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The Morphospace of Consciousness: Three Kinds of Complexity for Minds and Machines
 
 
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Editorial

Featured Papers in NeuroSci

by
Xavier Gallart-Palau
1,2,3
1
Biomedical Research Institute of Lleida Dr. Pifarré Foundation (IRB Lleida), Neuroscience Area, +Pec Proteomics Research Group (+PPRG), University Hospital Arnau de Vilanova (HUAV), 25198 Lleida, Spain
2
Faculty of Medicine, University of Lleida, 25198 Lleida, Spain
3
Department of Psychology, University of Lleida, 25198 Lleida, Spain
NeuroSci 2023, 4(2), 103-104; https://doi.org/10.3390/neurosci4020010
Submission received: 21 April 2023 / Accepted: 25 April 2023 / Published: 30 April 2023
(This article belongs to the Collection Feature Papers in NeuroSci: From Consciousness to Clinical Neurology)
Versions Notes
In this topical collection, Arsiwalla et al. discuss the viability of the morphospace construct to unite artificial intelligence concepts with biological agents to analyze and explore consciousness [1]. In the same vein, Pereira et al. discuss what makes neuronal organoids sentient from the perspective of sentiomics and the potential involvement of brain stimulation [2]. Liwicki et al. assess the replicability of subject-dependent and -independent methods of inner speech decoding [3].
Kieran Greer proposes an evolutionary model to explain the neural correlates that may sustain intelligence and adaptation, from invertebrates to the human brain [4]. Using comparative neuroscience, Peguero et al. investigate how neuronal tissue from zebrafish can be maintained ex vivo and how it responds molecularly to neuronal insult, with applicability in human neuronal regeneration [5]. Ison et al. use crustacean neurons to investigate the effects of Doxapram on neuronal channels, a platform that can potentially be extrapolated to investigate the effects of several other drugs on neuronal channels [6]. Carvalho et al. explore the alcohol addictive effects in rats that have experienced early life stressful events [7]. Kiffmeier et al. analyze the sex-dependent implications of the cerebellum on the learning process in autism model BTBR mice [8].
Relevant studies involving human subjects and specific clinical populations have also been included in this book. Valdez et al. investigate single neuron response to human face image processing [9], dePace et al. investigate autonomic neuropathies [10], Lentoor et al. explore neurocognitive domains in obesity [11], Gallo et al. look at bilateral facial palsy at the onset of neurosarcoidosis [12], Colombo et al. analyze the neuromodulation of dysautonomia in long COVID patients [13], Tan el al. assess the safety of the use of fluorescein sodium in pediatric neurosurgery [14], and Tariciotti et al. design a deep learning model with clinical applicability in brain tumor classification [15]. Finally, Handle et al. perform an interesting literature review to identify the most relevant findings linking handwriting product patterns to the specific cognitive and behavioral idiosyncrasies of subjects affected by autism spectrum disorder [16].

Conflicts of Interest

The author declares no conflict of interest.

References

  1. Arsiwalla, X.D.; Solé, R.; Moulin-Frier, C.; Herreros, I.; Sánchez-Fibla, M.; Verschure, P. The Morphospace of Consciousness: Three Kinds of Complexity for Minds and Machines. NeuroSci 2023, 4, 79–102. [Google Scholar] [CrossRef]
  2. Pereira, A.; Garcia, J.W.; Muotri, A. Neural Stimulation of Brain Organoids with Dynamic Patterns: A Sentiomics Approach Directed to Regenerative Neuromedicine. NeuroSci 2023, 4, 31–42. [Google Scholar] [CrossRef]
  3. Simistira Liwicki, F.; Gupta, V.; Saini, R.; De, K.; Liwicki, M. Rethinking the Methods and Algorithms for Inner Speech Decoding and Making Them Reproducible. NeuroSci 2022, 3, 226–244. [Google Scholar] [CrossRef]
  4. Greer, K. Neural Assemblies as Precursors for Brain Function. NeuroSci 2022, 3, 645–655. [Google Scholar] [CrossRef]
  5. Peguero, R.L.; Bell, N.A.; Bimbo-Szuhai, A.; Roach, K.D.; Fulop, Z.L.; Corbo, C.P. Ultrastructural Analysis of a Forming Embryonic Embodiment in the Adult Zebrafish Optic Tectum Surviving in Organotypic Culture. NeuroSci 2022, 3, 186–199. [Google Scholar] [CrossRef]
  6. Ison, B.J.; Abul-Khoudoud, M.O.; Ahmed, S.; Alhamdani, A.W.; Ashley, C.; Bidros, P.C.; Bledsoe, C.O.; Bolton, K.E.; Capili, J.G.; Henning, J.N.; et al. The Effect of Doxapram on Proprioceptive Neurons: Invertebrate Model. NeuroSci 2022, 3, 566–588. [Google Scholar] [CrossRef]
  7. Carvalho, M.; Morais-Silva, G.; Caixeta, G.A.B.; Marin, M.T.; Amaral, V.C.S. Alcohol Deprivation Differentially Changes Alcohol Intake in Female and Male Rats Depending on Early Life Stressful Experience. NeuroSci 2022, 3, 214–225. [Google Scholar] [CrossRef]
  8. Kiffmeyer, E.A.; Cosgrove, J.A.; Siganos, J.K.; Bien, H.E.; Vipond, J.E.; Vogt, K.R.; Kloth, A.D. Deficits in Cerebellum-Dependent Learning and Cerebellar Morphology in Male and Female BTBR Autism Model Mice. NeuroSci 2022, 3, 624–644. [Google Scholar] [CrossRef]
  9. Valdez, A.B.; Papesh, M.H.; Treiman, D.M.; Goldinger, S.D.; Steinmetz, P.N. Encoding of Race Categories by Single Neurons in the Human Brain. NeuroSci 2022, 3, 419–439. [Google Scholar] [CrossRef]
  10. DePace, N.L.; Santos, L.; Munoz, R.; Ahmad, G.; Verma, A.; Acosta, C.; Kaczmarski, K.; DePace, N.; Goldis, M.E.; Colombo, J. Parasympathetic and Sympathetic Monitoring Identifies Earliest Signs of Autonomic Neuropathy. NeuroSci 2022, 3, 408–418. [Google Scholar] [CrossRef]
  11. Lentoor, A.G. Obesity and Neurocognitive Performance of Memory, Attention, and Executive Function. NeuroSci 2022, 3, 376–386. [Google Scholar] [CrossRef]
  12. Gallo, C.; Mazzini, L.; Varrasi, C.; Vecchio, D.; Virgilio, E.; Cantello, R. Bilateral Facial Palsy as the Onset of Neurosarcoidosis: A Case Report and a Revision of Literature. NeuroSci 2022, 3, 321–331. [Google Scholar] [CrossRef]
  13. Colombo, J.; Weintraub, M.I.; Munoz, R.; Verma, A.; Ahmad, G.; Kaczmarski, K.; Santos, L.; DePace, N.L. Long COVID and the Autonomic Nervous System: The Journey from Dysautonomia to Therapeutic Neuro-Modulation through the Retrospective Analysis of 152 Patients. NeuroSci 2022, 3, 300–310. [Google Scholar] [CrossRef]
  14. Tan, A.J.L.; Tey, M.L.; Seow, W.T.; Low, D.C.Y.; Chang, K.T.E.; Ng, L.P.; Looi, W.S.; Wong, R.X.; Tan, E.E.K.; Low, S.Y.Y. Intraoperative Fluorescein Sodium in Pediatric Neurosurgery: A Preliminary Case Series from a Singapore Children’s Hospital. NeuroSci 2023, 4, 54–64. [Google Scholar]
  15. Tariciotti, L.; Ferlito, D.; Caccavella, V.M.; Di Cristofori, A.; Fiore, G.; Remore, L.G.; Giordano, M.; Remoli, G.; Bertani, G.; Borsa, S.; et al. A Deep Learning Model for Preoperative Differentiation of Glioblastoma, Brain Metastasis, and Primary Central Nervous System Lymphoma: An External Validation Study. NeuroSci 2023, 4, 18–30. [Google Scholar] [CrossRef]
  16. Handle, H.C.; Feldin, M.; Pilacinski, A. Handwriting in Autism Spectrum Disorder: A Literature Review. NeuroSci 2022, 3, 558–565. [Google Scholar] [CrossRef]
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Gallart-Palau, X. Featured Papers in NeuroSci. NeuroSci 2023, 4, 103-104. https://doi.org/10.3390/neurosci4020010

AMA Style

Gallart-Palau X. Featured Papers in NeuroSci. NeuroSci. 2023; 4(2):103-104. https://doi.org/10.3390/neurosci4020010

Chicago/Turabian Style

Gallart-Palau, Xavier. 2023. "Featured Papers in NeuroSci" NeuroSci 4, no. 2: 103-104. https://doi.org/10.3390/neurosci4020010

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