Lecture 5        ESS_3rd semester
MICROSCOPIC STRUCTURE OF FEMALE REPRODUCTIVE SYSTEM
Ovary, oviduct, uterus, vagina, and external genitalia
Ovarian cycle, ovulation, and atresia. Oogenesis
Menstrual cycle - its relations to the ovarian
cycle

2 ovaries, 2 oviducts (uterine tubes), the uterus,
the vagina, and external genitalia (clitoris, labia
majora et minora pudendi, vestibulum vaginae and hymen)

the placenta and umbilical cord
a close relation to FRS have mammary glands
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•function of female reproductive system:
Ø to produce and transport ova
Ø to support a developing embryo
–
•in sexual mature females, some organs of this system undergoe cyclic changes in their structure
and functional activity
•
•the sexual maturity begins
•
Ømenarche = the time when the first menses occur
Ø
– and ends
–
Ømenopause =  a period, during which the cyclic changes become irregular or eventually disappear
altogether
•

–MICROSCOPIC ANATOMY OF THE OVARY
•(lat. ovarium, gr. oophoron)
–an almond-shaped body approximately 3 cm long, 1.5 cm wide, and 1 cm thick
–
–it is roughly divided into
Ø a central medulla that is occupied by a dense connective tissue stroma with a rich vascular bed
Ø a peripheral cortex composed of spindle-shaped form cells = fibroblasts
–
–the surface of the organ is covered by simple  squamous or cuboidal epithelium called the germinal
epithelium
–
–under the germinal epithelium fibroblasts are densely organized to form
–the  capsule of the ovary known as the tunica albuginea
–
–the cortex contains ovarian follicles and their derivatives that are corpus luteum and corpus
albicans

Hum_ovary_upr kopie
The ovary


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Ovarian follicles and their derivatives
Follicles are classified:
Ø primordial follicle
Ø unilaminar primary follicle
Ø multilaminar primary follicle
Ø secondary (antral) follicle
Ø mature (graafian) follicle

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•
•Primordial follicle
•
• d. 45–50 µm
•
Øa primary oocyte enveloped by
Øa single layer of flattened follicular
• cells (granulosa cells)
Øa basement membrane of the
• follicular epithelium
•
•
•
•
•Unilaminar primary follicle
•
• d. 60–75 µm
•
•differs from primordial follicle by
•presence of cuboidal follicular cells

•Multilaminar primary
•follicle
• d. 200 až 250 µm
•
•oocyte increases its size and
•follicular cells proliferate  by
•mitosis and form around it
•several layers - zona
•granulosa
•
•formation of the zona pellucida
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•the zona pellucida
• is composed of glycosaminoglycans
• it is thought that both oocyte and follicular cells take part in its synthesis
•
•with this event, the cortical stroma around the follicle develops to form the theca
•folliculi
•it differentiates subsequently into
Øthe theca interna that is highly vascularized and and whose cells enlarge
Øthe theca externa formed by a connective tissue
Ø
•the cells of the theca interna synthesize androstenedione that is converted into
•estradiol by cells of zona granulosa
•
•Secondary (antral) follicle
•
•is characterized by accumulation of fluid between follicular cells (cells of zona
•granulosa) and by formation small cavities that gradually become to fuse in the single,
•eccentrically placed cavity, the antrum folliculi filled with liquor folliculi
•
•the lining of this single cavity is formed with several layers of follicular cells, the
•membrana granulosa
•at the follicle pole adjacent to the medulla, the membrana granulosa thickens
•into the cumulus oophorus, protruding to the interior of the antrum
•the oocyte is housed within the cumulus oophorus

•Secondary (antral)
•follicle
•
•
• antrum folliculi formation
• in 0,2–0,3 mm large follicles
•
• theca folliculi – t. f. interna
•            –  t. f. externa
•
• membrana granulosa
•
• d. 7 to 9 mm
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•Mature  (graafian or preovulatory ) follicle
•
•is about 1.5 - 2.5 cm in diameter and resembles transparent
•vesicle that bulges from the surface of the ovary
•
•Its wall consists of:
Ø4 - 5 layers of follicular cells  - there is  the membrana granulosa,
Øthe thickened basement membrane called as the membrane of Slawjanski (firstly described by
Slawjanski)
Øthe theca folliculi interna
Øthe theca folliculi externa
•
•granulosa cells surrounding the oocyte are firmly attached to
•the zona pellucida  and accompany the oocyte during ovulation and its
•expelling -
•are  usually  called as the  corona radiata

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Mature (preovulatory or graafien) follicle
diameter 1 to 2 cm

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A detail of the wall of mature follicle:


•Ovulation
•is a process during which mature follicle ruptures
•the ovum is liberated and then caught by a dilated end of the oviduct
•
•ovulation takes place in approximately the middle of menstrual cycle, ie. around
•the 14th day of a 28 day cycle
•
•rupture of the folicle is due to increased activity of proteases (collagenase and
•plasmin) that dissolute connective tissue around the follicle that will ovulate
•
•after  ovulation the ruptured follicle is transformed into the corpus luteum
•the process is known as luteinization
•
ovulation

•
•after  ovulation the ruptured follicle is transformed into the corpus luteum the process is
•known as luteinization
•Corpus luteum
•release of follicular fluid  results in collapse of the follicle wall so that it becomes folded
•some blood flows into the follicular cavity and forms in
•it a coagulum
•
•two layers of mature follicle  are involved in the
•development of corpus luteum:
Øcells of the membrana granulosa - called now
• granulosa lutein cells
Øcells of the theca interna - called now theca
•lutein cells
•
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wall of the follicle
cavity of ruptured follicle

•The granulosa lutein cells
• are located at luminal border and increase greatly in size (35 mm)
• the granulosa lutein cells show characteristics of steroid-secreting cells  and
•produce the progesterone
•
•The theca lutein cells are located externally or in folds of the wall of then corpus luteum
• cells are smaller then granulosa lutein ones and stain more intesively in histological sections
• they produce steroids other than progesterone
•
•if the ovum is not fertilized, the corpus luteum functions only 10-12 days, and after this period
starts to degenerate and disappear - the corpus luteum of menstruation
•
•if pregnancy occurs, chorionic  gonadotropin produced by the placenta stimulates the growth of
corpus luteum, which becomes larger and is in function for about 3 months - the corpus luteum of
pregnancy
• thereafter it gradually declines and definitively disappears after birth (during the childbed)
•corpus albicans - is a final product occurring as a result of degeneration of corpus luteum
• it appears as a region of dense connective tissue, later as a  scar

corpusluteum



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corpus luteum graviditatis (verum)
c. l. of pregnancy
corpus luteum menstruationis (falsum)
c. l. of menstruation    |
   corpus albicans |

Ovariancycle ovariancycle
The ovarian cycle


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Atresia


001
Corpus albicans
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•The oviduct
• - is a muscular tube - about 12 cm long
• - 2 extremities - one opens into the interior of the uterus, the free extremity sends off
finger-like extensions - fimbriae
•
•The wall consists of 3 layers: a mucosa, a muscularis and a serosa
•Function: fertilization of the ovum (lateral third of the oviduct), its secretions
•contribute to the nutrition of the embryo during  the  cleavage of the embryo
obr1_ kopiez obr2_ kopie

68048_mys_rasaz

66048_Mouse/vejcovod/fimbria/TEM

•The uterus
•
•is a pear-shaped organ
•it consists
•of a body, a cylindrical
•cervix, and a narrowing
•segment - isthmus
•a part of the body lying above
•points of entrance of uterine
•tubes is a fundus
•
•The wall of the uterus:
•
Ømucosa of the uterus - the endometrium
Øtunic of smooth muscle - the myometrium
Øtunic of loose connective tissue - the parametrium
Øvisceral peritonium - the perimetrium.
uterus

004 Endom_zásob
zona functionalis
zona basalis

Blood supply of  endometrium
is modified with its  periodical sloughing
- straight arteries - the basalis
- coiled arteries the functionalis
Ženský pohlavní systém - 29
FUNDUS AND BODY
endometrium
Ø  epithelium
Ø  lamina propria with gll. uterinae

•Histology of the endometrium closely depends on the ovarian
•hormones - estrogens and progesterone
•that are produced under stimulus of the anterior lobe of the
•pituitary
•
•structural modifications have cyclic character and are
•summarizingly called as the menstrual cycle
•
•duration - in average 28 days
•
•the menstrual cycle starts between 12 to 15 years of  age and
•continues until about age 45-50
•- only during these age limits the female is fertile
•
•menopause is a period  when  the menstrual cycles are ceased
•
•menstrual cycle includes 4 phases:

Øthe menstrual phase - from the 1rst to 4th days of the cycle - menstrual bleeding
• the phase is induced by rapidly decrease of the levels of progesterone and estrogens
• the endometrium is reduced to only the basalis containing  the basal portions of the uterine
glands
•
Øthe proliferative phase - (follicular phase - because it coincides with the ddevelopment of
ovarian follicles and the production of estrogen)- from 5th to 14th days
• is characterized by proliferation of  uterine gland cells as well as connective tissues cells and
deposition of the ground substance
• the endometrium is 2-3 mm thick and contains straight and unbranched  uterine glands, coiled
arteries grow into the  regenerating stroma
• the phase is controlled with estrogens
•
Øthe secretory phase ( luteal phase )- starts after ovulation and ends at day 26
• controlled with progesterone secreted by the corpus luteum
• the functionalis becomes thicker (5-6 mm at the end of the s. p.) and oedematous
• gland are coiled and branched and their cells begin to accumulate glycogen below the nuclei
• functionalis can be divided into the pars compacta  (supercifially) and pars spongiosa (contains
dilated lumens of uterine glands)
•
Øthe ischemic phase - days 27 to 28
• is characterized by a spasm of coiled blood vessels following with subsequent ischemia and
necrosis of blood vessel walls and of the functionalis
• after blood constriction follows ruptures of vessels and menstrual bleeding

003
Menstrual cycle                         changes of uterine
      glands
menstrual (days 1–4) – 0,5 mm
proliferative (days 5–15) – 3 - 4 mm
secretory (days 16– 27)  – -7 mm
ischemic (day 28)
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Ženský pohlavní systém - 19 Ženský pohlavní systém - 18
the proliferative phase


Ženský pohlavní systém - 25
the secretory phase


Ženský pohlavní systém - 28
the secretory phase
pars compacta
pars spongiosa

Relation between the menstrual and ovarian cycle
Basic human s33_


•Remember:
•after fertilization of the ovum and implantation of the embryo, the endometrium goes through
profound changes and is called the decidua
•
•cells of the stroma become enlarged and polygonal and are called decidual cells
•
•the basal part of the decidua, decidua basalis =
•the maternal part of the placenta

•CERVIX
•
•= inferior part of the uterus
•it is divided into
•an upper portion, the cervical canal
•a lower vaginal portion that projects into the vagina
•
•The cervical canal differs from the body of the uterus in
•(1) its wall consists largely of dense  collagenous and elastic fibers with only about 15 % of the
wall being smooth muscle
•(2) the mucosa contains complex mucous glands and  deep branching folds - plicae palmatae
• glands may become occluded and form cysts (ovula Nabothi)
• the mucosa does not participate in menstruation (however, the glands undergo  cyclic changes
during menstrual cycle: in the proliferative phase they produce thin and watery  secretion, which
becomes copious at ovulation; secretion shows the consistency of  egg  whites and forms semisolid
mucous plug that prevents  the passage of sperm, microorganisms etc. from entering the uterus from
the vagina)
•(3) on the vaginal portion, the simple columnar epithelium  is replaced with stratified squamous,
nonkeratinized epithelium
•

•VAGINA
•is  a fibromuscular, collapsed tube connecting the uterus to the exterior of the body
•wall: a mucosa, a muscularis, and an adventitia
•
•Mucosa forms longitudinal folds - rugae. It is covered with 150 to 200 mm thick stratified
squamous, nonkeratinized  epithelium. Under the stimulus of estrogen, the vaginal epithelium
synthesizes and accumulates a large quantity of glycogen, which is released  into the vaginal lumen
when the surface cells are exfoliated. Bacteria in the vagina (Lactobacillus acidophilus)
metabolize glycogen and form lactic acid, which is responsible for the usually low pH of the
vagina. Lamina propria is composed of loose connective tissue that is rich in elastic fibers. It
also contains a few small lymph nodules and neutrophils. Lymphocytes and neutrophils invade the
epithelium and pass into the lumen of the vagina during certain phases of the menstrual cycle -
vaginal cytology. Lamina propria exhibits  a rich vascularization that is the source of the fluid
exusudate that seeps through the squamous epithelium  into the lumen of the vagina during
copulation.
•
•Muscularis comprises two poorly develop smooth muscle layers: inner circular and outer
longitudinal.
•
•Adventitia surrounds the vagina and blends with adjacent organs. It is a coat of dense connective
tissue, rich in thick elastic fibers. In this connective tissue  are an extensive venous plexus,
nerve bundles, and groups of nerve cells.

•EXTERNAL GENITALIA
•Labia majora - are two prominent elongated folds of skin that contain a large quantity of adipose
tissue and thin layer of smooth muscle. In the   external surface,  coarse and curly hairs and
prominent sebaceous glands are seen.
•Labia minora - are two thin, hairless folds of skin with a core of spongy connective tissue
permeated by elastic fibers. Sebaceous and sweet glands are present on the inner and outer surfaces
of the labia minora.
•Clitoris is homologous with a penis. It consists of two erectile bodies ending in a rudimentary
glans clitoridis and a prepuce. The clitoris is covered with stratified squamous epithelium.
•Vestibulum vaginae and hymen
• Vestibular glands are 2 glandulae vestibulares majores, or glands of Bartholin + numerous
glandulae vestibulares minores. Bartholin glands are homologous to the bulbourethral glands and
are situated with one on each side of the vestibulum. All the glandulae vestibulares secrete mucus.

•PLACENTA
•
•a temporary  organ which develops during the second month of development
•
•is the site of physiologic exchange between the mother and fetus
•
•the human placenta is of discoidal shape measuring  about 15 - 20 cm in
•diameter and 2- 3 cm in thickness and weighing 500 - 600 g at full term.
•
•it consists of 2 parts close associated each other:
•
Øthe fetal  part or villous chorion and
•
Øthe maternal part or decidua basalis
•
•

Basic human s49_



•1. Fetal part = the villous chorion, has a chorionic plate from which the chorionic villi project
into the intervillous spaces through them maternal blood, bringing nutritive and other substances
necessary for embryonic and fetal development, and taking away the waste products of fetal
metabolism, circulates
•
• The chorionic villi are composed of a connective tissue core derived from the extraembryonic
mesoderm surrounded by the cytotrophoblast and the syncytiotrophoblast. While the
syncytiotrophoblast remains until the end  of pregnancy, the cytotrophoblast disappears gradually
during the second half. The fetal and maternal  blood streams are isolated by the placental
barrier which includes: the endothelium and basal lamina of the fetal capillaries, the connective
tissue in the interior of the villus, the syncytiotrophoblast  (during the first half pregnancy
also  the cytotrophoblast + its basal lamina). The chorionic villi may be either free or anchored
to the decidua basalis ( so-called main stem villi). One main stem villus represents a unit of the
fetal part - the cotyledon
•
•2. Maternal part = decidua basalis which usually forms a compact layer, known as the basal plate;
the basal plate protrudes among individual cotyledons as placental septa.
•
•Placental circulation:
•Fetal placental circulation: Deoxygenated blood leaves the fetus and passes through the 2
umbilical arteries to the placenta. The arteries branch and ultimately give rise to the vessels of
the chorionic villi. In the villi, the fetal blood receives oxygen, loses its CO2 , and return to
the fetus through the umbilical vein.
•Maternal placental circulation: 80 to 100 spiral arteries that derived from the uterine artery
open in the middle of the placenta; blood flows into intervillous spaces and passes over the
surface of the villi where exchange of gasses and metabolic products occurs. The maternal blood
leaves the intervillous spaces through endometrial veins (located near the periphery of the
placenta).

•Placental activities
•three main activities:  metabolic,  transfer, and  endocrine
•
•Placental metabolism - in placenta, particularly during early pregnancy, synthesizes glycogen,
cholesterol, and fatty acids which all serve as a source of nutrients and energy for the embryo.
•
•Placental transfer - gases, nutrients, hormones, electrolytes, antibodies, wastes, and also
several drugs are transported across the placental barrier. The transport is provided by 4
mechanisms: simple cell diffusion, facilitated diffusion, active transport,  and pinocytosis.
•
•Placental endocrine secretion: the syncytiotrophoblast produces several hormones which are of 2
categories:
Øprotein hormones: human chorionic gonadotropin (hCG), human  chorionic somatomammotropin (hCS) or
placental lactogen, human chorionic thyrotropin (hCT), and   human chorionic corticotropin (hCACTH)
Østeroid hormones: progesterone + estrogens.

•THE UMBILICAL CORD
•
•is usually 1-2 cm in diameter and 30 -90 cm in length (average  55 cm)
•the cord is attached near the center of the placenta
•
•- amnionic ectoderm - simple squamous to cuboidal epithelium on the surface of the cord
•- Wharton's jelly (gel-like connective tissue) - main umbilical tissue consisting of acid
mucopolysaccharides, fibrocytes and thin collagen fibers arranged in a network
•- umbilical blood vessels (vasa umbilicalia)
–1. umbilical arteries (arteriae umbilicales) - vessels with narrow lumina in which smooth muscle
cells are arranged circularly, spirally and longitudinally; outer and inner elastic membranes are
missing
–2. umbilical vein (vena umbilicalis) - a single vessel with a large lumen than in arteries; its
wall is thin, with three distinct layers.
•- rest of the allantoic duct (ductus allantoideus) - an all-defined patch of epithelium in the
middle of a triangle demarcated by umbilical veins (sometimes appearing only as a thickening of
connective fibers).




003 Ovar_menstcyklus