Skin Pathophysiology PDF

Summary

This document provides a detailed overview of skin pathophysiology, covering various disorders such as acne, dermatitis, eczema, psoriasis, rosacea, tinea, and skin cancer. It also discusses burns and cutaneous drug delivery methods. The information seems suitable for medical students or professionals learning about skin conditions.

Full Transcript

Anatomy & Physiology:
Skin Pathophysiology

Dr. Heather Jones
[email protected]
866-8133
 Pathophysiology
Overview of disorders
Acne: Inflammation of sebaceous glands, become clogged

Dermatitis: inflammation of the skin primarily involving the
papillary layer of the dermis, causes itching and redness

Eczema: skin lesions caused by an allergy (rash), young age,
itchy, red and may lead to thickening and dark patches

Psoriasis: Immune system mediated hyperproliferation and
abnormal differentiation of epidermal cells, redden plaques
with a silvery covering

Rosacea: enlarged facial skin blood vessels, reddened face

Tinea: fungal skin infections
 Pathophysiology
Skin Cancer: common form of cancer, primarily due to UV
radiation, damages epidermal cell suppress genes
Three main types (epidermal):
Squamous cell carcinoma
✓ Aries from keratinocytes in
stratum spinosum
✓ Can metastasize
Basal cell carcinoma
✓ Arises from stratum basale
✓ Most common
✓ Seldom metastasizes
Melanoma
✓ Arises form melanocytes
✓ If not caught early, quickly
metastasizes
 Pathophysiology
Skin Cancer:

ABCD method to detect melanoma:
A: Asymmetry, one side looks different
B: border, irregular border
C: color, mixture of several colors: tan, brown, black, red
D: diameter, greater than 6 mm

Prevention:
Avoiding UV exposure
Use UV protective sunblock
 Pathophysiology
Burns
Burns result from the exposure of the skin to heat, friction,
radiation, electrical shock, and chemical
Burns are categorized based on the depth of the tissue
involvement
 Pathophysiology
Symptoms of large burns:
1. Water and electrolyte balance: burn damages the skin barrier
leading to loss and plasma protein loss
2. Temperature regulation: loss of water leads to evaporative
cooling
3. Infection: dampness and barrier loss can lead to bacteria
growth and widespread infection

Treatments:
1. Fluid replacement
2. Nutrients to meet increased metabolic demands
3. Infection prevention: remove infected tissue and clean
coverings for the burns

Skin Grafts: full thickness burns leave no layer to grow from
healthy skin must be placed on top (auto or allo)
 Cutaneous Drug Delivery
The skin as a drug delivery systems: treat skin conditions or
deliver drugs to other organs
Factors: molecular weight, solubility, partition coefficient
Methods of delivery
Transepidermal: Intercellular or transcellular
Transappendageal: hair follicle or sweat gland
 Cutaneous Drug Delivery
Drug delivery through the skin transdermal drug delivery