6

6.1 ( : John, 2016)

(vertebrate central nervous system) 90% (glia cells

neuroglia)

19

4 (astrocytes) (oligodendrocytes) (ependymal) (microglia)

1. (astrocytes)

1. (spatial relationships)

2. (scaffold)

218

6.2 5 ( : Unity Companies, 2016)

3. (blood-brain

barrier, BBB) 4. (neural scar formation) 5.

6.

(effluxed K+)

(K+ concentration gradient)

7.

2 1) (gap junction)

2)

219

2

3 (three-party junctures) 1 2

2

(other glial cells) 2. (oligodendrocytes) (myelin sheaths)

(jelly-roll fashion)

3. (ependymal cells) (neural tube)

(ventricles) (central canalof spinal cord) (cerebrospinal fluid, CSF) (cilia)

(neural stem cells)

1990s (hippocampus)

(irreplaceable) (precursor cells)

6.1

- - - - -

-

- - - - - -

220

6.3 ( : Tango, 2016)

4 1. (cranium skull)

(vertebral column) 2. (meninges) 3

1) (dura mater pachymeninx) 2) (arachnoid mater) 3) (pia mater)

6.4 Antranik, 2016)

3. (cerebrospinal fluid, CSF)

4. (blood-brain barrier, BBB)

221

6.5 ( : van den Berg, 2016)

3 1. (dura mater)

2 (periosteal) (meningeal) (cavities)

(sinuses) (superior sagittal sinuses)

2. (arachnoid mater, arachnoid = spiderlike) (cobwebby appearance) (subarachnoid space)

(duralsinuses) (arachnoid villi)

3. (pia mater)

(cerebrospinal fluid, CSF)

(shock-absorbing fluid)

(choroid plexi) (ventricle cavities)

4 (interconnected ventricles)

4 (fourth ventricle)

222

6.6 : Antranik, 2016)

6.7 ( ): Antranik, 2016)

10

1. 2. 3. 4

223

4. 5.

(interstitial fluid, ISF) 2

(endothelial cells)

(tight junction)

(primary activetransport) (glucose transporter)

6.8 ( ) ( ): Maddox, 2016)

224

6.9 : Raghuram, 2016)

(hypothalamus) (controlling output)

(hypothalamic capillaries)

(anaerobic metabolism)

2-3 10-15

225

(

(transamination))

(hemolymph)

(vertebrate brains plasticity)

70% (songbird)

(nerve-growth inhibitingproteins)

(plasticity)

(neural pathways)

(dendritic shape) (cytoskeletal elements)

(degenerative diseases) (Alzheimer’s)

(transmissible spongiform encephalopathies, TSE) - (bovine spongiform encephalopathy, BSE) (madcow disease) - (scrapie) - (transmissible mink encephalopathy) - (feline spongiform encephalopathy) - (chronic wasting disease)

226

- (Kuru and classical and variant Creutzfeldt- Jacob disease, vCJD)

1986 2004

3 1) 2) (virino)

3) (prion proteinaceous infectious particle)

(abnormal form)

(scrapie-infected animals) (PrP)

(memory formation)

(spongiform disease)

(incubation period) 2-8 2-6

(dorsal root ganglion) (trigeminal ganglion) (distal ileum) (bone marrow)

(functional specialization) (evolutionary origin) 3 (hindbrain)

227

(midbrain) (forebrain) (embryonic neural tube)

6.10 ( : Kimball, 2016)

1. (brain stem) 2. (cerebellum) 3. (forebrain) a. (diencephalon) i. (hypothalamus) ii. (thalamus) b. (cerebrum) i. (basal nuclei) ii. (cerebral cortex)

( )

(modern vertebrates) (jawless vertebrates)

(conservative division)

6.11 ( : Dovimae, 2013)

228

6.12 3 ( : Darling, 2016)

1. (brainstem)

500 2 (medulla oblongata)

(pons)

(teleosts)

6.13 5 ( : Austin Community College District, 2008)

2. (cerebellum)

(hagfishes) (lampreys) (jawed fishes)

(cerebellum-like structure) (central body) (paired lobes)

(motor activity)

229

(flying mammals)

3. (forebrain)

2 3.1. (diencephalon) 2

3.1.1 (hypothalamus)

3.1.2 (thalamus) (primitive sensoryprocessing) (relay station)

6.14 ( : Droual, 2013)

3.2 (cerebrum) (tortuous ridges)

(grooves or folds) (interconnections)

10,000 80% (cerebral cortex)

(basal nuclei) (much-fold walnut)

230

3

(mammalian cerebral cortex)

2 (left and right hemispheres) 2

(corpus callosum) 300 2

6.15 : Mowatt, 2016)

(body’sinformation highway) 2

(cerebral cortex) 2 (gray matter) (cerebral medulla)

(white matter) (basal ganglia)

(bundles) (tracts)

(wires)

231

6.16 ( : ANATOMY BODY, 2016)

6 2 .

6.17 : OpenStax College, n.d.)

232

4 (expanded layer 4) (satellite cells)

5 (thickened layer 5)

6.18 6 ( : King, 2016)

6.19 ( ) ( ) : Sharadsaini, 2016)

233

(cortical mapping) 4 (lobes) 1)

(occipital lobes) 2) (temporal lobes) 3) (parietal lobes) 4) (frontallobes)

1. (occipital lobes)

2. (temporal lobes) 2

3. (parietal lobes)(central sulcus/fissure)

4. (frontal lobes) 3

1) (voluntary motor activity) 2) (vocal activity) 3) (higher mental function)

6.20 4 ( : Austin Community College District, 2008)

(somatosensorycortex)

(somesthetic input) (proprioceptive inputs)

234

6.21 : Austin Community College District, 2008)

6.22 : Kimball, 2015)

(proprioception)

(tectum) (thalamic nuclei)

(somatosensory cortex)

(sensory homunculus) 6.24

235

6.23 4 : King, 2013)

6.24 : Austin Community College District, 2008)

(felunculus) (canunculus)

236

(tactile stimulation)

(rhombencephalon)

(intensity)

(spatialdiscrimination)

(higher sensory areas)

(

) (primary motor cortex)

(paralysis)

(motor homunculus)

237

(cortical area)

1

(arm- specific neurons)

(intermingled)

6.25 ( ) ( ) ( : Clarke, 2016)

(cortical regions) (choreograph)

(efferentneurons)

1) (involuntary control)

238

2)

(readiness potential) 750 (higher motor area)

(supplementary motor area, SMA) (premotor cortex) (posterior parietal cortex)

6.26 ( : Schwerin, 2016)

4 (programming) (coordinating)

4 ( ) (motor program)

(cortical area) (language area)

239

(left cerebral hemisphere)

(verbal task) (right cerebral hemisphere) (nonlanguage skills) (spatial perception)

(fragmentary way) (world holistically)

2 2

(thinkers) (creators)

(subcortical and higher brain function)

(subcortical regions) (basal nuclei)

(thalamus) (hypothalamus) (diencephalon)

6.27 : what-when-how.com, 2008)

(basal nuclei) (basal ganglia)

(nucleus) (nuclei) ( (ganglion)

)

(nonmotor functions)

240

1. (muscle tone)

2. (selecting) (maintaining)

3.

(motorpathways)

6.28 ( ) Austin Community College District, 2008)

(complex feedback looplinking)

(antagonistic or unnecessary movement) - (motor activity)

241

6.29 : hanisblog.com)

(3rd ventricle) 2

1. (thalamus)

(relay station)

6.30 : Austin Community College District, 2008)

242

(cortical association areas)

(positively reinforcing voluntary motor behavior) 2. (hypothalamus)

(specific nuclei) (associated fibers)

1) (controls body temperature) 2) (controls thirst and urine output) 3) (controls feed intake) 4) (controls uterinecontraction and milk ejection) 5)

6) (anterior

pituitary hormones) (posterior pituitary hormones)

6.31 ( : Nance, 2012)

(shivering)

243

(limbic system) (emotion) (motivation)

(intermediate level)

(reflex integrator)

(limbic system)

(ring of forebrain structures) (

)

6.32 : Droual, 2013)

(amygdala)

(paleostriatum)

(unconditioned stimulus) (conditionedstimulus)

( )

(hard-wired emotional memories)

244

(GABA)

(overly anxious)

6.33 ( : Jarvis, 2009)

(behavioral patterns)

(sociosexual behavior)

(complex or bizarre behaviors) (docile)

245

( )

(preprogrammed)

(reward and punishment center)

(reward and punishment centers)

5,000

(pleasure device)

(motivated activity) (motivation)

()

(goal-directed behavior)

(homeostatic drives)

(drives)

246

(psychological observations) (neurophysiological mechanisms)

(self-stimulation)

2 (depression)

(antidepressant drugs)

(ProzacR)

(cerebellum, brain and spinal cord)

(cerebellum)

(integrative portion)

( )

6.34 ( : Nance, 2012)

247

3 3

(subconscious control of motor activity) - (vestibulocerebellum)

- - (cerebrocerebellum) (cortical motor

areas) (procedural memories) - (spinocerebellum)

(peripheral receptors)

(middle management) (intentions) (orders)

(the Smith Predictor) (long feedback

delays)

(sensor) (anticipatory adjustments)

2

(subconsciously coordinate)

(phasic contraction)

248

(brainstem)

1 2 (incoming fibers)

(efferent output)

1. (sensation input) (motor output) 12

10

2. (integrating neural clusters or

centers) 3. 4. 5.

(reticular formation)

(reticularactivating system, RAS)

(electroencephalogram, EEG) (intralaminar nucleus)

(midbrain tegmentum) (desynchronization)

(synchronized pattern) (comatose)

6. (sleep-promoting center)

249

6.35 12 ( : osteopathicthoughts, 2015)

(consciousness) (awareness)

1. (maximum alertness) 2. (wakefulness) 3. (drowsy)

250

4. (sleep) 5. (coma)

(synchronized pattern low frequency-high amplitude) (general anesthetics)

6.36 : Austin Community College District, 2008)

(electroencephalogram, EEG)

1. (alpha rhythm) 8-13 2. (beta rhythm) 13-30 3. (delta rhythm) 0.5-4 4. (theta rhythm) 4-7

(Raphe nucleus)

(light sleep, slow-wave sleep, non-rapid eye movement sleep, NREM) 1. (quiet sleep non-rapid eye movement (REM) sleep) 2 1.1 (quiet sleep or non-REM sleep) 1.2 (dreaming sleep or REM sleep)

251

2

(an idling brain in a movable body)

6.37 funnydogworld.com, 2014)

(brain-wavepatterns)

10 (alpha-wave pattern) (calm, relaxed wakefulness)

(switch on) (switch off)

3 3 (the three stages of quiet (non-REM) sleep)

1. 1 (stage N1 sleep) (light sleep) 5

3-7

(jarred awake) 1

2. 2 (stage N2 sleep) 1 10 - 25

(large- slow wave) 12-14 (sleep spindles) (sigma wave)

(memoryconsolidation)

(K-complex)

252

(built-in vigilance system)

2

3. 3 (stage N3 (deep sleep, or slow-wave sleep))

½-3 (deep sleep) 20% - 30%

(dreaming, deep sleep, paradoxical sleep, rapid eye movement sleep, REMsleep)

(dreaming) (rapid eyemovement sleep) (active brain in aparalyzed body)

(fight-or-flight response) (intermittent twitches)

6.38 ( : Smith, 2014)

(the role of REM sleep)

253

3-5 90

(REM rebound)(sleep architecture)

(hypnogram) (city skyline)

(sleep architecture)

4-5

2 3

1

6.39 ( : Smith, 2014)

90 (90-minute changeover)

1. (sleep induction)

(L-tryptophan)

254

1-15 (sleep latency) (nocturnal awakenings)

2. 3.

4. (

) ( )

(spinal cord)

6.40 ( ) ( ) ( : Kimball, 2016)

(segmented ganglia) 45 . (18 )

2 . ( )

255

2 (spinal cord segment)

6.41 : Antranik, 2016)

6.42 ( : The Johns Hopkins University, n.d.)

(cervical/neck nerves) 8 (C1-C8) (thoracic/chest nerves) 12 (lumbar/ abdominal nerves) 5 (sacral/

pelvic nerves) 5 (coccygeal/tailbone nerves) 1 2

(nerve roots) (bundle)

(cauda equina) 1 2 (L1-L2)

256

6.43 : Antranik, 2016)

6.44 ( : Bag, Patel, Osman Roberson, 2011)

(butterfly-shaped region)

(short interneurons) (axon of long interneurons)

(ascending tract)

257

(afferent input) (descending tract)

6.45 ( ) ( ) : Austin Community College District, 2008)

(tracts) (ventral corticospinal tract) (descending

pathway) (motor region) (efferent motor neuron)

(lateral spinothalamic tract) (ascending pathway)

(afferent input) (spinothalamic tract)

3 1. (dorsal/posterior horn)

(afferent neuron) 2. (ventral/anterior horn)

3. (lateral horn)

(spinal nerves) 2

(dorsalroot ganglion)

(ganglion) (center) (nucleus)

258

6.46 ( : Clark Biggs, n.d.)

6.47 ( ): Antranik, 2016)

259

6.48 ( ) : KIN450, 2015)

6.49 ( : OpenStax, 2016)

260

(nerve) (neuron) (axon bundle)

(tracts))

6.50 : Georgia Highlands College, 2013)

(

)

(segment) 1

(dermatome)

(wrong location pain) (referred pain)

(wither region)

261

(pericardium) (traumatic pericarditis)

6.51 ( : Georgia Highlands College, 2013)

6.52 ( : Themilie, 2016)

(activity of command fibers elicits a fixedaction pattern)

(command fibers) (coordinated

behaviors) (fixed action pattern,

262

FAP) (stereotyped behaviors)

(giant Mauthner neuron) (startle response)

(inhibitory input)

(medial giant neuron) (lateralgiant neuron)

(ecdysis) (exoskeletons)

(ecdysis behavior)

(peristaltic fashion)

(memory and learning)

www.human-memory.net)

(cephalopods)

() ( )

263

(biological constraints) (species-specific) (individual genetic endowment)

(forms of memory)

2 1) (long-term memory) (declarativememory) (explicit memory) 2) (procedural memory) (implicitmemory) (non-declarative memory)

(motor movements)

6.53 ( Psychestudy, n.d.)

2

(phenomenon of imprinting)

(Konrad Lorenz)

24

264

(retention) (storage) (memory trace) (verbatim

information)

2 (short-term memory) (long-termmemory)

(memory consolidation process)

6.54 ( : Psychestudy, n.d.)

(consolidation) (synaptic plasticity) (late long term potentials, LTP)

(Ca2+ influxed) ( : alpha-amino-3-hydroxyl-5-methyl-4-isoxazole-

propionate, AMPA : N-methyl-D-aspartate receptor, NMDA)

1. 2. (multiple spine bouton)

1) 2)

3.

(working memory) (blackboard of the mind)

2

2 1. (forgotten) (

)

265

2. (long-term memory) (active practice)

6.55 ( : Jensen, 2005)

6.56 ( Kumar, 2015)

(long-term memory consolidation) ()

( (fixative) )

7-10 7-10 ()

266

(long-term declarativememory)

(process) (codified) (conjunction)

(visual memories) (auditory memories)

6.57 ( : Craik Lockhart, n.d.)

(remembering) (forgotten)

(permanently forgotten)

(neuromodulators)

(anandimide) ( (anandamide) ) (reset) (unpotentiated state)

(tetrahydrocannibinol, THC) (anandimide agonist)

6.58 : www.drugabuse.gov)

267

6.59 : Andrew, 2016)

(memory tracts) (memory center)

(medialtemporal lobes) (prefrontal cortex)

(the hippocampus and declarative memories)

(the cerebellum and procedural memories)

(procedural memories) (motor skills)

(specific motor of sensory system)

268

( ) (lower center)

(short-term and long-term memoryinvolve different molecular mechanisms)

(working memory)

(planning) (problem-solving) (organizingactivities)

(neuronal connection) (storage bins)

(auditory cues) (object’s appearances of visual cues)

(neuronalnetwork)

(pre-existing synapses)

(existing neurons) 1.

(Krogh principle) (Eric Kandel) (Aplysia spp.)

( 20,000 )

2 1) (habituation) 2) (sensitization)

(specific afferent neurons)

(defensivewithdrawal reflex) (sea hare, Aplysia californicus)

(defense escapes) (mollusk) (mantle cavity)

269

(mantle shelf) (siphon)

(afferent neurons presynaptic neurons)

2

6.60 ( : Rudman, 2004)

1.1 (habituation)

( )

6.61 (Aplysia spp.) CidpUSA.org, n.d.)

270

(gill withdrawal) 10-15

1.2 (sensitization) (strong or noxious stimulus)

()

(nociceptors) (gill withdrawal

reflex pathway) (postsynaptic potentials, EPSP)

(unconditioned stimulus) (paired stimulation) (conditioned stimulus)

2

0.5 (

) (modulatory neuron)

271

6.62 : CidpUSA.org, n.d.)

1. 0.5

2.

272

3. (cAMP-dependent protein kinase) 4.

5.

6.

7. 20%

(siphon afferent) (gill efferent)

( ) ( )

(noxious stimuli) 4-5

(cAMP cascade)

2.

(excitatorysynapse) (long-lasting modifications)

(

273

) ( )

2

6.63 1 ( : Sanderson et al., 2008.)

1. (postsynaptic change)

(excitatory neurotransmitter) (-

(N-methyl D-aspartate))

2 (Ca2+-dependent second-messenger pathway)

274

2. (presynaptic modification)

2 (nitric oxide, NO) (retrograde messenger)

2

(retrograde factor)

(unidirection)

(neuromodulators)

6.64 1 : HumanPhysiology.Academy. 2015)

(sensory-deprived environment) (sensory-rich environment)

275

(transcription factor) (cAMPresponse-element binding protein, CREB) (switch on or turns on)

2 (CREB2) (CREB-faciltated

protein synthesis) (enduring memories) (positive regulatory factors)

(inhibitory, constraining factor) 2 (positive and repressive factors)

2

(2 )

(CREB transcription factors) (immediate early genes, IEGs)

(neuronal networks)

(consciousness)

(crude senses)

276

4

277

( ) (X)

______1. 90% ______2. ______3.

______4.

______5. <10-15 < 2-3

______6.

______7. (prion proteinaceous infectious particle) PpP

______8. 2

______9. ______10. ______11.

______12. (higher motor area)

______13.

______14.

______15.

______16. ______17.

______18. (electroencephalogram, EEG) 4

______19. ______20. (GABA)

278

Andrew, F.Z.T. 2016. he Endocannabinoid system and you. http://fivezerotrees.com/blog/the-endocannabinoid-system-and-you/?age-verified=6f5a824327: March 20, 2016.

Antranik. 2016. Protection for the Brain: Meninges, CSF, Blood-Brain Barrier. http://antranik.org/protection-for-the-brain-meninges-csf-blood-brain-barrier/: March 20,2016.

ANATOMY BODY. 2016. Human brain parts and functions diagram. http://humananatomyclass.com/tag/human-brain-parts-and-functions-diagram/: March 20,2016.

Austin Community College District. 2008. Central Nervous System. http://www.austincc.edu/apreview/PhysText/CNS.html#cns: September 20, 2015.

Bag, A,K,, Patel, B.N., Osman, S., and Roberson, G.H. 2011. Clinico-radiologic profile of spinal cordmultiple sclerosis in adults. Neuroradiol J. 24(4):511-8.

Bloom, W., Fawcett, D.W: 1986. A textbook of histology. W.B. Saunders, Philadelphia. 1033 p.Boron, W.F., Boulpaep, E.L: 2009. Medical physiology, 2nd ed. W.B. Saunders, Philadelphia. 1352 p.Carew, T. and Kandel, E. 1973. Acquisition and retention of long-term habituation in Aplysia:

Correlation of behavioral and cellular processes. Science 182.CidpUSA.org. n.d. Nervous System. http://www.cidpusa.org/declarative_memory.htm:

September 20, 2016.Clark, S. and Biggs, E. n.d. CROSS-SECTIONAL ANATOMY OF THE SPINAL CORD.

https://cnsresource.weebly.com/cross-sectional-anatomy.html: September 20, 2016.Clarke, M. 2016. Nervous systems n Effector cells~ muscle or gland cells n Nerves~ bundles of

neurons wrapped in connective tissue n Central nervous system (CNS)~ brain. http://slideplayer.com/slide/8543350/: September 20, 2016.

Craik, F. and Lockhart, R. n.d. comparison of models for explaining human memory. https://revisionforpsy3.wikispaces.com/comparison+of+models+for+explaining+human+memory: March 20, 2016.

Cunningham, J.G. and Klein, B.G. 2012. Cunningham's Textbook of Veterinary Physiology. 5thEdition. Elsevier - Health Sciences Division, Melbourne. 624 p.

Darling, D. 2016. Vertebrate nervous system. http://www.daviddarling.info/encyclopedia/V/vertebrate_nervous_system.html: March 20,2016.

de Lahunta, A., Glass, E.N., Kent, M. 2014. Veterinary Neuroanatomy and Clinical Neurology, 4th

ed. Saunders, Philadelphia. 600 p.Dovimae. 2013. T10: CNS. https://www.proprofs.com/flashcards/story.php?title=t10-

cns: March 20, 2015.Droual, R. 2013. The Brain.

http://droualb.faculty.mjc.edu/Lecture%20Notes/Unit%205/chapter_15_the_brain%20Spring%2007with%20figures.htm: March 20, 2015.

funnydogworld.com. 2014. DOG PASSED OUT. http://www.funnydogworld.com/_pics/Dog_Passed_Out.htm: March 20, 2015.

279

Georgia Highlands College. 2013. Peripheral Nervous System. http://www2.highlands.edu/academics/divisions/scipe/biology/faculty/harnden/2121/notes/pns.htm: March 20, 2015.

Greenfield, S.A. 1996. The Human Mind Explained. Holt and Company, New York.Guyton, A.C. and Hall, J.E. 2006. Textbook of medical physiology. 11st ed. W.B. Saunders,

Philadelphia. 1120 p.HumanPhysiology.Academy. 2015. The Cells of the CNS.

http://humanphysiology.academy/Neurosciences%202015/0.%20brain%20index.html :20September 2015

Jarvis, E. 2009. Cortical-Layered Hypothesis. http://avianbrain.org/nomen/Figure3.html:March 20, 2015.

Jensen, E. 2005. Teaching with the Brain in Mind. 2nd Ed. ASCD book. Alexandria, VA. 187 p.John, Y. 2016. What parts of the brain are shared with humans and all other vertebrates?

https://wine4soul.com/tag/fovea/: March 20, 2016.Kimball, J.W. 2016. The Human Central Nervous System. http://www.biology-

pages.info/C/CNS.html: March 20, 2016.KIN450. 2015. ALS III. https://kin450-neurophysiology.wikispaces.com/ALS+III: March 20,

2015.King, P. 2013. What does the sensory and/or motor homunculus of a Tiger look like?

https://www.quora.com/What-does-the-sensory-and-or-motor-homunculus-of-a-Tiger-look-like: March 20, 2015.

King, P. 2016. How many layers of neurons are in the cortex of the human brain? https://www.quora.com/How-many-layers-of-neurons-are-in-the-cortex-of-the-human-brain:March 20, 2016.

Maddox, S. 2016. Blood-Brain Barrier & The Spinal Cord. https://www.christopherreeve.org/blog/research-news/blood-brain-barrier-the-spinal-cord:March 20, 2016.

Martini, F.H., and Bartholomew, E.F. 1999. Structure and Function of the Human Body. PrenticeHall, New Jersy. 406 p.

Moruzzi, G., Magoun, H.W. 1949. Brain stem reticular formation and activation of the EEG.Electroencephalography. Clinical Neurophysiology Nov;1(4):455-73.

Mowatt, J. 2016. Are there any animals that have a naturally smooth, unwrinkled brain comparedto humans? https://www.quora.com/Are-there-any-animals-that-have-a-naturally-smooth-unwrinkled-brain-compared-to-humans: March 20, 2016.

Nance, J. 2012. Brain Anatomy and Functions. http://biogeonerd.blogspot.com/2012/10/brain.html: March 20, 2015.

OpenStax College, Biology. OpenStax CNX. 2016. The Central Nervous System. https://cnx.org/contents/FPtK1zmh@8.25:fEI3C8Ot@10/Preface: March 20, 2016.

OpenStax College, Biology. OpenStax CNX. 2016. Sensory Neuron Test Water.jpg. http://philschatz.com/biology-book/contents/m44749.html: March 20, 2016.

Osteopathicthoughts. 2015. Full Cranial Nerve Examination. https://osteopathicthoughts.wordpress.com/category/cranial-nerve-examination/: March 20,2015.

280

Psychestudy. n.d. Types of Memory. https://www.psychestudy.com/cognitive/memory/types: March 22, 2015.

Platt, S. and Olby, N. 2013. BSAVA Manual of Canine and Feline Neurology. 4th Ed. BSAVA publish,UK. 552 p.

Robinson, A.J. and Mackler, L.S. 1995. Clinical Electrophysiology: Electrotherapy andElectrophysiology testing. 2nd ed. Williams & wilkins; Maryland. 555 p.

Scott, A.S. and Fong, E. 1998. Body Structures and Functions. 9th ed. Delmar Publishing, NewYork. 160 p.

Raghuram, D. 2016. Blood: The blueprint to control brain? https://biotechin.asia/2016/01/31/blood-the-blueprint-to-control-brain/: March 22, 2016

Rudman, B. 2004. Aplysioidea - mantle cavity. http://www.seaslugforum.net/find/aplymant: March 22, 2015.

Sanderson et al. 2008. The role of the GluR-A (GluR1) AMPA receptor subunit in learning andmemory. Progressive Brain Research, 169:159-178.

Scott, A.S., and Fong, E. 1998. Body Structures and Functions, 9th ed. Delmar Publishing, New York.Sharadsaini. 2016. CEREBRAL HEMISPHERES: CELLULAR ARCHITECTURE

http://everythings.in/tag/cerebral-hemisphere/: March 22, 2016Sherwood, L., Klandorf, H., Yancey, P. 2012. Animal Physiology: From Genes to Organisms. Brooks

Cole, Delaware. 896 p.Smith, M.A. 2014. STAGES OF SLEEP: SLOW WAVE AND REM.

http://www.iqmindware.com/cross-training-brain-fitness/sleep: March 20, 2015.Tango, B. 2016. How are the ventricles of the brain connected?

https://www.quora.com/How-are-the-ventricles-of-the-brain-connected: March 22, 2016The Johns Hopkins University. n.d. Spinal Cord Injury.

https://www.hopkinsmedicine.org/healthlibrary/conditions/physical_medicine_and_rehabilitation/spinal_cord_injury_85,P01180: March 20, 2015.

Themilie. 2016. Woman photographs obese "athletes" to debunk BMI. https://www.reddit.com/r/fatlogic/comments/5tfi1y/woman_photographs_obese_athletes_to_debunk_bmi/: March 20, 2016.

Thomson, C.E., and Hahn, C. 2012. Veterinary Neuroanatomy: A Clinical Approach, 1 ed. SaundersLtd, Philadelphia. 178 p.

Uemura, E.E. 2015. Fundamentals of Canine Neuroanatomy and Neurophysiology. Wiley-Blackwell, Boston. 428 p.

Unity Companies. 2016. Types of Neuroglia. https://www.rrnursingschool.biz/unity-companies/types-of-neuroglia.html: March 20, 2016.

van den Berg, F. 2016. In an average adult human, how much distance is between the skull andthe brain? https://www.quora.com/In-an-average-adult-human-how-much-distance-is-between-the-skull-and-the-brain: July 22, 2016