Integumentary System Skin as an Organ Largest organ
- Slides: 34
Integumentary System
Skin as an Organ • Largest organ in human body • All adults have 20 -25 lbs of skin • 4 Functions- Skin as radiator
Integumentary Structures • Components of the Integumentary System Figure 5 -1
Quick Overview Epidermis • Tissue= Stratified Squamous • No blood vessels in this layer • Dead Skin Cells Dermis • Tissue=Dense Irregular Collagenous Connective • Active area of skin Hypodermis (not actually skin) • Tissue=Areolar & Adipose • Connects skin to body (Epi=On, On the surface of something) (Hypo=Below, Less than)
4 Major Structures in Dermis 1. Hair Follicles • All anchored in dermis • Aid in temp regulation by trapping air to help insulate. • Sensitive-Can sense vibrations 2. Glands • Sweat Glands-Evaporation cools you • Oil Glands-Keep dead skin cells together. Protects from things getting in. (sebaceous gland)
4 Major Structures in Dermis 3. Blood Vessels • Bring nutrients and fluids to cells. • Bleed when you cut into dermis (not epidermis). 4. Sensory Nerves • Sense Temperature • Pain • Touch (Meisners Corpuscle-Light Touch; Pacinian Corpuscle-Deep pressure)
Hypodermis • • Link Between Body & Skin Find adipose mixed in with areolar tissue Most fat in your body is directly under skin. Major blood vessels
Dermis • Boundary between dermis & epidermis isn’t flat to prevent slipping apart. • Dermal Papilla-Bumps in dermis • Blisters caused by intense, prolonged friction. Epidermis separates from dermis and fluid enters. • Any change to dermis will be seen through epidermis (scars, surface contours, etc) • Scars are in dermis • Causes Fingerprints Dermal Papilla
Blisters
Epidermis • Super thin • Stratified Squamous • 5 Layers Living Layers! – Stratum Corneum – Stratum Lucidum (Only Soles of Feet & Palms) – Stratum Granulosum – Stratum Spinosum – Stratum Basale
Started from the bottom now we’re here. . Stratum Basale (hehehe) • All other cells come from here • #1 Job is Reproduction. Cells born here aren’t in full production mode yet, they don’t grow up here.
Stratum Basale (cont) • 2 Main types of cells in Stratum Basale – mostly Keratinocytes: Make protein- keratin to give epithelium strength. Don’t produce keratin yet in basale layer. – Melanocytes: Make pigment melanin (colors your skin). More Melanin=darker skin. • Albinism=Malfunctioning melanocytes
Stratum Spinosum • Cells from basale go here. • Cells here are growing up and producing keratin, etc. Like teenagers.
Stratum Spinosum (cont) • Melanocytes don’t reproduce in numbers. When they do=melanoma (malignant skin cancer) • Melanin-natural sunblock – Absorbs UV Rays, blocks UV rays from damaging dermis. – Tanning occurs by UV radiation stimulating excess melanin production.
Stratum Granulosum • Old cells • Been producing keratin for so long, we can see keratin “GRANULES” • Not much moisture/nutrient s • Cells on the verge of death.
Stratum Corneum • Top layer • Dead skin cells • Still tough because of protein keratin.
Stratum Lucidum • Palms/Soles of Feet • Less melanocytes, decreased pigment • Change from granulosum before corneum to thicken.
Sebaceous Glands (oil glands) • Occur over entire body - Except palms and soles • Simple alveolar glands – Holocrine secretion – entire cell breaks up to form secretion – Secretes an oily substance called sebum – Most are associated with a hair follicle • Functions of sebum – Softens and lubricates hair and skin – Skin waterproofing – Collects dirt
Sweat (Sudoriferous) Glands • Two types: • Eccrine (Merocrine) – Most abundant sweat gland – “True sweat” • 99% water with some salts • Contains traces of metabolic wastes ~ 2% urea – Role in thermoregulation – Widely present in skin (up to 500/cm 2) • Apocrine – Odorous secretion – Absent before puberty – Present in axillary, areolar, anal and genital areas
Eccrine (Merocrine) Gland Figure 5. 10 b
Nails • Scalelike modification of epidermis made of hard keratin • Parts of the nail – – – Free edge Body - dense mass of keratinized cells Root Nail folds Eponychium – cuticle
Skin Injury and Repair Bleeding occurs at the site of injury immediately after the injury, and mast cells in the region trigger an inflammatory response. Epidermis After several hours, a scab has formed and cells of the stratum germinativum are migrating along the edges of the wound. Phagocytic cells are removing debris, and more of these cells are arriving with the enhanced circulation in the area. Clotting around the edges of the affected area partially isolates the region. Scab Dermis Sweat gland Migratory Macrophages epithelial cells and fibroblasts Granulation tissue
Skin Injury and Repair One week after the injury, the scab has been undermined by epidermal cells migrating over the meshwork produced by fibroblast activity. Phagocytic activity around the site has almost ended, and the fibrin clot is disintegrating. After several weeks, the scab has been shed, and the epidermis is complete. A shallow depression marks the injury site, but fibroblasts in the dermis continue to create scar tissue that will gradually elevate the overlying epidermis. Scar tissue Fibroblasts
Skin Injury and Repair Table 5 -1
Aging of the Skin • Major Age-Related Changes – Injury and infection increase – Immune cells decrease – Sun protection diminishes – Skin becomes dry, scaly – Hair thins, grays – Sagging, wrinkles occur – Heat loss decreases – Repair slows
Effects of UV Radiation • Beneficial effect - activates synthesis of vitamin D 3 • Harmful effects – – Sun burn Wrinkles, premature aging Malignant melanoma Basal cell carcinoma
Types and Growth of Hair • Vellus hairs – Body hairs of women and children • Terminal hairs – Hair of scalp – Axillary and pubic area (at puberty) • Hair thinning and baldness – Due to aging – Male pattern baldness
Burns • Classified by severity – First-degree burn – only upper epidermis is damaged – Second-degree burn – upper part of dermis is also damaged • Blisters appear • Skin heals with little scarring – Third-degree burn • Consume thickness of skin • Burned area appears white, red, or blackened
Burns First-degree (epidermis only; redness) Second-degree (epidermis and dermis, with blistering) Third-degree (full thickness, destroying epidermis, often part of hypodermis)
Estimating Burns Using the Rule of Nines Figure 5. 11 a
Skin Cancer • Basal cell carcinoma – Least malignant and most common • Squamous cell carcinoma – Arises from keratinocytes of stratum spinosum • Melanoma – A cancer of melanocytes – The most dangerous type of skin cancer
Skin Cancer Squamouscellcarcinoma Basal cell carcinoma Melanoma Figure 5. 12
The Skin Throughout Life • Epidermis – Develops from embryonic ectoderm • Dermis and hypodermis – Develop from mesoderm • Melanocytes – Develop from neural crest cells
The Skin Throughout Life • Fetal skin – Well formed after the fourth month – At 5 -6 months • The fetus is covered with lanugo (downy hairs) – Fetal sebaceous glands produce vernix caseosa
- Thin skin vs thick skin
- Cell tissue organ organ system organism
- Cell to tissue to organ to organ system to organism
- Organ and organ system
- Largest lymphoid organ
- Lymphatic system organs and functions
- Stratum basale
- System ya
- Which is the largest organ in our body? *
- Liver the largest organ
- Bodys largest organ
- Thin skin vs thick skin
- Milady chapter 23
- Epidermis
- Integumentary system vocabulary
- Integumentary system pig
- Integumentary system adalah
- The integumentary system facts
- Exercise 7 the integumentary system
- Integumentary system vocabulary
- Exfoliative dermatitis
- Integumentary system
- Integumentary system assessment
- Integumentary system analogy
- The integumentary system
- The integumentary system
- Figure 5-1 the components of the integumentary system
- Effects of aging on the integumentary system
- Section 36-3 the integumentary system
- Integumentary system
- Integumentary system
- Unit 3 integumentary system a&p chapter 5
- Mongolian spot
- Layer of tissue
- 6 functions of the integumentary system