mechanical and Aerospace Engineering in collaboration with Monash IVF, works on live, unstained sperm, preserving their viability.
The newly published study in Advanced Intelligent Systems, found the AI model could analyse sperm imaging with over 93 per cent accuracy in just a few seconds.
Dr Reza Nosrati said the technology could pave the way for standardised sperm selection through automation in IVF clinical settings.
“The consistency and reliability of our AI model provide unprecedented accuracy in live sperm morphology classification,” Dr Nosrati said.
Ms Sahar Shahali, lead-author of the work and the PhD candidate, said the technology’s adaptability made it a versatile tool for clinics worldwide.
“The technology has been tested and proven to work effectively with images of various resolutions. This means it can be easily integrated into different clinical environments, providing reliable results regardless of the equipment used,” Ms Shahali said. Monash IVF Chief Scientific Officer, Professor Deirdre Zander-Fox, said the technology had potential to make the sperm selection process faster and improve outcomes.
“Sometimes in IVF, embryologists need to inject a single sperm directly into an egg to increase the chances of fertilisation. While they are experts at finding the best sperm for this process – sperm that’s the right shape and size and moves around freely – it can sometimes take hours to sift through a sample to find the best sperm for injection,” Professor Zander-Fox said.
“We believe AI can make the process much faster and give patients improved outcomes, while still allowing our highly trained embryologists to have oversight of the process.”
“Following on from this research, Monash IVF hopes to create an AI algorithm that could be used to power a sperm selection device to guide our embryologist on which sperm to choose at the time of microinjection to help improve IVF outcomes.”
/Public Release.