Role of Thyroid Gland in Prenatal Development-A Mini Review
R Menaka and Gopal Puri*
College of Veterinary Science & Animal Husbandry, India
Submission: September 22, 2017; Published: October 17, 2017
*Corresponding author: Gopal Puri, College of Veterinary Science & Animal Husbandry, Navsari Agricultural University, Navsari-396 450 (Gujarat), India, Email: drgopalpuri@gmail.com
How to cite this article: R Menaka, Gopal P. Role of Thyroid Gland in Prenatal Development-A Mini Review. Dairy and Vet Sci J. 2017; 4(2): 555634. DOI: 10.19080/JDVS.2017.04.555634
Abstract
The thyroid gland is the first glandular structure to form and develops as a ventral midline as endodermal diverticulum from the floor of the foregut. The thyroid gland regulates the physical and chemical processes that occur at the cellular level. Thyroid hormones directly involved in the mammalian metabolism by a thermogenic in turns increase the amount of heat produced at a given time accelerating body growth and development and increasing cardiac function. The interrelationship of thyroid glands with body-growth and marked variations takes place viz in location, gross, histological and follicular activity during prenatal life.
Keywords: Thyroid gland; Foregut; Thermogenic; Hormones; Cardiac.
Introduction
Thyroid gland word derived from Greek "Thyreos" means an oblong shield and “Edios" means form. The gland appears to have longest phylogenetic history than any other endocrine glands in the body [1]. The thyroid gland is the largest classic endocrine organ, which effects many organs of the body and plays a significant role in the process of metabolism in animals [2]. The most numerous cell populations in the gland is the thyroid follicular cells which are responsible for secretion of iodated tyrosine derived hormones which exert important effects on development growth metabolism of the organ system [3].
Todini [4] stated that it regulates reproduction, productive performance such as growth, milk and hair fiber production in domestic animals and hence its level affects the farm animal productivity. Thyroid hormones also affects mammalian metabolism by a thermogenic action in which carbohydrate, lipid and protein metabolism can be accelerated in tissues and in turns increase the amount of heat produced at a given time accelerating body growth and development and increasing cardiac function [5]. Thyroid hormones (TH) are multipurpose systemic regulators of fetal and juvenile development and play a major role in adult metabolic homeostasis. Most tissues and organs respond to TH and consequently its cumulative effects may be measured by systemic oxygen consumption and metabolic rate. The diversity of cell types modulated by TH activity implicates its importance. Some of the major systems affected by TH include the heart, muscle, liver, bone, brain, and skin [6].
Role of the thyroid gland in the prenatal stage
The role of the thyroid gland in vertebrates is crucial to the general metabolism of the organism and the expression of this role is dependent on the age, nutrition and environment, especially climatic factors. It is therefore reasonable to expect certain structural and functional variations which modulate the function of the thyroid during development. In human and animal studies showed that thyroid hormones play a crucial role in nervous, cardiovascular, immune and reproductive system development and function [7]. The magnitude of the growth of different parts and body segments of fetuses varies at specific stage of development. The interrelationships of thyroid glands as a model in relation to the body-growth of fetuses were observed in goat prenatal development [8]. Marked variation in location, gross and histological features of thyroid gland in different vertebrates have been observed [9].
Biometrical Differences
The absolute weight of the gland only showed highly significant as deviation with body weight from 3rd month of gestational age onwards in fetuses of goats. The thyroid weight varies amongst domestic and wild animals depending on the diet, size and weight of the animal [10].?
Igbokwe et al. [11] reported in white Fulani (Zebu) cattle fetal age group of 90-140 days that the weight of the thyroid gland was 0.37 ±0.01mg, length of the thyroid gland was 0.51±0.01cm, the width of the thyroid gland was 0.42±0.01cm and thickness of the thyroid gland was 0.41±0.01cm. In white Fulani (Zebu) cattle fetal age group of 150-210 days the weight of the thyroid gland was 0.80 ±0.01mg, length of the thyroid gland was 1.26±0.01cm, the width of the thyroid gland was 0.50±0.01cm and thickness of the thyroid gland was 0.47±0.01cm. In white Fulani (Zebu) cattle fetal age group of 225-260 days the weight of the thyroid gland was 2.35 ±0.62mg, length of the thyroid gland was 2.23±0.04 cm, the width of the thyroid gland was 1.50±0.01cm and thickness of the thyroid gland was 0.74±0.02cm. Gross morphometry of thyroid gland showed that all measured parameters increased with increasing developmental age and significantly varied (p<0.05) from each age group, except width of the thyroid lobe during the fetal age 90-140 days. The isthmus was consistently present between the 1st to the 3rd tracheal ring in all fetuses in white Fulani (Zebu) cattle.
The thyroid weight increased with age for instance, the lobes were weighed about 0.05±0.001g in 50 days to 70 days of fetuses, 75 to 90 days of development mean weight about 0.22±0.001gm and 95 to 125 days of thyroid weight about 0.38±0.04 g observed in West African Dwarf (WAD) goat [12].
Anupriya & Kalpana [13] observed that the mean and range of length of thyroid lobe of human fetus during 10-17 weeks was 5.6mm (3-9), the mean and range of length of thyroid lobe of human fetus during 18-22 weeks was 9.5mm (9-12) and the mean and range of length of thyroid lobe of human fetus during 23-36 weeks was 12.1mm (7-18). The mean and range of breadth of thyroid lobe of human fetus during 10-17 weeks was 2.8mm (2-4), the mean and range of breadth of thyroid lobe of human fetus during 18-22 weeks was 4.2mm (3-6) and the mean and range of breadth of thyroid lobe of human fetus during 23-36 weeks was 4.5mm (2-6). The mean and range of thickness of thyroid lobe of human fetus during 10-17 weeks was 1.8mm (1-4), the mean and range of thickness of thyroid lobe of human fetus during 18-22 weeks was 2.75mm (2-4) and the mean and range of thickness of thyroid lobe of human fetus during 23-36 weeks was 2.9mm (2-5).
Conclusion
The development and function of the thyroid gland play a crucial role in the prenatal life. The fetal thyroids actively involved in the secretion of colloidal compound and stored as well in the thyroid follicles for fetal growth. The fetus entirely depends on maternal thyroidal hormones for the first 90 days of gestation, until the fetuses' thyroid begins to produce on its own. In human fetuses of first trimester are completely dependent on the mother for thyroid hormones necessary for brain development.
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