New AIโ Tool Detects Consciousness in Brain Injury โฃPatients Earlier โฃThan Traditional Methods
A new artificial intelligence (AI) tool, calledโ SeeMe, developed by researchers atโ Stony Brook University,โฃ is demonstrating the ability toโค detect โsigns of consciousness in patients with โขacute brain injury andโ comaโฃ days before โclinicians โcan observe physical โขresponses. The โคfindings, โpublished in Nature Communications Medicine, offerโฃ a โpotentialโ breakthrough in diagnosingโข and โฃpredicting recovery outcomesโฃ forโข individualsโ with severe brain trauma.
SeeMe bridges the gap betweenโ a patient’sโค internal awareness and observable physical signs. According โto Dr. Romina Mofakham, senior author โฃof the study and associate โprofessor of neurosurgery andโ electrical and computer engineering โat Stony Brook, “Just because someone can’t move their limbs or speak doesn’t mean thay โaren’t conscious. Our โtool uncovers those hidden โฃphysicalโข efforts โby โฃpatientsโข to show theyโ are conscious.”
The system โutilizes high-resolution video and computer vision to analyze involuntary facial โฃreactions to โขsimple verbal commands,โข such as “open your eyes” or “show meโฃ a smile.” These subtle responses, frequently enough imperceptible to the human eye,โฃ are then processed using machine learning algorithms.
A clinical study involving 37 patientsโฃ with acute brain injury revealed that SeeMe detected purposeful movement an average of four days before the clinical care teamโฃ recognized physical movements. Furthermore,patients who showed early responses detected by SeeMeโ were significantly โขmore likely to regain consciousness and experience โimproved functional outcomesโ upon hospital โdischarge.
“This is not just a โฃnew diagnostic โคtool,it’s a potential prognostic marker,”โข explains Dr. David Mikell,โข neurosurgeon and co-lead investigator. โค He โขemphasizes the value ofโข data-driven insights for familiesโค seeking information about their โloved ones’ recovery prospects, stating, “Families โขoften ask us how long it willโ take for a loved one to wake up, or if โคthey ever โฃwill. This study โขhelps us answer those questions with more confidence, grounded in data,โ not โคjust experience or instinct.”
The researchers highlight the โฃethical implications โฃof accurately identifying consciousness in โTBI patients, โnotingโฃ thatโ misdiagnosis can lead to inappropriate medical decisions, including the withdrawal of care or limited access toโฃ crucial โneurorehabilitation.
SeeMe offers a practical solution to โฃtheโ need โfor objective assessment tools. โคIt isโข noninvasive, inexpensive, and scalable, requiring only โฃa standard camera andโค open-source software – making it accessible even in resource-limited healthcare settings.
Looking ahead, the โteam โขplans toโ conduct larger clinical trials andโค pursue regulatory approval, with the goalโ of โintegrating SeeMe into standard ICU practice โคalongside existing โคmonitoring methods likeโข EEG. They envision aโฃ multi-modal โขplatform that leverages AI to provide a โmoreโข comprehensive understanding of a patient’s neurological state,ultimately โallowing forโข personalized care and optimizedโฃ rehabilitation. Mofakham concludes that SeeMe exemplifies how AI can โคempowerโค patients,โ enabling them to “speak without words” โand regain independence.
The research was funded โbyโ institutional โคseed grants supporting collaboration between the neurosurgery and electrical and computer engineering departments at Stony Brook University.
