Brain 1 (B1): Brain Tissue, Nuclei, Fluid & Autonomic Nervous System

Start:

25 Oct 2018

End:

28 Oct 2018

Instructor:

Phone:

65-6258 5031

Venue:

The Living Well Workshop Co.

Email:

info@thelivingwellco.com.sg

Price:

 

SGD 1,300.00 ( REGULAR )
SGD 1,200.00 ( BY AUGUST 01 ) Add to cart

Address:

3 Pemimpin Drive, #07-02, Lip Hing Buidling, Singapore, 576147

The Brain Therapy Curriculum is an advanced-level course that takes us to the next realm of manual therapy. It explores the brain, spinal cord, white matter, grey matter, and also in this level brain nuclei such as corpus callosum, septum pellucidum, indusium griseum, fornix, thalamus, globus pallidus, amygdala, hippocampus, brainstem, cerebellum, etc.
The body often aligns itself around these precise structures, and they are frequently unaddressed key/dominant tissue restrictions.

The techniques presented in this class can probably help most of your patients, but it can specifically help pathologies such as closed-head injuries, whiplash, headaches, dyslexia, cerebral palsy, cognitive behavioral dysfunctions, learning disabilities, ADD/ADHD, and Parkinson’s and Alzheimer’s disease. Students will learn specific techniques to release brain-centered restrictions as well as the damaging effects that these restrictions cause.

Brain1 is an advanced class that use a slightly different paradigm by working extensively with the brain parenchyma, grey and white matter, cranial and spinal structures, rather than mainly concentrating on the cranial bones and membranes.

This work requires perceptual skills to be able to address tissue microstructures, and we will have specific exercises in the class to help build up these skills.
Cerebellum
This class will propose different ways to release these structures, and once learned, you will understand how these structures are repeatedly one of the most important, and yet least often addressed components of somatic dysfunctions.

Many topics will be covered in the Brain Therapy classes, in general, including:

  1. Cranial bones (intraosseous and interosseous lesions) Claustrum
  2. Cranial membranes in all anatomical directions
  3. Fluid: 3 distinct compartments
    • a. Subarachnoid spaces and cerebral cisterns
    • b. Brain parenchyma and the glymphatic system
    • c. Ventricles
  4. Grey Matter: 3 and 6 layered cortex and brain nuclei
  5. White Matter: 3 types of organization
  6. Electro-magnetic field (EMF) of the brain
  7. Emotions, as well as mental or spiritual dimensions.

I know that the normal brain lives, thinks, and moves within its own specific membranous articular mechanism.” – Sutherland WG, “The Cranial Bowl”, Free Press, First Edition, 1939, reprint 1994, pp 51.

Hours

Registration starts at 830am on the first day of class. Daily class hours are from 9am – 530pm. On the last day, we will end by 4pm.

Prerequisite

In clinical practice, strong preparation in neuroanatomy, good proprioception, being able to use a subtle touch and one of the following classes or class combinations:

  • Lymph Drainage Therapy 2 (LDT2)
  • LDT Applications to Viscera (LDV1)
  • Lymph Drainage Therapy 1 (LDT1) + Lymphatic Fluid Articular Release (LFAR)
  •  CranioSacral Therapy 2 (CST1)
  • Visceral Manipulation 2 (VM2)
  • Visceral Manipulation 4 (VM4)
  • Neural Manipulation 2 (NM2)
  • Mechanical Link 3 (ML3)
  • Or any combination of 2 subtle hands-on classes in one of the following curriculum: LDT, CST, VM/NM or ML curriculi (except dissection classes).

Advanced practitioners with significant training and clinical experience in neuroanatomy and refined/fluid techniques may be eligible to take this workshop without pre-requisite classes (e.g cranial biodynamic, osteopathic classes, etc.)

If you think you may qualify, please fill up the “Application for Exception” to be submitted to the developer.

Learner Objectives (Subject to Change)

DAY 1:

  • By the end of the 1st day participants will be able to correctly explain the scientific theory of autonomic nervous system upregulation and downregulation in relation to physical trauma
  • By the end of the course participants will be able to correctly determine on a live person’s face or cranium at least one specific area with autonomic nervous system dysregulation
  • By the end of the course participants will be able to correctly demonstrate on a live person Brain 1 ventricles technique
  • By the end of the course participants will be able to correctly demonstrate on a live person one microanatomy technique

DAY 2:

  • By the end of the course participants will be able to correctly demonstrate on a live person one technique on corpus callosum
  • By the end of the course participants will be able to correctly demonstrate on a live person one technique on fornix
  • By the end of the course participants will be able to correctly demonstrate on a live person one technique on a basal nuclei
  • By the end of the course participants will be able to correctly demonstrate on a live person one technique on thalamus
  • By the end of the course participants will be able to correctly demonstrate on a live person one technique on hippocampus

DAY 3:

  • By the end of the course participants will be able to correctly demonstrate on a live person one technique on pituitary
  • By the end of the course participants will be able to correctly demonstrate on a live person one technique on mammillary bodies
  • By the end of the course participants will be able to correctly demonstrate on a live person one technique on substantia nigra
  • By the end of the course participants will be able to correctly demonstrate on a live person one global technique on the cerebellum
  • By the end of the course participants will be able to correctly demonstrate on a live person one technique on the cerebellum nuclei
  • By the end of the course participants will be able to correctly demonstrate on a live person one technique on the pineal

DAY 4:

  • By the end of the course participants will be able to correctly demonstrate universal rhythm technique on the brain
  • By the end of the course participants will be able to correctly demonstrate how to release of the brain mobility
  • By the end of the course participants will be able to correctly demonstrate how to release of the spinal cord mobility

Preparation

Advance study of anatomy is required.

It is of utmost importance that you prepare for this class as far in advance as possible. Many students feel it is never too early to begin the study of neuroanatomy structures.

The DVD “Dissection of the Brain and Spinal Cord” was specifically made to facilitate preparation for this class.

This DVD will show you structures such as the ventricular system, the brain parenchyma; the major components (nuclei) of the brain and spinal cord including: corpus callosum, fornix, thalamus, putamen, globus pallidus, caudate nucleus, amygdaloid bodies, hippocampus, mamillary bodies, red nucleus, substantia nigra, pituitary, hypothalamus, cerebellum and associated nuclei, cauda equina, conus medullaris, filum terminale internum and externum.

You will be spending class time reviewing specific areas of the central nervous system. You therefore need to pay particular attention to the anatomy (and physiology) of the brain and spinal cord along with the central nervous system as you prepare for class.

For this class it is more important to know the 3 dimensional location of a brain stucture and its relationship to the surrounding structures, than its classical described physiology.

It is recommended that you review some books such as “Netter’s Atlas of Human Neuroscience” (see list of references below).

 
Terminology

We have provided a list of terms below you need to study before attending this course.
It is very important for you to be familiar with the following words and concepts.

Anatomical/Physiological Terms
  • All cranial bones, meninges and associated structures
  • Structure and physiology of brain ventricles: frontal horn, temporal horn, occipital horn, central part, interventricular foramen of Monro, optic recess, interthalamic adhesion, aqueduct of Sylvius, foramen of Luschka, foramen of Magendie, choroid plexus of lateral, third and fourth ventricles, and central canal of the spinal cord
  • Major structures of the brain, including: corpus callosum, septum pellucidum, indusium griseum, fornix, thalamus, pulvinar, interthalamic adhesion, putamen, nucleus accumbens, globus pallidus, lentiform nucleus, caudate nucleus, basal ganglia, Internal capsule, External capsule, clastrum, limbic system, amygdala, hippocampus, mamillary bodies, brain stem, hindbrain, medulla oblongata, pons, diencephalon, mesencephalon, cerebellum and associated nuclei (fastigial, globose, emboliform, dentate), red nucleus, substanta nigra, pituitary (hypophysis), hypothalamus and its numerous nuclei, pineal(epiphysis), locus ceruleus, colliculus and geniculate bodies.
  • Astrocyte, oligodendrocyte, microglia, ependyma, organelles, cell membrane, cytoplasm, nucleus, centriole (centrosome/basal bodies), Golgi apparatus or Golgi complex, ribosome (ribonucleoprotein), Endoplasmic reticulum (ER), mitochondria, granule/vesicle/vacuole, microfilaments (actin filaments), intermediate Filaments, microtubules, extracellular matrix (ground substance) (You can use “Silent Waves” Part 6, Chapter 3 as a reference for this topic).
Pathologies

Be sure you are familiar with the following pathologies: closed-head injuries, whiplash, dyslexia, cerebral palsy, cognitive behavioral dysfunctions, learning disabilities, ADD/ADHD, Alzheimer’s, and Parkinson’s.

List of words from the Netter’s Atlas of Human Neuroscience

Be familiar with the brain structures from each of the following pages of “Netter’s Atlas of Human Neuroscience” First Edition, (2nd  edition in parenthesis), [3rd edition in brackets]:

  • Page 7 (page 6-7) [page 7-11]: The different cells of the CNS: Astrocyte, oligodendrocyte, microglia, ependyma, [glial]
  • Page 23 (page 34), [page 52]: Insula
  • Page 25 (page 37-38), [page 55-56]: Corpus callosum: genu, body, splenium; cingulate gyrus, pituitary, interthalamic adhesion, pineal, cerebellum, medulla oblongata
  • Page 27 (page 40), [page 58]: Olfactory bulb, pituitary, mammilary bodies, red nucleus, substantia nigra, splenium of corpus callosum
  • Page 29 (page 46), [page 64]: Ventricles, thalamus, putamen, globus pallidus, lentiform nucleus, caudate nucleus, external and internal , capsule, claustrum, insula
  • Page 30 (page 47), [page 65]: Corpus callosum, indusium griseum
  • Page 31 (page 48), [page 66]: Corpus callosum, medial and lateral longitudinal striae
  • Page 32 (page 50), [page 68]: Corpus callosum, mammilary bodies, fornix, columns and commissure of fornix, hippocampus, thalamus, putamen, globus pallidus, caudate nucleus, amygdale
  • Page 33 (page 51), [page 69], [page ]: Corpus callosum, fornix, hippocampus, pineal gland
  • Page 34 (page 52), [page 70]: Thalamus, interthalamic adhesion, mediodorsal nuclei (MD)
  • Page 36 (page 56), [page 74]: Cerebellum, cerebellar nuclei: fastigial, globose, emboliform, dentate
  • Page 43 (page 68), [page 86]: Ventricular system: frontal horn, temporal horn, occipital horn, central part, interventricular foramen of Monro, optic recess, interthalamic adhesion, aqueduct of Sylvius, third and fourth ventricles, lateral recess, foramen of Magendie, foramen of Luschka, choroid plexus of lateral, third and fourth ventricles
  • Page 44 (page 70), [page 88]: Cerebellum, thalamus, pituitary, pineal
  • Page 45 (page 73), [page 91]: CSF and ventricular system
  • Page 77 (page 128), [page 149]: Foramen of Monro, aperture of Luschka and Magendie
  • Page 177-178 (page 261-263), [page 291-293]: Hypothalamus
  • Page 190 (page 288), [page 318]: Nucleus accumbens
  • Page 191 (page 290,417), [page 320,455]: Amygdala
  • Page 208 (page 318,382-383), [page 349,416-417]: Substantia nigra
  • Page 258 (page 257,380), [page 287,414]: Cerebellar nuclei: fastigial, globose, emboliform, dentate
  • Page 265-269 (page 262,390-394), [page 292,424-428]: Hypothalamus
  • Page 282 (page 404-405,407), [page 438-440,442]: Anterior, preoptic and posterior nuclei of the hypothalamus
If Needed, Other in-Depth Resources
  • “Atlas of Anatomy”, Thieme, Head and Neuroanatomy, ISBN: 978-1-58890-441-6
  • “Color Atlas of Human Anatomy, Vol. 3, Nervous System and Sensory Organs”, Thieme, ISBN: 978-1-58890-0647
  • “Neuroanatomy, 3-D Stereoscopic Atlas”, M. Hirsch, T. Kramer, Springer Ed, ISBN: 3-540-65998-6
  • “The Human Brain”, John Nolte, Mosby, ISBN: 978-0-323-01320-8
  • “Neuroanatomy, Text and Atlas”, John Martin, Appleton & Lange Ed ISBN: 0-8385-6694-4

If you use the 4th edition of “Netter’s Atlas of Human Anatomy” you should specifically review plates 102-127 (formerly 96-121) and 160-170 (formerly 153-162).

If you need a plastic brain model to help you assimilate these anatomical structures, Dr. Chikly recommends a 15-part, life-size model that is made of SOMSO Plast

Terms & conditions

By registering for this course, the registrant is agreeing to the terms and conditions stated.
Upon registration, $60 non-refundable.
Less than 30 days cancellation, 50% non-refundable.
Less than 2 weeks cancellation, 100% non-refundable.
No refund will be given if you do not complete any part of the 4-day course.
In the unforeseen event that the course is cancelled/postponed, participants have the option to transfer the amount paid to another class or receive a full refund. The Living Well Workshop Co. will not be responsible for any travel expenses incurred by the course participant.