Exocrine GlandsExocrine glands secrete onto a surface and possess ‘ducts’ lined with epithelium; they can either be simple or compound. Show
Exocrine glands are classified by the shape of their secretory unit:
Secretory units of both shapes, are referred to as a tubuloacinar or tubuloalveolar gland. They are found in the pancreas and salivary glands. Exocrine glands can have mucous, serous or mixed secretions; mucous glands secrete a glycoprotein mixture (mucus), serous glands produce a watery fluid containing a variety of enzymes and finally, mixed glands secrete a mixture of both mucous and serous secretions. By CNX OpenStax, [Creative Commons 3.0] via Wikimedia Commons Figure 1 – Diagram to show the different types of exocrine gland Clinical Relevance – Cystic fibrosisCystic Fibrosis is an autosomal recessive genetic disorder, where a mutation in the CFTR gene leads to defective chloride channels in the exocrine glands of the body. Secretions become hyperviscous and causes signs and symptoms such as salty-tasting skin, poor growth, accumulation of thick mucus, coughing and shortness of breath. There is no known cure for Cystic Fibrosis and so treatment is mainly symptomatic management. Endocrine GlandsEndocrine glands are ductless and release their secretions (hormones) directly into the bloodstream. These form the basis of the endocrine system, which relies heavily on the right level of hormones secreted throughout the body. Examples of endocrine glands include the pituitary gland, pancreas, adrenal glands, the thyroid gland and parathyroid glands. Pituitary GlandThe pituitary gland is an important gland of the endocrine system that secretes a number of hormones which target different organs to regulate vital body functions and general wellbeing. It sits below the hypothalamus and consists of the anterior (adenohypophysis) and posterior (neurohypophysis) pituitary. The anterior pituitary secretes the following hormones:
The posterior pituitary secretes the following hormones:
PancreasThe pancreas has both endocrine and exocrine functions:
Author: Charlotte O'Leary BSc, MBChB • Reviewer: Dimitrios Mytilinaios MD, PhD Epithelia are a group of tissues derived from all three embryonic germ layers, which are involved in absorption, secretion, selective diffusion and physical protection. Epithelia primarily involved in secretion are arranged into structures known as glands. Glands are invaginations of epithelial tissue and can be divided into two main types:
This article will discuss the structure and function of exocrine and endocrine glands as well as examples of these glands. This will be followed by any relevant clinical pathology. Exocrine glandsExocrine glands release their secretions onto an epithelial surface via a duct. Exocrine glands consist of two main parts, a secretory unit and a duct. The secretory unit consists of a group of epithelial cells, which release their secretions into a lumen. A duct is lined with epithelium and is involved in transporting the secretions from the secretory unit to an epithelium-lined surface. Classification by shapeExocrine glands can be classified into a variety of categories in terms of their structure. They can be categorized according to the shape of their secretory unit. Secretory units shaped as a tube are referred to as tubular, whereas spherical units are referred to as alveolar or acinar, when the pancreas is involved. Exocrine glands can also be comprised of both tubular and alveolar secretory units and. In this case, they are referred to as tubuloalveolar. They can also be categorized according to whether their duct is branched or not. An unbranched duct is referred to as a simple gland, whereas a branched duct is known as a compound gland. An example of a simple gland is a sweat gland, whereas the pancreas is an example of a compound gland. Compound tubuloalveolar mixed salivary gland (histological slide)Classification by functionExocrine glands can also be classified into a variety of categories in terms of their function. They can be categorised into 3 subtypes according to their type of secretory product:
Serous glands produce serous fluid, a watery substance containing enzymes. Mucous glands are involved in the production of mucus, a viscid (sticky) glycoprotein. Mixed glands are comprised of both serous and mucous glands and secrete a mixed substance containing both serous fluid and mucus. Mixed seromucous glands (histological slide)Classification by secretion mechanismExocrine glands can also be categorised into another 3 subtypes according to their secretion mechanism:
Merocrine glands are the most common and release their secretory products via exocytosis. The major secretory products of these glands are usually proteins. Apocrine glands release their secretory products contained within membrane-bound vesicles. This type of secretion is rare and these glands are found in the breast and constitute some sweat glands. Holocrine glands release whole secretory cells, which later disintegrate to release the secretory products. This type of secretion is seen in sebaceous glands associated with hair follicles. Apocrine sweat gland (histological slide)The release of secretory products from the secretory unit is aided by some contractile cells, known as myoepithelial cells. These cells comprise characteristics of both muscle and epithelial cells and lie between the secretory unit and basement membrane. The cytoplasmic processes of these cells envelop the secretory unit so that contraction of these cells results in release of the secretory products from the secretory units and into the ducts. Release of secretory products occurs in response to stimulation by hormones or autonomic nerve impulses. Test your knowledge on the sweat glands with this quiz. Endocrine glandsEndocrine glands release their secretory products directly into the bloodstream, rather than via a duct. These glands are surrounded by a strong connective tissue capsule, which has fibrous extensions known as trabeculae. These trabeculae provide internal support and give the gland a lobular appearance. Endocrine glands release secretions known as hormones, which travel via the bloodstream to reach their target cells, where they elicit functional changes. The hormones are commonly stored intracellularly within secretory vesicles and are released intermittently via exocytosis. An exception to this is the thyroid gland, which stores its hormone extracellularly as an inactive precursor molecule. Secretion of hormones is usually regulated by negative feedback, where a rise in the level of hormone in the blood decreases its secretion. Sebaceous glandsSebaceous glands are simple, branched, acinar, exocrine glands located within the skin. They secrete a fatty substance sebum, into the follicular duct, which surrounds the hair shaft. Sebum helps keep the skin flexible and prevents water loss. These are known as holocrine glands, as sebum is released when the secretory cells degenerate. Sebaceous gland (histological slide)Pituitary glandThe pituitary gland is a small endocrine gland within the brain involved in hormone synthesis and regulation. It consists of two parts, the anterior pituitary or adenohypophysis, and the posterior pituitary, or neurohypophysis. The anterior pituitary secretes:
ACTH and TSH travel to their target organs, the adrenal gland and the thyroid gland, respectively in order to stimulate the release of further hormones. The posterior pituitary secretes antidiuretic hormone (ADH), otherwise known as vasopressin, and oxytocin. Pituitary gland (anterior view)PancreasThe pancreas is an organ comprised of both exocrine and endocrine glands. The majority of the pancreas has an exocrine function and secretes an enzyme-rich alkaline fluid into the pancreatic duct, which joins the common bile duct before emptying into the duodenum. The exocrine glands secrete the proteolytic enzymes trypsinogen and chymotrypsinogen, which are activated to trypsin and chymotrypsin in the duodenum and aid in digestion. Pancreas (anterior view)The exocrine pancreas also secretes bicarbonate ions, which neutralise the acidic chyme as it reaches the duodenum. There are also clusters of endocrine glands located within the exocrine tissue and these are referred to as islets of Langerhans. The two main hormones released from the endocrine glands of the pancreas are insulin and glucagon. The pancreas also secretes:
Other glandsOther examples of glands include:
Clinical notesAdenocarcinomasAdenocarcinomas are malignant tumours that arise from glandular epithelium and are common in the gastrointestinal system, uterus, lungs, breast and prostate. They consist of abnormal glands and can secrete mucus. They are usually diagnosed by a biopsy, a CT scan or by an MRI scan. Treatment can involve solely surgery, chemotherapy or radiotherapy or a combination of these. AdenomasAdenomas are the benign counterparts of adenocarcinomas and are commonly found in the pituitary gland. Pituitary adenomas do not invade the surrounding tissues, but they can have serious consequences due to compression on surrounding structures such as the optic chiasm, which can lead to visual problems. They can also secrete hormones such as ACTH, which can lead to Cushing’s disease, or GH, which can lead to gigantism in children and acromegaly in adults. Gland hyperfunctionHyperfunctioning of an endocrine gland such as the thyroid gland, pituitary gland or adrenal gland can lead to increased secretion of hormones. An example of this is Grave’s disease, which is due to an overproduction of thyroid hormones and can cause symptoms such as irritability, weight loss, tremor and a rapid heartbeat. Treatment can involve pharmacotherapy such as carbimazole or propylthiouracil, surgery or radioiodine therapy. Gland hypofunctioningA hypofunctioning endocrine gland can also occur resulting in a reduced production of hormones. An example of this is hypopituitarism, where production of one or more of the hormones of the pituitary gland, is reduced. Symptoms are related to the hormones involved and can include short stature (GH deficiency), polyuria (ADH deficiency) and weakness (ACTH deficiency). Treatment can involve hormone replacement, surgery or radiation therapy. Another example of a disease due to hypofunction is type I diabetes mellitus, where autoimmune destruction of the beta cells of the pancreas leads to reduced insulin in the bloodstream. This can lead to polyuria (increased urination) and polydipsia (Increased thirst) due to a reduction in glucose storage. Treatment involves daily insulin injections and blood glucose monitoring to try and prevent complications such as diabetic nephropathy (kidney damage) and diabetic neuropathy (damage to the nerves). SourcesAll content published on Kenhub is reviewed by medical and anatomy experts. The information we provide is grounded on academic literature and peer-reviewed research. Kenhub does not provide medical advice. You can learn more about our content creation and review standards by reading our content quality guidelines. References:
Illustrators:
Glands: want to learn more about it? Our engaging videos, interactive quizzes, in-depth articles and HD atlas are here to get you top results faster. What do you prefer to learn with? “I would honestly say that Kenhub cut my study time in half.” – Read more. Kim Bengochea, Regis University, Denver © Unless stated otherwise, all content, including illustrations are exclusive property of Kenhub GmbH, and are protected by German and international copyright laws. All rights reserved.What is the structure of the exocrine system?Structure Of The Exocrine Glands
The ductal portion is tubular in shape. It is a single, thick, cuboidal cell wall that helps in the movement of the secretion. The duct may be branched or unbranched. It can also be found as a simple coiled structure.
What is the principal structure of exocrine glands?Exocrine glands consist of two main parts, a secretory unit and a duct. The secretory unit consists of a group of epithelial cells, which release their secretions into a lumen. A duct is lined with epithelium and is involved in transporting the secretions from the secretory unit to an epithelium-lined surface.
What is the description of exocrine glands?A gland that makes substances such as sweat, tears, saliva, milk, and digestive juices, and releases them through a duct or opening to a body surface.
What is the structure and function of glands?Glands produce and release different hormones that target specific things in the body. You have glands all over your body, including in your neck, brain and reproductive organs. Some glands are tiny, about the size of a grain of rice or a pea. The largest gland is the pancreas, which is about 6 inches long.
|