Fabrizio Lombardi

Fabrizio Lombardi ...Fabrizio Lombardi studied Physics at the University of Naples “Federico II” and received his PhD in Physics from ETH Zurich. After a postdoctoral period at Boston University and at the Institute of Science and Technology Austria, he joined the University of Padova to lead the project BRAINCIP, which aims to explore the functional role of criticality in the brain.

 

External links

Researchgate

Orcid

 

Publications

  1. Huo C, Lombardi F, Blanco-Centurion C, Shiromani PJ, Ivanov PCh. Role of the Locus Coeruleus Arousal Promoting Neurons in Maintaining Brain Criticality across the Sleep–Wake Cycle. The Journal of Neuroscience 44, 35 (2024) [link]
  2. Lombardi F, Hermann HJ, Parrino L, Plenz D, Scarpetta S, Vaudano AE, de Arcangelis L, Shriki O. Beyond pulsed inhibition: Alpha oscillations modulate attenuation and amplification of neural activity in the awake resting-state. Cell Reports 42, 113162 (2023). [ link ] 
  3. Scarpetta S, Morrisi N, Mutti C, Azzi N, Trippi I, Ciliento R, Apicella I, Messuti G, Angiolelli M, Lombardi F, Parrino L, Vaudano AE. Criticality of neuronal avalanches in human sleep and their relationship with sleep macro- and micro-architecture. iScience 26, 107840 (2023). [ link ] 
  4. Lombardi F, Pepić S, Shriki O, Tkačik G, De Martino D. Statistical modeling of adaptive neural networks explains co-existence of avalanches and oscillations in resting human brain. Nat. Comput. Sci. 3, 254-263 (2023). [ link ]
  5. Lombardi F, De Martino D. Oscillations and avalanches coexist in brain networks close to criticality. Nat. Comput. Sci. 3, 194-195 (2023). [ link ]
  6. Lombardi F, Shriki O., Herrmann HJ, de Arcangelis L. Long-range Temporal correlations in Resting-state Brain Activity revealed by Neuronal Avalanches. Neurocomputing 461, 657–666 (2021). [link]
  7. Lombardi F, Gómez-Extremera M, Bernaola-Galvan P, Vetrivelan R, Saper CB, Scammell TE, Ivanov PC. Critical dynamics and coupling in bursts of cortical rhythms indicate non-homeostatic mechanism for sleep-stage transitions and dual role of VLPO neurons in both sleep and wake. The Journal of Neuroscience 40 (1), 171–190 (2020). [ link ]
  8. Rizzo R, Zhang X, Wang JWJL, Lombardi F, Ivanov PC. Network Physiology of Cortico-Muscular Interactions. Frontiers in Physiology 11, 558070 (2020). [ link ]
  9. Lombardi F, Wang JWJL, Zhang X, Ivanov PC. Power-law correlations and coupling of active and quiet states underlie a class of complex systems with self-organization at criticality. EPJ Web of Conferences (2020), 230: 00005. [link]
  10. Wang JWJL, Lombardi F, Zhang X, Anaclet C, and Ivanov PC. Non-equilibrium critical dynamics of bursts in θ and δ rhythms as fundamental characteristic of sleep and wake micro-architecture. PLOS Comput. Biol. 15 (11), e1007268 (2019). [ link ]
  11. Lombardi F, Herrmann HJ, de Arcangelis L. Avalanche dynamics and correlations in neural systems, in: Tomen N., Herrmann J., Ernst U. (eds) The Functional Role of Critical Dynamics in Neural Systems. Springer Series on Bio- and Neurosystems, vol. 11, 1–26. Springer, Cham  (2019). [ link ]
  12. Lombardi F, Herrmann HJ, de Arcangelis L. Balance of excitation and inhibition determines 1/f noise in neuronal networks. Chaos 27, 047402 (2017). [ link ]
  13. Lombardi F, Herrmann HJ, Plenz D, and de Arcangelis L. Temporal correlations in neuronal avalanche occurrence. Nature Scientific Reports 6, 24690 (2016). [ link ]
  14. Lombardi F, Herrmann HJ, Plenz D, and de Arcangelis L, On the temporal organization of neuronal avalanches. Frontiers Syst. Neurosci. 8, 204 (2014). [ link ]
  15. Lombardi F and de Arcangelis L. Temporal organization of ongoing brain activity. Eur. Phys. J. Spec. Top. 223, 2119–2130 (2014). [ link ]
  16. de Arcangelis L, Lombardi F, and Herrmann HJ. Criticality in the brain. J. Stat. Mech. P03026 (2013). [ link ]
  17. Lombardi F, Chialvo DR, Herrmann HJ, and de Arcangelis L. Strobing the brain thunder: Functional correlation of extreme activity events. Chaos, Solitons & Fractals 55, 102–108 (2013). [ link ]
  18. Lombardi F, Herrmann HJ, Perrone-Capano C, Plenz D, and de Arcangelis L. Balance between excitation and inhibition controls the temporal organization of neuronal avalanches. Phys. Rev. Lett. 108, 228703 (2012). [ link ]