Magnetic fields of radial glial in Prenates:
Felix Lanzalaco (a,c), Wajid Zia. (a,b)
(a) Psychology Cares Scotland, Firdon Crescent , Glasgow G15, Scotland (b) Dept of Clinical Psychology, University of Edinburgh, Scotland (c) Open University, Milton Keynes.
Author of dipole theory for cortex development.
Chairman of Scottish Foundation for Neurodevelopment research. Failed hockey player and general non stop out the box thinker "trying" to apply his most prominent theory to AGi. Not to forget Musician / designer and ex entrepreneur who is currently going through a mid life crisis.
OccupationDoctorate student Neuroscience, Chairman of not for profit research organization.
Employment
SFNR Chairman (Scottish Foundation for Neurodevelopment research). Application of future neuro theories to Cognition and AGi.
Chairman, 2011 - present
Psychology Cares Scotland
Researcher and computer tech, 2008 - 2011
Self employed
renovation / handyman / design, 2002 - 2008
Education
Open University
Computational Neuroscience, 2010 - present
University of Glasgow
Computer science / Physics, 1997 - 1999
Cardonald college
Computer programming, 1994 - 1995
Dipole Neurology Theory critiqued By Juan Carlos Kuri Pinto
Current progress with the Dipole Neurology theory of brain function is increasing its scope. This is due to the theories application back to the development of nervous systems. This requires concentrating on splitting up the work into several main areas covered by a paper for each.
1. Cortical EMS (Electromagnetic Multipole Solution)
2. Limbic EMS and Cortical EMS
3. Neurodevelopmental mechanisms
4. Evolutionary implications for the theory
5. Epigenetic implications for the theory
Currently the theory was last reviewed by Juan Carlos Kuri Pinto. He is an ESPOL postgrad studying for PHD in computational neuroscience and the founder of the Strong Artificial Intelligence Facebook group. You will need to be logged into facebook to read the review.
Paper now available from NeuroQuantology Archives
A current version of the theory which is for sure becoming a theory of neurodevelopment and a tight integration of evolution with physics is available at Neuroquantology archives
After the conference "integrative approaches to brain complexity" it was realised that the dipole concept of separation of charges may reach back 700,000,000 years when bilateral (symmetric) nervous systems and ionotropic GABA/Glutamate receptors formed in salt water environments. Although it is still do be determined if this a co incidence and the symmetry has nothing to do with this..
The poster presented at the conference is an easy read version of the theory also available here.
Felix Lanzalaco
LESTER INGBER PROPOSES CORTICAL MAGNETIC MODELS READY FOR EXPERIMENTAL VERIFICATION
Dipole neurology neurodevelopment theory could not have been built without existing works proposing the key mechanism that glial cells could play in producing cortex wide magnetic fields.
Ingber & Nunez, 2010 , Bokkon & Banaclocha, 2010 , Pereira & Furlan, 2010, Strmera & Laanec, 2009
His recent paper is the best physics based summary for magnetic models, and summarizes that enough theoretical work has been completed for lab verification to begin.http://arxiv.org/abs/1105.2352
Pereira & Furlan provide a more neuroscience based overview for glial magnetic processes.
http://www.theassc.org/files/assc/PereiraJrFurlanAstrocytesHumanCognition.pdf
The above shows the proposed magnetic mechansism for cortex diple formation. Ca2+ waves in development can propogate through entire hemisphere radial glial: Weissman, TA et al; 2004.
Felix Lanzalaco
Due to travel logistics TSC 2009 was not a good direction for progress of the Dipole Neurology project. I had concerns about taking the theory to a philosophy biased neuroscience conference when there are many technical problems still needing to be ironed out..
We feel the best direction is the Cold Spring Harbor Laboratory/Wellcome Trust conference on Integrative Approaches to Brain Complexity. This will be held at the Wellcome Trust Conference Centre on the Wellcome Trust Genome Campus in Hinxton, UK. We will ask to present under "Data integration and systems biology".
From their site
"Understanding the structural and functional complexity of the vertebrate nervous system is the theme of this meeting. Advances in genomics and proteomics are defining the molecular building blocks that underpin the structural complexity of the brain and it behavioural output. Combining genetic discoveries with anatomical, electrophysiological and behavioural findings, it is now feasible to integrate this knowledge."
Felix Lanzalaco
