Ege Kingir
@ege-kingir.bsky.social
PhD candidate at the Heart and Brain Center Göttingen.
Trying to understand the influence of the heart on visual perception.
Trying to understand the influence of the heart on visual perception.
an interesting perspective to show that respiratory phase alignment is not just coincidental or due to the "rhythm" of repeated trials
The alignment of respiration to sensory-motor events is shaped by expected effort. https://www.biorxiv.org/content/10.1101/2025.09.24.678231v1
September 26, 2025 at 6:04 PM
an interesting perspective to show that respiratory phase alignment is not just coincidental or due to the "rhythm" of repeated trials
📰 SUMMARY OF OUR NEW PRE-PRINT 📰
Anticipatory Cardiac Deceleration (ACD) is a temporary slowing down of the heart during the anticipation of task-relevant events.
ACD is typically calculated from the amount of increase in R-R intervals on the ECG signal, which is fair enough...
Anticipatory Cardiac Deceleration (ACD) is a temporary slowing down of the heart during the anticipation of task-relevant events.
ACD is typically calculated from the amount of increase in R-R intervals on the ECG signal, which is fair enough...
Disentangling Respiratory Phase-Dependent and Anticipatory Cardiac Deceleration in a Visual Perception Task https://www.biorxiv.org/content/10.1101/2025.08.15.670501v1
August 25, 2025 at 10:14 AM
📰 SUMMARY OF OUR NEW PRE-PRINT 📰
Anticipatory Cardiac Deceleration (ACD) is a temporary slowing down of the heart during the anticipation of task-relevant events.
ACD is typically calculated from the amount of increase in R-R intervals on the ECG signal, which is fair enough...
Anticipatory Cardiac Deceleration (ACD) is a temporary slowing down of the heart during the anticipation of task-relevant events.
ACD is typically calculated from the amount of increase in R-R intervals on the ECG signal, which is fair enough...
Reposted by Ege Kingir
🚨 We’re running a short self-report study on how BREATHING interacts with your daily life 🫁🌍
We're struggling to find participants and would truly appreciate your help; it only takes a few minutes.
👉 You can participate here: shorturl.at/rwwXc
🙏 Feel free to share the link with others. Thank you!
We're struggling to find participants and would truly appreciate your help; it only takes a few minutes.
👉 You can participate here: shorturl.at/rwwXc
🙏 Feel free to share the link with others. Thank you!
Breathing Through Your Day: A Brief Reflection Survey
You move, interact, speak, listen, think, and feel. Life unfolds through a rich variety of experiences and tasks.
test.uib.es
July 25, 2025 at 8:17 AM
🚨 We’re running a short self-report study on how BREATHING interacts with your daily life 🫁🌍
We're struggling to find participants and would truly appreciate your help; it only takes a few minutes.
👉 You can participate here: shorturl.at/rwwXc
🙏 Feel free to share the link with others. Thank you!
We're struggling to find participants and would truly appreciate your help; it only takes a few minutes.
👉 You can participate here: shorturl.at/rwwXc
🙏 Feel free to share the link with others. Thank you!
🎊 Final version is finally out on Consciousness and Cognition as open-access 🎊
doi.org/10.1016/j.co...
As a lucky coincidence, this means I also get to celebrate my birthday with the first publication of my PhD 🙂
doi.org/10.1016/j.co...
As a lucky coincidence, this means I also get to celebrate my birthday with the first publication of my PhD 🙂
📰 New Pre-Print 📰
[1/9]
There is an increasing interest to study spontaneous transitions in the contents of visual consciousness.
Here, we test the suitability of a novel no-report binocular rivalry paradigm, originally developed by Hesse & Tsao (2020), to study such transitions.
[1/9]
There is an increasing interest to study spontaneous transitions in the contents of visual consciousness.
Here, we test the suitability of a novel no-report binocular rivalry paradigm, originally developed by Hesse & Tsao (2020), to study such transitions.
Fixation shifts in a novel 'no-report' binocular rivalry paradigm induce saccade-related perceptual switches https://www.biorxiv.org/content/10.1101/2025.02.09.637085v1
June 10, 2025 at 4:51 AM
🎊 Final version is finally out on Consciousness and Cognition as open-access 🎊
doi.org/10.1016/j.co...
As a lucky coincidence, this means I also get to celebrate my birthday with the first publication of my PhD 🙂
doi.org/10.1016/j.co...
As a lucky coincidence, this means I also get to celebrate my birthday with the first publication of my PhD 🙂
I'm extremely honoured to receive the Young Scientist Award at the MindBrainBody Symposium this year! 🎊
Big thanks to @mpicbs.bsky.social and everyone involved in the organization!!
Already looking forward to share results from my upcoming experiments in the next edition of #MBBS
#MBBS25
Big thanks to @mpicbs.bsky.social and everyone involved in the organization!!
Already looking forward to share results from my upcoming experiments in the next edition of #MBBS
#MBBS25
March 12, 2025 at 7:48 PM
I'm extremely honoured to receive the Young Scientist Award at the MindBrainBody Symposium this year! 🎊
Big thanks to @mpicbs.bsky.social and everyone involved in the organization!!
Already looking forward to share results from my upcoming experiments in the next edition of #MBBS
#MBBS25
Big thanks to @mpicbs.bsky.social and everyone involved in the organization!!
Already looking forward to share results from my upcoming experiments in the next edition of #MBBS
#MBBS25
📰 New Pre-Print 📰
[1/9]
There is an increasing interest to study spontaneous transitions in the contents of visual consciousness.
Here, we test the suitability of a novel no-report binocular rivalry paradigm, originally developed by Hesse & Tsao (2020), to study such transitions.
[1/9]
There is an increasing interest to study spontaneous transitions in the contents of visual consciousness.
Here, we test the suitability of a novel no-report binocular rivalry paradigm, originally developed by Hesse & Tsao (2020), to study such transitions.
Fixation shifts in a novel 'no-report' binocular rivalry paradigm induce saccade-related perceptual switches https://www.biorxiv.org/content/10.1101/2025.02.09.637085v1
February 11, 2025 at 12:07 PM
📰 New Pre-Print 📰
[1/9]
There is an increasing interest to study spontaneous transitions in the contents of visual consciousness.
Here, we test the suitability of a novel no-report binocular rivalry paradigm, originally developed by Hesse & Tsao (2020), to study such transitions.
[1/9]
There is an increasing interest to study spontaneous transitions in the contents of visual consciousness.
Here, we test the suitability of a novel no-report binocular rivalry paradigm, originally developed by Hesse & Tsao (2020), to study such transitions.