Whole
Brain Synchronicity and Neuroplasticity—On
Demand
Neuroplasticity
(plasticity) drives neurorehabilitation,
(and cognitive enhancement)¹. In turn,
plasticity relies on synaptogenesis², which
is most vigorously prompted by pattern
recognition learning³,⁴. Enhancing
plasticity before task-specific
neurorehabilitation therapies, via
induction of robust synaptogenesis, leads
to better therapeutic outcomes.
Learning
is fundamental to affecting and
advancing neuroplasticity.
Such
learning needn't be academic, or
linear; however, for optimal
effect, it does need to be
pattern recognition-based.
The
Synaptogenesys SuiteSM
(Synaptogenesys) is a densely intensive,
nonlinear, multisensory, pattern
recognition-based learning system,
sonochromatically applying high speed,
synchronized, universal Logic,
(supported by Mindfulness Meditation)6,
to induce robust synaptogenesis engendering
whole-brain plasticity. By affecting such
learning⁷, Synaptogenesys greatly enhances
the brain’s plasticity and adaptability,
thereby improving engagement, performance,
and outcomes in neurotherapy tasks⁸.
Accelerating recovery,
Synaptogenesys seamlessly integrates into
your practice.
For brain
recovery from traumatic experiences, e.g.
Stroke, Concussion, PTSD
& CPTSD, Traumatic Brain Injury,
and Hemispherectomy—i.e. when
recovery requires significant whole-brain
plasticity—(as well as for rapid, general
cognitive recovery, [e.g. post
lockdown],
and incline), Synaptogenesys is the
optimal solution.
.
"Any
man could, if he
were so inclined,
be the sculptor of
his own brain"(Tietz,
2022).
Dr.
Santiago Ramon Y Cajal
"Our
wisdom and our
pattern recognition
get pushed deeper
and deeper into the
brain, into the
spinal cord, and
even into our gut
neurons... In
the brain, it's
all about
connectivity"
(Robbins,
2024).
"Your
brain is plastic.
You have the power
within at any age,
to be better, more
capable,
continuously growing
a progressively more
interesting life"(Milios,
2017).
1. Bliss, T. V., Collingridge, G. L., &
Morris, R. G. (2013). Synaptic
plasticity in health and disease:
introduction and overview.
Philosophical transactions of the Royal
Society of London. Series B, Biological
Sciences, 369(1633), 20130129.
https://doi.org/10.1098/rstb.2013.0129
2.
Livneh, Y., Feinstein, N., Klein, M., and
Mizrahi, A. Sensory
Input Enhances Synaptogenesis of
Adult-Born Neurons. Journal of
Neuroscience 7 January 2009, 29 (1) 86-97;
DOI:
https://www.jneurosci.org/content/29/1/86
3.
Cunningham, R. (2019). Neuroplasticity:
How the brain changes with learning.
UniversityofQueensland.https://solportal.ibe-unesco.org/articles/neuroplasticity-how-the-brain-changes-with-learning/
4.Mattson, M. P. Superior
pattern processing is the essence of the
evolved human brain.
Front Neurosci. 2014 Aug 22;8:265. doi:
10.3389/fnins.2014.00265.PMID: 25202234;
PMCID: PMC4141622.
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4141622/
5.
Shaffer, J. Neuroplasticity and
Clinical Practice: Building Brain Power
for Health. Front Psychol. 2016 Jul
26;7:1118. doi: 10.3389/fpsyg.2016.01118.
PMID: 27507957; PMCID: PMC4960264.
https://www.ncbi.nlm.nih.gov/pmc/articles/PMC4960264/
6.
Tang, YY., Hölzel, B. & Posner, M. The
neuroscience of mindfulness meditation. Nat
Rev Neurosci 16, 213–225
(2015).https://doi.org/10.1038/nrn3916
https://www.nature.com/articles/nrn3916/#citeas
7.
Paraskevopoulos, E. & Herholz, S.
(2013). Multisensory
integration and neuroplasticity in the
human cerebral cortex.
Translational Neuroscience. 4. 337-348.
10.2478/s13380-013-0134-1.
8.
Trafton, A. (2014). Synchronized
brain
waves enable rapid learning: MIT study
finds neurons that hum together encode
new information.
MIT News.
https://news.mit.edu/2014/synchronized-brain-waves-enable-rapid-learning-0612