Bio Study Guide #2 PDF

Summary

This document is a study guide on biology, focusing on the integumentary and skeletal systems. It contains questions and detailed information about skin layers, types of cells, bone structure, and functions. The study guide is suitable for secondary school students.

Full Transcript

1. Name the functions of the integumentary system

Protection, Temperature Regulation, Sensation, and Metabolism

2. Know the different layers of the skin, including its major divisions as well as the subdivisions
of the epidermis and dermis

Epidermis: outermost layer, made of epithelial cells
○ Stratum Basale (Basal layer)
○ Stratum Spinosum (Prickly Layer)
○ Stratum Granulosum (Granular Layer)
○ Stratum Lucidum (Clear Layer)
○ Stratum Corneum (Horny Layer)
Dermis: tough inner layer made of fibrous connective tissue
○ Papillary Layer (20%)
○ Reticular Layer (80%)

3. Describe the function of each of the layers of the skin

The Hypodermis: sits below the dermis, anchors skin to underlying structures, and
thickens are we gain weight
Stratum Basale: primary site for new skin cell production in the epidermis
Stratum Spinosum: helps make your skin flexible and strong, keratinocytes
Stratum Granulosum: forms a waterproof barrier, prevents fluid loss
Stratum Lucidum: Reduces friction between the two layers it’s in-between
Stratum Corneum: a barrier that protects the body, the outermost layer
Papillary layer: blood vessels provide nutrients and oxygen to the epidermis
Reticular Layer: strengthens the skin, provides structure and elasticity

4. List the types of cells found in the epidermis and describe their functions

Keratinocytes: produce keratin, which gives the skin protection, forms a tight barrier
Melanocytes: produces melanin, which gives skin, eyes, and hair their color
Dendritic Cells: ingests foreign substances, activates the immune system
Tactile Cells: forms sensory receptors for touch

5. Explain the role the skin plays in maintaining calcium levels in the body

The skin provides Vitamin D to the digestive system, this helps the body absorb calcium

6. Describe the structure of a nail

Free edge - the part you clip
Nail plate - visible
Root - embedded in the skin
Rests on the nail bed, layers of the epidermis
Small white semicircle at the bottom - Lunule
Skin folds that surround the nail - nail folds

7. Know the internal structure of a hair
 Three layers of keratinized cells:
○ Medulla - central core
○ Cortex - bulky layer that surrounds the Medulla
○ Cuticle - outermost layer, provides strength

8. Describe how the shape of the hair shaft can affect the appearance of the hair

Round shaft grows straight hair
Curved(bean-shaped) grow wavy hair
Oval shape grows curly hair

9. Know the different types of sweat glands and how/when they function

Eccrine Glands - traditional sweat glands, over most of the body and open directly onto
the skin's surface
Apocrine Glands - found in the armpit and genital areas, lie deeper in the dermis, and
empty into hair follicles. Begin functioning at puberty and are more viscous

10. Know what sebaceous glands produce and their function

Sebaceous Glands: found all over the body, secrete oily substance sebum,
softens/lubricates skin

11. Know the different types of skin receptors and what sensations they are specialized to detect

Meissner’s corpuscles (in dermal papillae) allow us to sense touch
Pacinian corpuscles (in deeper dermis) allow us to sense pressure
Hair follicle receptors, free nerve endings throughout the skin

12. Describe the three types of skin cancer and the differences between them

Basal Cell Carcinoma - the most common type, occurs on sun-exposed areas of the face
Squamous Cell Carcinoma - usually on the head or hands, grows rapidly
Melanoma - cancer of the melanocytes, most dangerous, appears often from
pre-existing moles

13. List the “ABCDEs” of melanoma

A - Asymmetry
B - Border
C - Color
D - Diameter
E - Evolving

14. Describe the differences between the three degrees of burns

First Degree - Only epidermis damaged, redness and swelling
Second Degree - Epidermis and upper layer of dermis damaged, blisters appear
Third Degree - Entire thickness of skin, nerves destroyed, skin grafting needed

15. Name the functions of the skeletal system
 Gives the body shape and form, supports and protects our tissue and organs

16. Describe the gross anatomy of a bone

Compact bone - dense outer layer appears smooth
Spongy bone - internal layer, honeycomb of thin, flat, structures
Periosteum - covers the outside of the bone
Endosteum - Covers the inside of the spongy bone

17. Describe the microscopic anatomy of a bone

Cells: Osteogrenic -> Osteoblast -> Osteocyte -> Osteoclast
A bone's microscopic anatomy is primarily composed of cylindrical structures called
osteons, which consist of concentric rings of calcified matrix (lamellae) surrounding a
central canal (Haversian canal) containing blood vessels, with bone cells (osteocytes)
trapped within small spaces (lacunae) between the lamellae, connected by tiny channels
(canaliculi) that allow for nutrient transport

18. Describe the three ways in which PTH acts to increase calcium levels in the blood

Parathyroid Hormone
○ Efflux of calcium from the bone
○ Decreased loss of calcium in urine
○ Enhanced absorption of calcium from the intestine

19. Name the four types of cells found in bone and describe their functions

Osteogenic cells – mitotically active stem cells, found in periosteum and endosteum
Osteoblasts – bone-forming cells that secrete bone matrix
Osteocytes – mature bone cells in the lacunae; sense stress and respond to mechanical stimuli
Osteoclasts – Giant multinucleate cells, that break down bone

20. Describe how bones are formed in the embryo

Ossification - cartilage is gradually replaced by bone tissue
Cells called osteoblasts differentiate from mesenchymal cells and start secreting osteoid,
a collagen-rich matrix that will mineralize to form bone

21. Describe how bones grow post-natally
Longitudinal growth: Occurs at the epiphyseal plates
Appositional growth: Increase in bone thickness

22. Describe how and when bones remodel themselves
Continuous process of bone resorption and formation
Occurs in response to mechanical stress and calcium levels

23. Know the different regions of the vertebral column and what their functions are
Cervical: Supports the head, allows for neck movement
- Thoracic: Supports the rib cage, protects thoracic organs
- Lumbar: Supports the lower back, bears the weight of the body
 - Sacral: Connects the spine to the pelvis
- Coccygeal: Vestigial tailbone

24. Distinguish between the structures of the five types of vertebrae
Cervical: Small body, bifid spinous process, transverse foramina
Thoracic: Larger body, long spinous process, facets for rib articulation
Lumbar: Largest body, short and thick spinous process
Sacral: Fused vertebrae forming the sacrum
Coccygeal: Fused vertebrae forming the coccyx

25. Describe how the intervertebral discs function and their structure
Structure: Annulus fibrosus (outer ring), nucleus pulposus (inner gel-like core)
Function: Absorb shock, allow for flexibility and movement

26. Name the structures that make up the axial and the appendicular skeleton, and distinguish
between their functions
Axial: Skull, vertebral column, rib cage; supports and protects organs
Appendicular: Limbs, pectoral and pelvic girdles; facilitates movement

27. Know the major structural differences between the pectoral and pelvic girdles
Pectoral girdle: More flexible, less stable, consists of clavicles and scapulae
Pelvic girdle: More stable, less flexible, consists of hip bones

28. Know the major bones of the axial and appendicular skeleton

Axial: Skull, vertebral column, rib cage; supports and protects organs
Appendicular: Limbs, pectoral and pelvic girdles; facilitates movement

29. List and describe the major disorders of bone remodeling, and know the differences
between them
Osteoporosis: Decreased bone density, increased fracture risk
Osteomalacia: Softening of bones due to Vitamin D deficiency
Paget's disease: Abnormal bone remodeling, enlarged and misshapen bones

30. Describe the steps in bone repair after a fracture
Hematoma formation
- Fibrocartilaginous callus formation
- Bony callus formation
- Bone remodeling