BASES OF ANATOMY
Kateřina Kubíčková, M.D.
214437@mail.muni.cz
Department of Anatomy, Faculty of Medicine
Masaryk University
Recommended literature
• LECTURES
• Gray´s Basic Anatomy, Churchill Livingstone, 2013
• Instant Anatomy, Wiley-Blackwell, 2010
• Anatomy atlases: Netter, Sobotta, Pocket atlas etc.
• http://www.dartmouth.edu/~humananatomy/
INTRODUCTION INTO
ANATOMY
History, surface planes and directions on human
body, tissues
Anatomy
• Science of form, organisation, structure and posture of human body
and its parts
• Macroscopic anatomy (systemic, general anatomy, special,
topographical)
• Comparative anatomy, experimental anatomy, applied anatomy
• „Anatemnein“= to cut, dissection
Egypt – mummification
Greece – Hippocrates (460 B.C.) and his disciples – „Corpus Hippocraticum“
Aristoteles (384 B.C.) – tendons, nerves, joints
Hérofilos (335 B.C.) – dissection of human body (several terms, e.g. duodenum)
Galen of Pergamon (2nd century) – anatomy is a basic, dissection of animals
History
Middle Ages – stagnation, dissection is prohibited, Galen´s medicine
Rennaisance – letterpress, dissections in faculties of medicine
Leonardo da Vinci (1452) – dissection, locomotor system, cardiovascular system
„De humanis corporis fabrica libri septem“
- The first public dissection
„Tabulae anatomicae sex“
Andreas Vesalius (1514 – 1564)
Ján Jesenský (1655 – 1621) 1600 the first public dissection in
Prague
William Harvey (1578) – Blood circulation
Jan Evangelista Purkyně (1787) – Purkyně´s fibres, cells
Anatomical orientation
Surface planesAnatomical position
Longitudinal axis:
• Cranial (superior)
• Caudal (inferior)
Transverse axis:
• Medial
• Lateral
• Medius
• Medianus
• Dexter
• Sinister
Sagittal axis:
• Ventral (anterior)
• Dorsal (posterior)
• Internus (profundus)
• Externus (superficial)
Directions:
http://www.emsjunkie.com/anatomy-physiology/anatomical-position-directions-planes/
Upper limb:
Radial (lateral)
Ulnar (medial)
Palmar
Dorsal
Lower limb:
Tibial (medial)
Fibular (lateral)
Plantar
Dorsal
Extremities
Proximal
Distal
Čihák, 2001
Čihák, 2001
Parts of body
head – caput
neck – collum (cervix)
trunk – truncus
thorax
abdomen
back – dorsum
pelvis
Upper extremity – membrum superius
arm – brachium
forearm – antebrachium
hand – manus
Lower extremity – membrum inferius
thigh – femur
crus
Foot - pes
http://www.paradoja7.com/human-body-parts-back-side/human-body-parts-back-side/
Tissue
1. Epithelial tissue
2. Connective tissue
3. Muscular tissue
4. Nervous tissue
A part of an organism consisting of a large number of cells
having a similar structure and function.
Epithelial tissue
Covers the body, lines the cavities of the body and composes the glands
Simple epithelium: single layer of cells
• Simple squamous: thin
squamous cells, lining of
cavities (the mouth, blood
vessels and lungs)
• Simple cuboidal: cuboidal
cells, found in glands, duct
and portions of the kidney
tubules.
• Simple columnar: A single
layer of tall, skinny cells
(column shaped), found in
places like the lining of the
intestine and gallbladder
http://www.hartnell.edu/tutorials/biology/tissues.html
Stratified epithelium: the tissue is two or more cells thick
• Pseudostratified columnar: appears to be
composed of layers of cells, but is in fact
composed of just a single layer of cells, as
each cell touches the basement
membrane, line the nasal cavity, bronchi
and trachea.
• Stratified squamous: Many layers of cells
are present, the topmost layer is made up
of squamous cells, makes up the skin
surface and lining of the mouth, through
and esophagus.
• Stratified columnar: Many layers of
cells, the topmost layer is made up of
columnar cells, found in the mammary
ducts and epididymis.
http://www.proprofs.com/flashcards/cardshowall.php?title=anatomy-histology-lab-1
• Transitional: Multiple layers of cells,
but surface cells change from
rounded to flat to permit expansion
when needed, found in the urinary
bladder, renal pelvis and ureters.
• Glandular: Columnar and cuboidal
cells often become specialized as
gland cells which are capable of
secreting substances such as
enzymes, hormones, mucus, sweat
and saliva; e.g. salivary, sweat and
adrenal glands.
http://www.hartnell.edu/tutorials/biology/tissues.html
http://www.tutorvista.com/content/science/science-i/tissues/epithelial-tissue.php
Connective tissue
Connects and supports the structures of the body, providing structural
support and binding organs together.
Loose connective tissue – fibrocytes, skin
Dense connective tissue – regular (tendons), irregular (dermis)
Cartilage – chondrocytes, extracellular matrix, collagen and
elastic fibres
1. hyaline cartilage – the most common type of
cartilage, contains many collagen fibers; joints
2. elastic cartilage - many elastic fibers in the matrix;
auricular cartilage
3. fibrocartilage - tough and contains many collagen
fibers; intervertebral disc
Bone
Bone
1. Osteocytes
2. Bone matrix – organic substances (osein), 20-40%
anorganic substances (Ca, P, F…), 60-75%
Lamellar organization – Havers canals
Spongy bone – trajectories, arcitecture
Compact bone
http://www.studyblue.com/notes/note/n/lab-ex-7-bone--cartilage/deck/10093140
Muscle tissue
Muscle tissue is characterized by the ability to contract
when stimulated.
1. Skeletal muscle: long, multinucleate
cells with visible striations,
voluntary muscle
2. Smooth muscle: short, cylindrical
cells, involuntary muscle; e.g.
digestive tract, walls of blood vessels
3. Cardiac (heart) muscle: short,
branched, striated cells, with one
nucleus at the center of each cell,
joined to their neighbors by
intercalated discs, involuntary
muscle
Čihák, 2001
Nervous tissue
Highly specialized tissue, characterized by irritation,
conduction and integration.
Neuroglia - do not send or receive electrical
impulses, but support neurons (physical
support, providing nutrients, removing
debris and providing electrical insulation)
Neurons: carry electrical impulses.
Three main types of neurons:
1. Sensory neurons - conduct impulses
from the sensory organs (eyes, nose,
ears, etc) to the central nervous system
(brain and spinal cord).
2. Motor neurons - responsible for
conducting impulses from the central
nervous system to the effector organs
(muscles and glands)
3. Interneurons are those neurons that
connect sensory neurons to motor
neurons.
http://www.tutorvista.com/biology/types-of-neuroglial-ce
Čihák, 2001
OSTEOLOGY AND ARTHROLOGY
Periost : nutrition
innervation
fractures healing
Spongy bone
Proximal
epiphysis Hyaline cartilage
Compact bone
Nutrient artery
Diaphysis
Distal
epiphysis
STH – hypofýza – nanism – gigantism
thyroid gland, parathyroid gland, calcium, sexual hormons etc.
Ossification and bone growth
Chondral ossification – long bones
perichondral ossification
enchondral ossification
ossification centre
Desmogenous ossification – bone of skull
Growth plate – longitudinal
growth
Periosteum– width growth
Čihák, 2001
X-ray picture of 4
year old children
Ossification centres
Adenohypophysis dysfunction
(higher or lower hormon production or cell receptors miss)
STH
a) gigantism
b) Nanism
Bone connections
A) Synarthroses
(connective tissue, unmoveable)
1) Syndesmosis - suture
Čihák, 2001
2) Synchondrosis: cartilage, symphysis pubica
Sobotta, 2007
3) Synostosis – bone, e.g. sacral bone
Sobotta, 2007
Joint capsule+ligaments
Joint cavity, synovia
Hyaline cartilage
Joint head
B) Diarthroses
(joint connection with contact, moveable)
Articular fovea
1. Simple joint – two bones
2. Composed joint – more than two
bones or two bones + discus or
meniscus
Sobotta, 2007
Cruciate ligaments
Meniscus lateralis
Sobotta, 2007
Meniscus med.
.
Meniscus
lat.
Tendo m.
quadricip.
Lig. cruciata, cruciformia
Sobotta, 2007
AXIAL SKELETON
Lordosi
s
Kyfosis
33-34 originally, 24 free
7 vertebrae cervicales
12 vertebrae thoracicae
5 vertebrae lumbales
5 vertebrae sacrales – os sacrum
4–5 vertebrae coccygeae – os coccygis
Columna vertebralis (vertebral column)
Costae (ribs)
Sternum
Lordosis
Kyfosis
Sobotta, 2007
corpus
processus articul. sup.
Proc.spinosus
Facies art. costalis
ARCUS
VERTEBRA
Sobotta, 2007
processus spinosus
Proc.transversus
foramen
corpus
Costa
Processus
articul.
Arcus
Sobotta, 2007
Arcus post. - oblouk
foramen transversarium
+ arteria vertebralis
foramen
ATLAS – C1
Sobotta, 2007
Dens axis
Foramen
transversarium
+ a. vertebralis
AXIS – C2
Sobotta, 2007
Dens
Sobotta, 2007
Sobotta, 2007
atlas
dens
Os occipitale
Sobotta, 2007
Processus spinosus
C 1
a. vertebralis
Sobotta, 2007
C 1 – C 7
Cervical part of
vertebral column
Sobotta, 2007
C 1 - arcus
C 2 -dens
Os occipitale
Os hyoideum
vertebrae lumbales
L 1 - 5
Sobotta, 2007
Promontorium
( L5 – S1 )
foramina sacralia
pelvina
basis
os sacrum – S 1 – 5
Sobotta, 2007
facies auricularis
canalis sacralis
(spinal nerves)
Sobotta, 2007
facies auricularis = S-I
apex
vertebrae coccygeae = Co 1-3
Sobotta, 2007
ligamentum longitudinale
anterius
Connections of
the vertebrea
Sobotta, 2007
Ligaments of vertebral column–
spinal, transverse
Sobotta, 2007
Disci intervertebrales
Sobotta, 2007
anulus fibrosus
nucleus pulposus
Discus intervertebralis
anuls fibrosus
nucleus pulposus
foramen vertebrale + spinal cord
MRI + perimyelography
Thorax
Sobotta, 2007
RIBS:
-real 1-7
-false 8-10
-improper 11,12
Sobotta, 2007
Costae (ribs):
pars ossea
cartilaginea
Sobotta, 2007
rib
vertebra
Costovertebral connections
(on the body and transverse processes)
Sobotta, 2007
processus spinosus
Proc. transversus
foramen
corpus
costa
processus
articularis
arcus, oblouk
caput
Sobotta, 2007
Artt. sternocostales
Artt. interchondrales
STERNUM
Sternocostal connections
(on the body and transverse processes)
Sobotta, 2007