Endogenous Voltage Potentials and the Microenvironment: Bioelectric Signals that Reveal, Induce and Normalize Cancer

Related work— refs + corpus + external arXiv

Cited / in-corpus / arXiv badges show which signals surfaced each row. Multi-source rows weighted higher.

• Bioelectrical Interfaces Beyond Cellular Excitability: Cancer, Aging, and Gene Expression Reprogramming

  Matthew Burgess, Catarina Franco Jones, Titouan Luciani, Marzia Iarossi, Manuel Schr\"oter, Nako Nakatsuka, Mustafa B. A. Djamgoz, Gil Gon\c{c}alves, Paola Sanju\'an-Alberte, Paula M. Mendes, Frankie J. Rawson, Malavika Nair, Michael Levin, Rosalia Moreddu Paolo Cadinu

  2025
  ≈ 78%
• AI-driven control of bioelectric signalling for real-time topological reorganization of cells

  Gon\c{c}alo Hora de Carvalho

  2025
  ≈ 75%
• Prediction of Cellular Malignancy Using Electrical Impedance Signatures and Supervised Machine Learning

  Shadeeb Hossain

  2026
  ≈ 74%
• Modeling Bioelectric State Transitions in Glial Cells: An ASAL-Inspired Computational Approach to Glioblastoma Initiation

  Wiktoria Agata Pawlak

  2025
  ≈ 72%
• The computational boundary of a 'self': developmental bioelectricity drives multicellularity and scale-free cognition

  in corpus

  2019
  ≈ 72%
• Developmental Bioelectricity: the cognitive glue enabling evolutionary scaling from physiology to mind

  in corpus

  2023
  ≈ 72%
• Brief Architectural Survey of Biopotential Recording Front-Ends since the 1970s

  Minkyu Je Taeju Lee

  2023
  ≈ 72%
• Plant Bioelectric Early Warning Systems: A Five-Year Investigation into Human-Plant Electromagnetic Communication

  Peter A. Gloor

  2025
  ≈ 71%
• Microelectronic Morphogenesis: Progress towards Artificial Organisms

  Daniil Karnaushenko, Minshen Zhu and Oliver G. Schmidt John S. McCaskill

  2024
  ≈ 71%
• Universal principles of cell population growth follow from local contact inhibition

  Sadegh Marzban, Mehdi Damaghi, Arne Traulsen, Alexander R. A. Anderson, Jeffrey West, and Philipp M. Altrock Gregory J. Kimmel

  2026
  ≈ 68%
• Collective intelligence: A unifying concept for integrating biology across scales and substrates

  in corpus

  2024
  ≈ 68%
• Frequency-dependent Chemolocation and Chemotactic Target Selection

  Buddhapriya Chakrabarti, Tom Chou, Ajay Gopinathan Sarah A. Nowak

  2026
  ≈ 68%
• Optical control of waves in a cardiac excitable medium

  Alekxandra Klimas, Christina M. Ambrosi, Emilia Entcheva, and Gil Bub Rebecca A.B. Burton

  2015
  ≈ 68%
• Technological Approach to Mind Everywhere: An Experimentally-Grounded Framework for Understanding Diverse Bodies and Minds

  in corpus

  2022
  ≈ 68%
• Engineering morphogenesis of cell clusters with differentiable programming

  Francesco Mottes, Ariana-Dalia Vlad, Michael P. Brenner, Alma dal Co Ramya Deshpande

  2025
  ≈ 67%
• Simulating Tissue Morphogenesis and Signaling

  Simon Tanaka, Patrick Fried, Philipp Germann and Denis Menshykau Dagmar Iber

  2013
  ≈ 67%
• Cancermorphic Computing Toward Multilevel Machine Intelligence

  Michael Levin Rosalia Moreddu

  2025
  ≈ 67%
• A Three Spatial Dimension Wave Latent Force Model for Describing Excitation Sources and Electric Potentials Produced by Deep Brain Stimulation

  Mauricio A. \'Alvarez, \'Alvaro A. Orozco Pablo A. Alvarado

  2016
  ≈ 67%
• The Neoplasia as embryological phenomenon and its implication in the animal evolution and the origin of cancer. I. A presentation of the neoplastic process and its connection with cell fusion and germline formation

  Kay Saalfeld Jaime Cofre

  2026
  ≈ 67%
• Darwin's agential materials: evolutionary implications of multiscale competency in developmental biology

  in corpus

  2023
  ≈ 67%
• Active inference on discrete state-spaces: a synthesis

  in corpus

  2020
  ≈ 66%
• Zoom In: An Introduction to Circuits

  in corpus

  2020
  ≈ 66%
• Life as we know it

  in corpus

  2013
  ≈ 66%
• The biogenic approach to cognition

  in corpus

  2005
  ≈ 66%
• AI: a Bridge toward Diverse Intelligence and Humanity’s Future

  in corpus

  2024
  ≈ 66%
• Stress Sharing as cognitive glue for collective intelligences: A computational model of Dukkha as a coordinator for Morphogenesis

  in corpus

  2024
  ≈ 66%
• Toward an ethics of autopoietic technology: Dukkha, care, and Intelligence

  in corpus

  2023
  ≈ 65%
• Endless forms most beautiful 2.0: teleonomy and the bioengineering of chimaeric and synthetic organisms

  in corpus

  2023
  ≈ 65%
• A Free energy principle for the brain (lecture summary)

  in corpus

  2008
  ≈ 65%

Similar preprints — Semantic Scholar

Cited by (5)

• Developmental Bioelectricity: the cognitive glue enabling evolutionary scaling from physiology to mind

  Developmental bioelectricity—the network of ion channels, gap junctions, and neurotransmitter-mediated Vmem (membrane potential) dynamics operating across all body cells, not just neurons—functions as

• Darwin's agential materials: evolutionary implications of multiscale competency in developmental biology

  Cellular collectives operating between the genotype and anatomical phenotype constitute an agential substrate that fundamentally reshapes the evolutionary search process—this is the central claim of L

• Cellular signaling pathways as plastic, proto-cognitive systems: Implications for biomedicine
• Technological Approach to Mind Everywhere: An Experimentally-Grounded Framework for Understanding Diverse Bodies and Minds

  TAME—Technological Approach to Mind Everywhere—formalizes a non-binary, empirically grounded framework for recognizing, comparing, and manipulating cognition across radically diverse substrates, from

• The computational boundary of a 'self': developmental bioelectricity drives multicellularity and scale-free cognition

  Scale-Free Cognition, the framework introduced here, proposes that any coherent Self is demarcated by a 'cognitive light cone'—a spatio-temporal boundary of events a system can measure, model, and att