Neural pathways in the brain’s hippocampus, a complex structure embedded deep into temporal lobe, enables humans to effectively time travel through life memories, a new study reveals.
A team of neuroscientists, Led by researchers at the Brain and Cognition Research Center (CerCo) at the French National Centre for Scientific Research, found these neurons, or time cells, fire during specific moments and may contribute to memory by encoding information about the time and order of events.
While monitoring brain activity in an experiment, researchers said they were able to decode different moments in time based on the activity of the entire group of neurons.
Along with finding this complex process in the brain, the results bring hope to those with conditions that affect memory and the ability to process time, including Alzheimer’s and Dementia, as scientists could soon find a way to treat the neural pathway.
Scroll down for video
While monitoring brain activity in an experiment, researchers said they were able to decode different moments in time based on the activity of the entire group of neurons
Leila Reddy, a neuroscientist who led the research, told VICE: ‘The hippocampus is important for judging the temporal order of events (among other things), and damage to the hippocampus can result in an impairment of memory for temporal order (for example remembering the order of a list of items).
‘It’s therefore important to understand how temporal information is represented in the brain, so as to be able to design interventions or treatments to reduce these deficits in memory.’
Episodic memories involve remembering the ‘what, where, and when’ of past experiences, and scientists now suggests ‘where’ is encoded by time cells in the hippocampus, which fire in response to specific locations.
Rodents have hippocampal neurons that fire in response to specific moments in time, but until recently it was not known if the human brain contained them too.
Along with finding this complex process in the brain, the results bring hope to those with conditions that affect memory and the ability to process time, including Alzheimer’s and Dementia, as scientists could soon find a way to treat the neural pathway
The findings come from an experiment that monitored brain activity in each human participant with epilepsy while they looked at images.
These volunteers had electrodes implanted in their brain, prior to the experiment. Which allowed Reddy and her team to record signal neurons firing.
‘These patients have severe, drug-resistant epilepsy and are awaiting surgery,’ Reddy told VICE.
‘Part of the pre-surgical procedure involves implanting electrodes in the brain to monitor seizure activity.
‘Once the electrodes are inserted in the brain, we ask the patients if they are willing to participate in short experiments for us, and we can record from single neurons to test different hypotheses.’
Participants viewed and memorized a sequence of five to seven images that included pictures of flowers, a bird and former US President Barak Obama.
At random intervals, the participants were quizzed on the next image in the sequence before it resumed.
Neural pathways in the brain’s hippocampus (highlighted), a complex structure embedded deep into temporal lobe, enables humans to time travel through life memories
Brain activity recordings captured time sensitive neurons fired during specific moments in time between quizzes, irrespective of the image.
The neurons still tracked time even during 10-second gaps with no images while the participants waited.
The researchers were able to decode different moments in time based on the activity of the entire group of neurons.
These results demonstrate the human brain contains time-tracking neurons, the researchers concluded in the study published in the Journal of Neuroscience.
Hippocampus is a complex structure that plays a key role in learning, spatial navigation and behavior
Hippocampus is a complex structure embedded deep into temporal lobe and is an important part of the limbic system, which is a cortical region that regulates motivation, emotion, learning and memory.
It has an S-shaped structure within the temporal lobe and is identified as a layer of densely packed neurons.
Hippocampus plays a vital role in regulating learning, memory encoding, memory consolidation and spatial navigation.
Pyramidal cells of the hippocampus play an essential role in classical eye blink conditioning, which is a standard model for studying associative learning.
One of the major functions of hippocampus is forming cognitive map, which is a type of mental representation related to acquisition, coding, storing, recalling and decoding of information on relative locations within a specific environment.
Place cells, a type of pyramidal cell, are mainly involved in hippocampus-mediated spatial navigation.
Hippocampus plays a vital role in flexible and goal-directed behavior, and forms and reconstructs relational memory associated with flexible cognition and social behavior.