Skin: Difference between revisions
No edit summary |
No edit summary |
||
| Line 39: | Line 39: | ||
* This layer consists of fibrocytes and adipocytes and is rich in proteoglycans and glycosaminoglycans, which confer mucus-like properties <ref name=":2" />to the layer.<ref name=":2" /> This layer also produces a variety of mediators such as growth factors, adipokines, and cytokines, and contains multiple immune cells. | * This layer consists of fibrocytes and adipocytes and is rich in proteoglycans and glycosaminoglycans, which confer mucus-like properties <ref name=":2" />to the layer.<ref name=":2" /> This layer also produces a variety of mediators such as growth factors, adipokines, and cytokines, and contains multiple immune cells. | ||
* Subcutaneous fat serves as an insulating layer for the body, as fat is a poor conductor of heat.<ref name=":2" /> | * Subcutaneous fat serves as an insulating layer for the body, as fat is a poor conductor of heat.<ref name=":2" /> | ||
=== Innervation === | |||
* The skin is innervated by sensory nerves expressing receptors that can sense pain (nociceptors), itch (pruriceptors), temperature (thermoreceptors), and touch (low-threshold mechanoreceptors). These receptors are present as nerve free endings. <ref name=":2" /> | |||
*# Nociceptive nerves are in close contact with hair follicles and epithelial cells with their free nerve endings terminating at various levels of the epidermis | |||
*# Merkel cells are involved in mechanosensation (light touch) theses are oval-shaped cells interspersed in the basal layer of the epidermis and innervated with sensory fibers. | |||
*# Meissner’s corpuscles are localized in the papillary dermis and are sensitive to touch | |||
*# Pacinian corpuscles are located in the reticular dermis and are responsive to pressure and vibration. Both types of corpuscles are supplied by Aα and Aβ sensory nerve fibers that are situated in the sensory ganglia. | |||
*# Thermoreceptors, critical for sensing thermal differences between the skin and the external environment, are expressed on both heat- and cold-sensitive nerves, with the skin being more densely populated by cold-sensitive nerves. Activation of thermally sensitive nerves to either heat or cold results in vasodilation, vasoconstriction, sweating, or shivering. | |||
* Other mechanoreceptors are present in the skin as corpuscles. | |||
* Cell bodies of nerves innervating the skin are present in the trigeminal and dorsal root ganglia. | |||
== Function == | == Function == | ||
| Line 49: | Line 59: | ||
* homeostasis in general. | * homeostasis in general. | ||
The skin is also highly adaptive with different thicknesses and specialized functions in different body sites. | The skin is also highly adaptive with different thicknesses and specialized functions in different body sites. | ||
* | |||
* | |||
== Clinical Relevance == | == Clinical Relevance == | ||
Revision as of 02:45, 4 November 2020
Original Editor - User Name
Top Contributors - Vidya Acharya, Naomi O'Reilly, Kim Jackson, Lucinda hampton and Chelsea Mclene
This article or area is currently under construction and may only be partially complete. Please come back soon to see the finished work! (4/11/2020)
Description[edit | edit source]
Skin is part of the integumentary system and is the largest and primary protective organ of the human body[1]. It covers the body's entire external surface and serves as a first-order physical barrier against the outer environment.
Structure[edit | edit source]
The skin is made up of three layers[1].
- The epidermis, the outermost layer of skin, provides a waterproof barrier and contributes to skin tone.
- The dermis, found beneath the epidermis, contains connective tissue, hair follicles, blood vessels, lymphatic vessels, and sweat glands.
- The deeper subcutaneous tissue (hypodermis) is made of fat and connective tissue.
Epidermis[edit | edit source]
The epidermis is further divided into:[2]
- 5 layers on thick skin like the palms and soles (stratum basale, stratum spinosum, stratum granulosum, stratum lucidum, and stratum corneum)
- 4 layers in other places (lacking the stratum lucidum)
The epidermis is a stratified squamous epithelium that contains four to five layers depending on its location[1]:
- Stratum Basalis (Basal cell layer): It is deepest and closest to the dermis. The stratum basale contains basal keratinocytes, immune cells such as Langerhans cells and T cells, and melanocytes that provide the skin with pigmentation[3]. Keratinocytes from this layer evolve and mature as they travel outward/upward to create the remaining layers.
- Stratum Spinosum (Prickle cell layer): This layer compromises most of the epidermis and contains several layers of cells connected by desmosomes who keep cells tightly bound to one another and resemble "spines"
- Stratum Granulosum (Granular cell layer): This layer contains several layers of cells that contain lipid-rich granules. In this layer, cells begin to immortalize and lose their nuclei, as they move away from the nutrients located in the deeper tissue. Keratinocytes in the stratum granulosum contain cysteine- and histidine-rich granules, which bind keratin filaments together[3].
- Stratum Lucidum: This layer is only present in the thick skin of soles and palms and consists of mostly immortalized cells. It is a thin, clear layer of dead keratinocytes. Instead of keratin, keratinocytes in the stratum lucidum contain eleidin, a clear intracellular protein, which gives this layer its transparent appearance[3].
- Stratum Corneum (Keratin layer): It is the outermost layer of the epidermis. This keratinized layer serves as a protective overcoat and due to keratinization and lipid content, this layer allows for the regulation of water loss by preventing internal fluid evaporation.
Dermis[edit | edit source]
Dermis lies deep to the epidermis. It is a thick layer of connective tissue consisting of collagen and elastin which contributes to skin’s strength and flexibility, respectively. It also contains nerve endings, blood vessels, and adnexal structures such as hair shafts, sweat glands, and sebaceous glands.
The dermis is divided into two layers[1][2]:
- Papillary dermis (the upper layer): The apical layer of dermis folds to form papillae that extend into the epidermis like tiny finger-like projections and is referred to as the papillary dermis. It contains capillaries that facilitate the transport of nutrients
- Reticular dermis (the lower layer): The lower layer of the dermis is referred to as the reticular dermis. It contains skin appendages such as hair follicles, sebaceous glands, and sweat glands. The presence of a dense concentration of collagenous and reticular fibers interwoven within this layer makes the reticular dermis is significantly thicker than the papillary dermis.[3]
Both dermal layers contain fibroblasts, myofibroblasts, and immune cells such as macrophages, lymphocytes, and mast cells. Fibroblasts synthesize an extracellular matrix comprising of collagen, proteoglycans, and elastic fibers that provide the structural integrity of the dermis.[3]
Hypodermis[edit | edit source]
- The hypodermis is the third and deepest layer, consisting mainly of adipose tissue[1].
- Skin adipose tissue stores energy in the form of fatty acids and functions as an endocrine organ important for glucose homeostasis and lipid metabolism.[3]
- This layer consists of fibrocytes and adipocytes and is rich in proteoglycans and glycosaminoglycans, which confer mucus-like properties [3]to the layer.[3] This layer also produces a variety of mediators such as growth factors, adipokines, and cytokines, and contains multiple immune cells.
- Subcutaneous fat serves as an insulating layer for the body, as fat is a poor conductor of heat.[3]
Innervation[edit | edit source]
- The skin is innervated by sensory nerves expressing receptors that can sense pain (nociceptors), itch (pruriceptors), temperature (thermoreceptors), and touch (low-threshold mechanoreceptors). These receptors are present as nerve free endings. [3]
- Nociceptive nerves are in close contact with hair follicles and epithelial cells with their free nerve endings terminating at various levels of the epidermis
- Merkel cells are involved in mechanosensation (light touch) theses are oval-shaped cells interspersed in the basal layer of the epidermis and innervated with sensory fibers.
- Meissner’s corpuscles are localized in the papillary dermis and are sensitive to touch
- Pacinian corpuscles are located in the reticular dermis and are responsive to pressure and vibration. Both types of corpuscles are supplied by Aα and Aβ sensory nerve fibers that are situated in the sensory ganglia.
- Thermoreceptors, critical for sensing thermal differences between the skin and the external environment, are expressed on both heat- and cold-sensitive nerves, with the skin being more densely populated by cold-sensitive nerves. Activation of thermally sensitive nerves to either heat or cold results in vasodilation, vasoconstriction, sweating, or shivering.
- Other mechanoreceptors are present in the skin as corpuscles.
- Cell bodies of nerves innervating the skin are present in the trigeminal and dorsal root ganglia.
Function[edit | edit source]
- It also regulates temperature and[2]
- protects against ultraviolet (UV) light, trauma, pathogens, microorganisms and toxins.
- plays an important role in immunologic surveillance,
- sensory perception,
- control of insensible fluid loss, and
- homeostasis in general.
The skin is also highly adaptive with different thicknesses and specialized functions in different body sites.
Clinical Relevance[edit | edit source]
Skin response in wound healing
- bulleted list
- x
or
- numbered list
- x
References[edit | edit source]
- ↑ 1.0 1.1 1.2 1.3 1.4 Agarwal S, Krishnamurthy K. Histology, skin. StatPearls [Internet]. StatPearls Publishing. 2019 Jan 25.
- ↑ 2.0 2.1 2.2 Lopez-Ojeda W, Pandey A, Alhajj M, Oakley AM. Anatomy, Skin (Integument). StatPearls [Internet]. 2020 Jul 10.
- ↑ 3.0 3.1 3.2 3.3 3.4 3.5 3.6 3.7 3.8 3.9 Nguyen AV, Soulika AM. The dynamics of the skin’s immune system. International journal of molecular sciences. 2019 Jan;20(8):1811.
