The Structure and Function of the Cervix During Pregnancy Translational

The Structure and Function of the Cervix During Pregnancy Translational

Translational Research in Anatomy 2 (2016) 1e7 Contents lists available at ScienceDirect Translational Research in Anatomy journal homepage: http://www.journals.elsevier.com/translational- research-in-anatomy The structure and function of the cervix during pregnancy James P. Nott a, Elizabeth A. Bonney b, James D. Pickering c, Nigel A.B. Simpson a, * a Division of Women's and Children's Health, School of Medicine, University of Leeds, Leeds, UK b Leeds Teaching Hospitals NHS Trust, Leeds, UK c Division of Anatomy, School of Medicine, University of Leeds, Leeds, UK article info abstract Article history: The structure of the cervix is integral to the maintenance of pregnancy, keeping the developing baby in Received 8 December 2015 utero and forming a barrier to the ascent of microorganisms from the vagina. Weakness of the cervix may Received in revised form lead to deficiency of this barrier and is associated with subsequent preterm birth. The underlying cause 25 January 2016 of this structural weakness is poorly understood. In this paper we review the structure and function of Accepted 29 February 2016 the cervix before and during pregnancy. The causes of mechanical failure of the cervix during pregnancy Available online 2 March 2016 are described, with a specific focus on the internal cervical os. We highlight the role of the internal cervical os in causing preterm birth and discuss research techniques that may provide further insight into Keywords: Cervix its function during pregnancy. It is hoped that clinical translation of this knowledge will enable the early fi fi Pregnancy and appropriate identi cation of women who will bene t from strategies to reinforce the internal os and Preterm birth so reduce the incidence of preterm birth. Cervical weakness © 2016 University of Leeds. Published by Elsevier GmbH. This is an open access article under the CC BY- NC-ND license (http://creativecommons.org/licenses/by-nc-nd/4.0/). Contents 1. Introduction . .................................................. 1 2. Structure of the cervix . .................................................. 2 2.1. Gross anatomy . .........................2 2.2. Microanatomy . .........................2 2.2.1. Epithelium . .........................2 2.2.2. Stroma . .........................2 3. Function of the cervix . .................................................. 3 3.1. Cyclical changes and the structure of the cervix . .........................3 3.2. Cervical mucus production and secretion . .........................3 4. Changes during pregnancy . ................................................. 3 5. Changes during labour . .................................................. 4 6. Preterm birth . .................................................. 4 7. Future research and the internal cervical os . ..................................... 5 8. Conclusion . .................................................. 6 Acknowledgements . .........................6 References.................................................................................................. .........................6 1. Introduction The cervix is integral to conception, the maintenance of preg- * Corresponding author. Division of Women's and Children's Health, Level 9, nancy, and timely delivery of the baby. Throughout gestation the Worsley Building, School of Medicine, University of Leeds, Clarendon Way, Leeds, cervix must remain closed despite multiple forces acting upon it LS2 9NL, UK. [1]. This enables it to act as a barrier to the ascent of vaginal E-mail address: [email protected] (N.A.B. Simpson). http://dx.doi.org/10.1016/j.tria.2016.02.001 2214-854X/© 2016 University of Leeds. Published by Elsevier GmbH. This is an open access article under the CC BY-NC-ND license (http://creativecommons.org/licenses/by- nc-nd/4.0/). 2 J.P. Nott et al. / Translational Research in Anatomy 2 (2016) 1e7 microorganisms and to retain the growing fetus within the uterus. pericanalar zone of small veins and capillaries [9,10]. This complex At term and during labour, the cervix must soften, shorten and arrangement is thought to exist throughout the cervix, although dilate to allow for the baby's passage. Inherited and acquired variations in vessel size and vessel course are noted between the weakness of the cervix may compromise its function and increase portio supravaginalis and portio vaginalis [10]. Whether or not the the risk of preterm birth (PTB)1 [2]. The underlying anatomy of the density of this vascular investment provides significant structural cervix responsible for its effectiveness is poorly understood support to the upper cervix is not known. although its deficiency may result in premature birth. This review will describe the structure of the normal cervix and 2.2. Microanatomy how this allows it to fulfil its primary function during pregnancy. The causes of mechanical failure of the cervix will be described, 2.2.1. Epithelium with a specific focus on the internal cervical os. Finally, current and The endocervical canal is lined by a single folded layer of mucus- future research directions in this area will be outlined. secreting columnar epithelium. This layer extends towards the squamous epithelium of the vagina to form the squamocolumnar 2. Structure of the cervix junction, an anatomical location susceptible to malignant change [11]. Histologically, the epithelial cells of the endocervical canal 2.1. Gross anatomy appear tall and slender, and are closely adhered to each other. The round or oval nuclei of these cells are found between the middle The cervix is a firm, cylindrical structure situated at the lower and basal thirds of the cell [5]. pole of the uterine corpus. The length of a normal adult non- The cervix is without glands. Instead, the infoldings of the pregnant cervix is approximately 25 mm, with an anteroposterior columnar epithelium create extensive crypt-like structures that diameter ranging between 20 and 25 mm and a transverse diam- secrete cervical mucus and act as storage sites for spermatozoa eter of 25e30 mm, although considerable variations occur due to following intercourse [12]. Squamous metaplastic processes often age, parity and stage of menstrual cycle [3e5]. The cervix is divided occlude these clefts, manifesting clinically as Nabothian follicles into two portions that lie above and below the vaginal reflection, [13]. the portio supravaginalis and portio vaginalis respectively. Outside of pregnancy the cervical canal is collapsed, firm, and fusiform in 2.2.2. Stroma shape. It ensures communication between the cavity of the corpus The components of the subepithelial stroma of the cervix have and the lumen of the vagina, and is bounded by the internal and been well documented. The firmness of the cervix is a result of the external os. presence of collagen (70% type I and 30% type III), which is the The cervix is located within the ‘true pelvis’, posterior to the predominant protein of its extracellular matrix. Collagen and the bladder base and directly anterior to the rectum. Separating the associated ground substance account for up to 80% of the sub- bladder from the upper portion of the cervix is the perimetrium, epithelial stroma [14,15]. It is thought that the directionality of the fl which is re ected on to the base of the bladder to form the vesico- collagen fibres may determine their ability to withstand forces uterine pouch. A lateral extension of this tissue passes towards the encountered in pregnancy: circumferentially around the cervical pelvic walls and encloses a number of important structures canal to prevent dilation of the cervix [16,17], and longitudinally to including the uterine vessels and ureters, surrounded by areolar resist those associated with cervical effacement [18]. tissues. Posteriorly, the rectouterine pouch (of Douglas) is formed The proportion of smooth muscle is variable. Estimates typically fl as a result of the peritoneal re ection from the cervix inferiorly to suggest smooth muscle accounts for 10e15% of the cervical stroma, the posterior vaginal fornix and onto the rectum. but estimates from 0 to 45% have also been observed [14,15,19]. The The cervix is held in place by paired ligaments on either side: distribution of smooth muscle is scattered at random throughout the uterosacral and cardinal (transverse cervical) ligaments. The the stroma, with very few bundles being formed. It has also been uterosacral ligaments run from the posterior and lateral supra- assumed from these studies that the cervical smooth muscle is vaginal portions of the cervix to the middle three sacral vertebrae unlikely to be functional due to fibre immaturity and fibre posi- [5]. Near the most distal attachment at the cervix, the uterosacral tioning within densely tangled collagen [19]. ligaments interlace with their respective cardinal transverse liga- Elastin has consistently been reported as comprising a small ments for approximately 2 cm, before running to their proximal percentage of the stromal substance [20]. The majority of elastin attachments [6]. It is thought that the uterosacral ligaments help to maintain the uterus in its typically anteverted state. The cardinal ligaments are the principal supports of the cervix. The attachments and positioning of the cardinal ligaments have been researched extensively, with great variation being observed. Although there remains controversy over whether these structures represent true ligaments or fascial condensations, a recent literature review has identified a variety of attachment sites on or running

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