A and P Midterm Review
Types of Tissue• 1. Epithelial tissue: covers and protects the body
surface, lines body cavities, specializes in moving substance into and out of blood (secretion, excretion, and absorption), and forms many glands.
• 2. Connective tissue: Supports body and its parts to hold and connect it together, transport substances and protect it from foreign invaders.
• 3. Muscle Tissue: produces movement; it moves the body and its parts. Cells are specialized for contractility and produce movement by shortening fibers.
• 4. Nervous Tissue: Most complex. Communication between parts and integration of activities. Major function is the generation of complex messages form coordination of body function.
Epithelial Tissue
•Membranes (covering and lining)•Functions:
▫1. Protection – Skin- tough impermeable epithelial covering
▫2. Sensory- In the eye, skin, nose, and ear .▫3. Secretion- glandular 4. Absorption- gut (nutrients) and respiratory tract (oxygen and CO2 exchange)▫5. Excretion- Kidney tubules, concentrates
urine
Characteristics of Connective Tissue
Made predominantly of matrix of intercellular material with few cells ie. The matrix of blood is plasma
Fibers maybe: Collagenous- white tough and strong (ligaments)Reticular- delicate- surrounding organsElastic- vocal cords
Muscle Tissue
•Skeletal- Muscle to bone attachment. Voluntary. Tissue is striated
•Smooth –Muscle in organs(visceral tissue), involuntary, non striated
•Cardiac- Wall of heart. Striated but involuntary. Characteristic is intercalated disc.
Nervous Tissue•Brain, Spinal cord and nerves•Basic cell= Nerve cells (NEURONS)
and neuroglia, which are supporting cells.
Cell Organelles
•Nucleus- plans for proteins, contains DNA•Mitochondria- powerhouse of cell•Lysosomes- recycle material•Golgi- pack sorts and delivers proteins,•Cytoplasma- cushions provides nutrients•Membrane-maintains homeostasis•Vacuole- temporary storage
Skin
Layers of the epidermis
Cell Layers of Epidermis1. Stratum Corneum (top layer)
Dead cells filled with keratin (barrier area)
2. Stratum Lucidum (clear layer)cells filled with keratin precursor called eleidin absent in thin skin.
3. Stratum granulosum (granular layer)cells arranged 2-3 layers and filled with keratohyalin granules that contain a high # of lysosomes ( to digest the cytoplasm as it is replaced with keratin
Cell layers- epidermis continued4. Stratum Spinosum (spiny layer)
cells arranged in 8-10 layers with prominent desmosomes (strong connections between cells appear spiny in microscope): Rich in RNA which is necessary for the protein synthesis of Keratin.
5. Stratum basale (base layer)single layer of columnar cells: only these cells undergo mitosis and then migrate through the other layers until they are shed.
•4.The pigment that gives you skin color is called what?
•5. What is the purpose of the skeletal system? Muscular system? Nervous system?
Bone Structure• Bone tissue is a type of
connective tissue, so it must consist of cells plus a significant amount of extracellular matrix.
• Bone cells:1. Osteoblasts
Bone-building cells. Synthesize and secrete
collagen fibers and other organic components of bone matrix.
Initiate the process of calcification.
Found in both the periosteum and the endosteum
The blue arrows indicate the osteoblasts. The yellow arrows indicate the bone matrix they’ve just secreted.
Bone Structure
2. Osteocytes Mature bone
cells. Osteoblasts that
have become trapped by the secretion of matrix.
No longer secrete matrix.
Responsible for maintaining the bone tissue.
Yellow arrows indicate osteocytes – notice how they are surrounded by the pinkish bone matrix.
Blue arrow shows an osteoblast in the process of becoming an osteocyte.
On the right, notice how the osteocyte is “trapped” within the pink matrix
3. Osteoclasts▫ Huge cells derived from the fusion of as many as 50 monocytes
(a type of white blood cell).▫ Cells that digest bone matrix – this process is called bone
resorption and is part of normal bone growth, development, maintenance, and repair.
▫ Concentrated in the endosteum.▫ On the side of the cell that faces the bone surface, the PM is
deeply folded into a ruffled border. Here, the osteoclast secretes digestive enzymes (how might this occur?) to digest the bone matrix. It also pumps out hydrogen ions (how might this occur?) to create an acid environment that eats away at the matrix. What advantage might a ruffled border confer?
▫ Why do we want a cell that eats away at bone? (Hint: bone is a very dynamic tissue.)
Microscopic Structure of Compact Bone
• Consists of multiple cylindrical structural units known as osteons or haversian systems.
• Imagine these osteons as weight-bearing pillars that are arranged parallel to one another along the long axis of a compact bone.
The diagram below represents a long bone shaft in cross-section. Each yellow circle represents an osteon. The blue represents additional matrix filling in the space btwn osteons. The white in the middle is the marrow cavity.
Osteons
• Each osteon consists of a single central canal, known as a haversian canal, surrounded by concentric layers of calcified bone matrix.▫ Haversian canals allow the passage of
blood vessels, lymphatic vessels, and nerve fibers.
▫ Each of the concentric matrix “tubes” that surrounds a haversian canal is known as a lamella.
▫ All the collagen fibers in a particular lamella run in a single direction, while collagen fibers in adjacent lamellae will run in the opposite direction. This allows bone to better withstand twisting forces.
Running perpendicular to the haversian canals are Volkmann’s canals. They connect the blood and nerve supply in the periosteum to those in the haversian canals and the medullary cavity.
Bone Classification• 4 types of bones:
1. Long Bones Much longer than they
are wide. All bones of the limbs
except for the patella (kneecap), and the bones of the wrist and ankle.
Consists of a shaft plus 2 expanded ends.
Your finger bones are long bones even though they’re very short – how can this be?
2. Short Bones Roughly cube shaped. Bones of the wrist and the
ankle.
Femur
Carpal Bones
Bone Classification• Types of bones:
3. Flat Bones Thin, flattened, and
usually a bit curved. Scapulae, sternum,
(shoulder blades), ribs and most bones of the skull.
4. Irregular Bones Have weird shapes
that fit none of the 3 previous classes.
Vertebrae, hip bones, 2 skull bones ( sphenoid and the ethmoid bones).
Sternum
Sphenoid Bone
The Motor Unit= Neuromuscular junctions (nerve meets muscle)
Auditory canal
Tympanum Round window Eustachian tube
Bone
Cochlea
Cochlear nerve
Semicircular canals
Oval window
StirrupAnvilHammer
Section 35-4
Figure 35-15 The Ear
Somatotype- a particular category of body build and physique
•Endomorph- Heavy rounded physique characterized by large accumulations of fat in the trunk and thighs.
•Mesomorph-Muscular physique•Ectomorph- thin fragile physique
characterized by little body fat accumulation.
Examples
Knee
Tendon
•ATP and Muscle Contraction ppt
3 Major Parts of the brain and their function•Cerebrum- conscious
awareness•Cerebellum- balance,
posture and coordination of movement.
•Brainstem- Regulates involuntary activities like temp, heart rate, breathing
4 lobes of the brain and their function
•Frontal lobe- intellectual power• Temporal Lobe- Primarily hearing
and speech• Occipital Lobe- receive and
interprets visual information• Parietal lobe- Sensory reception and
processing
JOINTS: Where 2 bones meet.
•Facilitate the movement of bones in relation to one another.
Attachment of Muscles•1. Origin- point of
attachment that does not move when the muscle contracts.
•2. Insertion- point of attachment that moves when the muscle contracts
Movement
•Abduct•Adduct•Flex•Extend•Lateral flexion•Rotation•Circumduction
Sarcomere•Segment of myofibril between two
successive Z lines •Each myofibril consists of many
sarcomeres•Contractile unit of the muscle fiber
Labeling • Body Directional
Terms on Final▫Brachial▫Carpal▫Femoral▫Posterior▫Axillary▫Cervical▫Orbital▫Patellar▫Buccal
LumbarAnteriorCranialCaudal
Neuron
•Label: node of Ranvier, axon, dendrite, synaptic junction, myelin
Motor Unit
Motor areaSensory area
Language area
Vision area
General interpretation
area
Cerebrum
Speech area
Taste area
Intellect, learning, and personality
Hearing area
Brain stem Cerebellum
Balance area
Anatomy of the brainAnatomy of the brain
Sarcomere
Human Skeletal Bones
WE ARE DONE!!! Half way through your senior year!! It only gets faster from here.