RT @BioTay: 1/2 La cognición es cara Aquellas regiones del cerebro más conectadas, o con mayor actividad, consumen mucha más glucosa; hast…
RT @BioTay: 1/2 La cognición es cara Aquellas regiones del cerebro más conectadas, o con mayor actividad, consumen mucha más glucosa; hast…
RT @BioTay: 1/2 La cognición es cara Aquellas regiones del cerebro más conectadas, o con mayor actividad, consumen mucha más glucosa; hast…
RT @BioTay: 1/2 La cognición es cara Aquellas regiones del cerebro más conectadas, o con mayor actividad, consumen mucha más glucosa; hast…
RT @BioTay: 1/2 La cognición es cara Aquellas regiones del cerebro más conectadas, o con mayor actividad, consumen mucha más glucosa; hast…
RT @BioTay: 1/2 La cognición es cara Aquellas regiones del cerebro más conectadas, o con mayor actividad, consumen mucha más glucosa; hast…
RT @BioTay: 1/2 La cognición es cara Aquellas regiones del cerebro más conectadas, o con mayor actividad, consumen mucha más glucosa; hast…
RT @BioTay: 1/2 La cognición es cara Aquellas regiones del cerebro más conectadas, o con mayor actividad, consumen mucha más glucosa; hast…
RT @BioTay: 1/2 La cognición es cara Aquellas regiones del cerebro más conectadas, o con mayor actividad, consumen mucha más glucosa; hast…
RT @BioTay: 1/2 La cognición es cara Aquellas regiones del cerebro más conectadas, o con mayor actividad, consumen mucha más glucosa; hast…
Ley Cerebral Más conectividad cerebral + Consumo de energía
RT @BioTay: 1/2 La cognición es cara Aquellas regiones del cerebro más conectadas, o con mayor actividad, consumen mucha más glucosa; hast…
RT @BioTay: 1/2 La cognición es cara Aquellas regiones del cerebro más conectadas, o con mayor actividad, consumen mucha más glucosa; hast…
RT @BioTay: 1/2 La cognición es cara Aquellas regiones del cerebro más conectadas, o con mayor actividad, consumen mucha más glucosa; hast…
RT @leafs_s: Science Advances An energy costly architecture of neuromodulators for human brain evolution and cognition https://t.co/FfC3v…
RT @BioTay: 1/2 La cognición es cara Aquellas regiones del cerebro más conectadas, o con mayor actividad, consumen mucha más glucosa; hast…
RT @BioTay: 1/2 La cognición es cara Aquellas regiones del cerebro más conectadas, o con mayor actividad, consumen mucha más glucosa; hast…
RT @BioTay: 1/2 La cognición es cara Aquellas regiones del cerebro más conectadas, o con mayor actividad, consumen mucha más glucosa; hast…
RT @BioTay: 1/2 La cognición es cara Aquellas regiones del cerebro más conectadas, o con mayor actividad, consumen mucha más glucosa; hast…
RT @BioTay: 1/2 La cognición es cara Aquellas regiones del cerebro más conectadas, o con mayor actividad, consumen mucha más glucosa; hast…
RT @BioTay: 1/2 La cognición es cara Aquellas regiones del cerebro más conectadas, o con mayor actividad, consumen mucha más glucosa; hast…
RT @BioTay: 1/2 La cognición es cara Aquellas regiones del cerebro más conectadas, o con mayor actividad, consumen mucha más glucosa; hast…
RT @BioTay: 1/2 La cognición es cara Aquellas regiones del cerebro más conectadas, o con mayor actividad, consumen mucha más glucosa; hast…
RT @BioTay: 1/2 La cognición es cara Aquellas regiones del cerebro más conectadas, o con mayor actividad, consumen mucha más glucosa; hast…
RT @BioTay: 1/2 La cognición es cara Aquellas regiones del cerebro más conectadas, o con mayor actividad, consumen mucha más glucosa; hast…
1/2 La cognición es cara Aquellas regiones del cerebro más conectadas, o con mayor actividad, consumen mucha más glucosa; hasta un 67% más si comparamos los lóbulos frontales (toma de decisiones, resolución de problemas) con las sensoriomotoras (paper)
@chiw00k 잼난 논문(생화학과 약간 연관?)이 나왔네요 - 인간 두뇌는 5W 정도의 LED 전구를 켜면서 ‘과열’ 로 망하지 않죠. 요번에 자동 과열 제어장치가 있고 잘 작동하는지 나오네요. 진화로 불어버린 놈들의 시냅스 시그널링 가격을 운동이나 감각보다 67% 높였습니다. https://t.co/ZykZGxadlK
RT @leafs_s: Science Advances An energy costly architecture of neuromodulators for human brain evolution and cognition https://t.co/FfC3v…
RT @leafs_s: Science Advances An energy costly architecture of neuromodulators for human brain evolution and cognition https://t.co/FfC3v…
RT @vavatin: @ScienceAdvances published our paper in which we asked: "Where does all the sugar go in the brain?" ...it's less the size of t…
RT @vavatin: @ScienceAdvances published our paper in which we asked: "Where does all the sugar go in the brain?" ...it's less the size of t…
RT @vavatin: @ScienceAdvances published our paper in which we asked: "Where does all the sugar go in the brain?" ...it's less the size of t…
Fascinating paper and thread- also so very intriguing that GPCR signaling contributes strongly to the heightened energetic demand
Yes
RT @zenbrainest: GPCRs an essential component!
RT @Decety: The evolution of human cognition may have emerged not only from an overall larger brain, but by the development of slow-acting…
RT @leafs_s: Science Advances An energy costly architecture of neuromodulators for human brain evolution and cognition https://t.co/FfC3v…
https://t.co/ZykZGxadlK 호두의 가열 방지법 - 진화로 큰 부위의 시그널링에 패널티를 준다.
RT @Decety: The evolution of human cognition may have emerged not only from an overall larger brain, but by the development of slow-acting…
RT @leafs_s: Science Advances An energy costly architecture of neuromodulators for human brain evolution and cognition https://t.co/FfC3v…
RT @leafs_s: Science Advances An energy costly architecture of neuromodulators for human brain evolution and cognition https://t.co/FfC3v…
This is a fascinating paper!
RT @leafs_s: Science Advances An energy costly architecture of neuromodulators for human brain evolution and cognition https://t.co/FfC3v…
RT @leafs_s: Science Advances An energy costly architecture of neuromodulators for human brain evolution and cognition https://t.co/FfC3v…
RT @leafs_s: Science Advances An energy costly architecture of neuromodulators for human brain evolution and cognition https://t.co/FfC3v…
RT @Decety: The evolution of human cognition may have emerged not only from an overall larger brain, but by the development of slow-acting…
RT @leafs_s: Science Advances An energy costly architecture of neuromodulators for human brain evolution and cognition https://t.co/FfC3v…
GPCRs an essential component!
RT @leafs_s: Science Advances An energy costly architecture of neuromodulators for human brain evolution and cognition https://t.co/FfC3v…
RT @thmonk_pf: ヒト脳の高Energy消費率(HECR)は特定のsignal伝達mechanismが関与 PET/fMRI同時測定と受容体分布で検証 CMRgluとsfMRI FCは相関 前頭側頭は感覚運動野よりHECRが67%高 HECR領域ではsynaps…
An energy costly architecture of neuromodulators for human brain evolution and cognition | Science Advances https://t.co/G4er38cVZj
RT @leafs_s: Science Advances An energy costly architecture of neuromodulators for human brain evolution and cognition https://t.co/FfC3v…
RT @vavatin: @ScienceAdvances published our paper in which we asked: "Where does all the sugar go in the brain?" ...it's less the size of t…
RT @leafs_s: Science Advances An energy costly architecture of neuromodulators for human brain evolution and cognition https://t.co/FfC3v…
RT @vavatin: @ScienceAdvances published our paper in which we asked: "Where does all the sugar go in the brain?" ...it's less the size of t…
RT @Decety: The evolution of human cognition may have emerged not only from an overall larger brain, but by the development of slow-acting…
RT @leafs_s: Science Advances An energy costly architecture of neuromodulators for human brain evolution and cognition https://t.co/FfC3v…
RT @Decety: The evolution of human cognition may have emerged not only from an overall larger brain, but by the development of slow-acting…
RT @vavatin: @ScienceAdvances published our paper in which we asked: "Where does all the sugar go in the brain?" ...it's less the size of t…
RT @leafs_s: Science Advances An energy costly architecture of neuromodulators for human brain evolution and cognition https://t.co/FfC3v…
Science Advances An energy costly architecture of neuromodulators for human brain evolution and cognition https://t.co/FfC3vQWnyl
RT @thmonk_pf: ヒト脳の高Energy消費率(HECR)は特定のsignal伝達mechanismが関与 PET/fMRI同時測定と受容体分布で検証 CMRgluとsfMRI FCは相関 前頭側頭は感覚運動野よりHECRが67%高 HECR領域ではsynaps…
RT @thmonk_pf: ヒト脳の高Energy消費率(HECR)は特定のsignal伝達mechanismが関与 PET/fMRI同時測定と受容体分布で検証 CMRgluとsfMRI FCは相関 前頭側頭は感覚運動野よりHECRが67%高 HECR領域ではsynaps…
RT @Decety: The evolution of human cognition may have emerged not only from an overall larger brain, but by the development of slow-acting…
ヒト脳の高Energy消費率(HECR)は特定のsignal伝達mechanismが関与 PET/fMRI同時測定と受容体分布で検証 CMRgluとsfMRI FCは相関 前頭側頭は感覚運動野よりHECRが67%高 HECR領域ではsynapse関連遺伝子/neuromodulation受容体活性↑ #energy_cost #neuroodulator #papers https://t.co/S2Ec5UYECb https://t.co/OQDia0rleD
RT @Decety: The evolution of human cognition may have emerged not only from an overall larger brain, but by the development of slow-acting…
RT @DoctorKarl: "In comparison to other species, human brain exhibits one of the highest energy demands relative to body metabolism. that…
RT @vavatin: @ScienceAdvances published our paper in which we asked: "Where does all the sugar go in the brain?" ...it's less the size of t…
RT @Decety: The evolution of human cognition may have emerged not only from an overall larger brain, but by the development of slow-acting…
"In comparison to other species, human brain exhibits one of the highest energy demands relative to body metabolism. that signaling pathways in evolutionarily expanded regions have up to 67% higher energetic costs than those in sensory-motor regions." htt
RT @Decety: The evolution of human cognition may have emerged not only from an overall larger brain, but by the development of slow-acting…
RT @Decety: The evolution of human cognition may have emerged not only from an overall larger brain, but by the development of slow-acting…
RT @vavatin: @ScienceAdvances published our paper in which we asked: "Where does all the sugar go in the brain?" ...it's less the size of t…
دراسةاستخدمت PET-MRI وجدت 67%من الطاقةتُستهلك من مناطق الدماغ Fronto-parietal cortex المعنيةبالوظائف الادراكيةالعليامثل حل المشكلات واتخاذالقرار يعني ان تطورنا الادراكي مرتبط the development of slow-acting neuromodulator circuits وانتاج سيروتونين ودوبامين
RT @Decety: The evolution of human cognition may have emerged not only from an overall larger brain, but by the development of slow-acting…
RT @Decety: The evolution of human cognition may have emerged not only from an overall larger brain, but by the development of slow-acting…
RT @Decety: The evolution of human cognition may have emerged not only from an overall larger brain, but by the development of slow-acting…
RT @vavatin: @ScienceAdvances published our paper in which we asked: "Where does all the sugar go in the brain?" ...it's less the size of t…
RT @vavatin: @ScienceAdvances published our paper in which we asked: "Where does all the sugar go in the brain?" ...it's less the size of t…
RT @Decety: The evolution of human cognition may have emerged not only from an overall larger brain, but by the development of slow-acting…
RT @vavatin: @ScienceAdvances published our paper in which we asked: "Where does all the sugar go in the brain?" ...it's less the size of t…
RT @vavatin: @ScienceAdvances published our paper in which we asked: "Where does all the sugar go in the brain?" ...it's less the size of t…
RT @vavatin: @ScienceAdvances published our paper in which we asked: "Where does all the sugar go in the brain?" ...it's less the size of t…
RT @vavatin: @ScienceAdvances published our paper in which we asked: "Where does all the sugar go in the brain?" ...it's less the size of t…
RT @vavatin: @ScienceAdvances published our paper in which we asked: "Where does all the sugar go in the brain?" ...it's less the size of t…
RT @vavatin: @ScienceAdvances published our paper in which we asked: "Where does all the sugar go in the brain?" ...it's less the size of t…
An energy costly architecture of neuromodulators for human brain evolution and cognition | Science Advances https://t.co/0pFxzR3FAG
RT @Decety: The evolution of human cognition may have emerged not only from an overall larger brain, but by the development of slow-acting…
The evolution of human cognition may have emerged not only from an overall larger brain, but by the development of slow-acting neuromodulator circuits. https://t.co/G4SPDiVVAu
RT @vavatin: @ScienceAdvances published our paper in which we asked: "Where does all the sugar go in the brain?" ...it's less the size of t…
RT @MU_Peter: This study suggests that an up-regulation of neuromodulator activity, alongside increased brain size, is a crucial aspect of…
RT @vavatin: @ScienceAdvances published our paper in which we asked: "Where does all the sugar go in the brain?" ...it's less the size of t…
This study suggests that an up-regulation of neuromodulator activity, alongside increased brain size, is a crucial aspect of human brain evolution. https://t.co/p7V5WdwcuQ
RT @vavatin: @ScienceAdvances published our paper in which we asked: "Where does all the sugar go in the brain?" ...it's less the size of t…
[Sci. Adv.] An energy costly architecture of neuromodulators for human brain evolution and cognition https://t.co/iqi6ILg7s1
RT @vavatin: @ScienceAdvances published our paper in which we asked: "Where does all the sugar go in the brain?" ...it's less the size of t…
RT @JRBneuropsiq: Energetic costs of signaling and cognition in the human brain 👇🏼 https://t.co/zHYdN1ueNM
RT @vavatin: @ScienceAdvances published our paper in which we asked: "Where does all the sugar go in the brain?" ...it's less the size of t…
The human brain has exceptionally high metabolic demands compared with other species, accounting for roughly 20% of the body’s energy consumption. A new study links these energy demands with more complex cognitive circuitry—not just bigger brain size. ht
RT @vavatin: @ScienceAdvances published our paper in which we asked: "Where does all the sugar go in the brain?" ...it's less the size of t…