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Female_reproduction.pptx
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- 2. Female reproductive system: Thereproductive organ of female consists of two ovaries, two uterine tubes (oviducts), the uterus, vagina & vulva The ovum is released from the ovary & enters into the uterine tube Fertilization generally occurs in the uterine tube & the development of fertilized ovum or zygote takes place in uterus The fetus finally comes out through the vagina & vulva as a newborn (neonate) Fertilized ovum- Zygote- Embryo- fetus Newborn (neonate) Ovaries- These are paired glands found in the lumbar region of abdominal cavity They are primary reproductive organ of females like testes in male The ovaries are suspended from the body wall by serous membrane called mesovarium
- 3. The medulla ofthe ovary is highly vascular while cortex consists of irregular connective tissue interspersed with follicles & having endocrine functions Uterine tubes- Each uterine horn or infundibulum is attached to their respective ovaries & the uterus to serve the progression & fertilization of ova acts in this part. Uterus- It consists of a body, a neck (cervix) & two horns. The uterine wall consists of lining of mucous membrane & outer serous layer of peritoneum and are suspended & supported by the mesometrium The mesometrium, mesosalpinx & mesovarium collectively constitute the broad ligament Functions of the uterus- The endometrium & fluids acts as sperm transportation from the ejaculation site to fertilization site of oviduct It regulates the function of C.L.
- 5. It also initiatesthe process of implantation, pregnancy & parturition by contraction of endometrium & stimulation and regression of C.L. The uterine glands are branched, coiled tubular glands throughout the endometrium of the uterus except in ruminants where they are in the form of mushroom like projection called carruncles for the attachment of the fetal membranes The cervix tends caudal to the vagina It is a heavy smooth muscle sphincter having rings in inner surface also called annular folds are tightly closed except during estrus for sperm mobilization & parturition for the expulsion of fetus The tunica muscularis (myometrium) of the uterine wall is separated by the outer longitudinal smooth muscle by a vascular layer increases the amount of muscle during pregnancy as in cell size (hypertrophy) & in cell number (hyperplasia)
- 6. Vagina- It lies withinthe pelvis between the cranially to the uterus & caudally to the vulva It consists of serosa on cranially & pelvic fascia (CT) caudally It generally acts as the birth canal for delivery of the fetus & the act of breeding or service (for the penis of male during copulation) Vestibule & vulva- The vestibule lies between the vagina & vulva This part consists of external urethral orifice The vulva is the external genitalia comprises lt. labia which meet on the midline at the dorsal & ventral commissures The ventral commissure is usually pendulous or clitoris an erectile tissue which has sensory nerve endings The clitoris has specific similarities with the penis of the male having two crura or rods, a body & a glans (visible externally) It is concerned by stratified squamous epithelium
- 7. Blood & nervesupply of the female reproductive tract- The ovaries are supplied by the ovarian artery The uterine tube & uterine horn are supplied by the uterine artery & branch of ovarian artery The uterine artery is derived from the umbilical artery except in horse from internal iliac artery Vaginal artery, the branch of the internal pudendal supplies the blood to caudal part of the uterus, its cervix & vagina The distal branches of internal pudendal artery supplies blood to the caudal vagina, vulva & anus & all these vessels are mainly bilateral The venous drainage runs close to the arteries & drain to the caudal vena cava Sympathetic innervations arrives from the caudal mesentric ganglia via hypogastric nerves Parasympathetic fibres emerges from the sacral spinal cord segments & travel to the reproductive organs in the pelvic nerves The pudendal & perineal nerves provide motor & sensory innervations to the external genitalia respectively
- 8. Functions & structureof graffian follicle cycle- The oocytes are surrounded by the granulosa (epithelial) cells called primordial follicle Ovarium stroma separates the various primary follicles lies in the periphery (cortex) of ovary Development of primordial follicles involves transformation of follicular epithelial cells into a single layer of cuboidal cells surrounding the oocyte After getting puberty, few primary follicles develop into secondary follicles involving ↑ in size of the oocytes & no. of granulosa cell layers During the development of secondary follicles, the granulosa cells secrete glycoprotein as a protective shell Zona pellucida around the oocyte Cytoplasmic process of granulosa cells penetrate the zona for exchange & communication between oocyte & them
- 9. In later stage,development of secondary follicles and granulosa cells are surrounded by a layers of cells; Theca In monotocus animals horse & cow (one offspring per gestation), one follicle usually develops & only one ovum is released at ovulation While in polytocus animal sow, bitch & ewe (more than one offspring per gestation) develops more follicles & ova comes from one ovary or either from both ovaries. Up to this point the development is independent of hormones After this stage, ovary (granulosa & theca of secondary follicles) develop cellular receptors for FSH & LH & it is also useful for the normal follicular development FSH acts as proliferation of granulosa cells which connects androgens to estrogens by developing cellular enzymes These cellular enzymes accumulates among the granulosa cells and looks like a fluid filled cavity also called as Antrum
- 10. Then these folliclesare identified as Tertiary or graafian follicles The theca has now two layers theca externa and interna The internal layer is highly vascularised and consists of steroid producing cells while theca externa consists of connective tissue The granulosa cells produced estrogen acts on the granulosa cells to ↑ FSH & LH receptors By a local +ve feedback effect the estrogen promote the development of the follicle from which they are being produced The developing follicles ultimately produce the ovum & ovulate is the +ve feedback while it has also a –ve feedback with FSH secretion from the adenohypophysis ↓es During this period FSH causing atresia of slowly developing follicles Within the ovary, estrogens promote an ↑ in LH receptors in theca cells for production of androgens for responding LH at the time of ovulation
- 11. The ovum isprovided by the dominant follicle & is possess after the corpus luteum from the previous estrous cycle has regressed (luteolysis) The estrous phase during which there is no corpus luteum & the dominant follicles is developing in follicular phase of estrous cycle The luteal phase is the part of cycle when C.L. intacts with dominant follicles & secreting progesterone Mature follicles does not ovulate rather undergo atresia, if C.L. remains intact At that point, another dominant follicular begins to develop rapidly, so that ovulation can occur soon after luteolysis Because dominant follicles may develop while a C.L. remains intact, so large domestic animals have always the overlapping of follicular & luteal phases Inhibins; peptide hormones secreted by granulosa cell of developing follicles ↑ with follicular development & have a –ve feedback effect on FSH release
- 13. Under the influenceof LH surge, granulosa cells synthesize leukotreienes These agents combindely weakens the follicle wall & promote its rupture Spontaneous ovulators- The preovulatory ↑ in estrogen from developing follicles is the primary event for ovulation takes place. It occurs in almost all domestic animals. Induced ovulators- They have a characteristic estrous cycle & follicular development, mature follicles regress if copulation does not occur. The final preovulatory surge of GnRH & LH surge is depend on neural reflex elicited by vaginal stimulation during copulation. Corpus luteum- It is the endocrine gland which primary secretes progesterone. It forms or develops after the collapse of the follicle at ovulation Under the influence of LH, the granulosa cells lining the empty follicular cavity begins to multiply and form corpus luteum
- 14. So corpus luteumcells derived from the granulosa cells & some cells from theca interna The size of the CL is almost same as of graffian follicle, the difference is only that CL feels solid while mature follicle filled with fluid feels as blister After ovulation as CL grow the plasma progesterone level ↑es If the fertilization of the ova doesn`t occur (pregnancy not established), the CL regresses The CL regression consists of death of luteal cells removal & replacement of CL occurs . Regression of CL prevents, if pregnancy occurs or develops The progesterone acts as preparation of pregnancy The progesterone level ↑es uterine gland secretion and inhibits uterine mortality to promotes implantation & maintain pregnancy The progesterone acts on hypothalamic adeno-hypophyseal axis to inhibit LH secretion It also promotes mammary gland development
- 15. Schematic of themajor steps of oogenesis:
- 16. Phases of theestrus cycle: The estrus cycle is divided into several phases based on structural & behavioral changes in external & internal genitalia Proestrus- It is the 1st phase of estrus cycle consists of building up phase It usually begins after the regression of C.L. from the previous cycle This phase includes enlargement of ovarian follicle (under the influence of FSH & LH) & estrogen secretion Estrogen comes into the blood stream from follicles to ↑ vascularity & cell growth of genitalia for preparation of estrus & pregnancy In later stage of this phase vaginal wall thickens & vascularized (redness & swelling) prepare for copulation
- 17. Estrus- Justbefore ovulation, mature follicles secrete estrogen in high amount preparing for sexual receptivity In almost all domestic animals, ovulation occurs within a day or two after the onset of behavioral estrus (swollen vulva, mucus discharge, mounting, micturition, bellowing etc.) Metestrus- This is post ovulatory phase begins with end of the sexual receptivity & dominated by the function of corpus luteum During this phase estrogen level ↓ed with the ↑es in progesterone level The endometrium get thickens, uterine gland enlarges & have developed uterine muscles Diestrus & anestrus- This is the short inactive phase prior to proestrus The animals (seasonal breeders) have long period of inactivity termed anestrus
- 19. Average length ofvarious parts of reproductive cycle:
- 20. During thisphase; the vulva, vagina, uterus & uterine tubes shrink & small until the next breeding season It is the time for initiating follicular development in polyestrus animals Puberty- It may be defined as the very first estrus accompanied by ovulation. It is affected by inter & intra species depending upon climate, nutrition and hereditary. Pregnancy- It is the physiological condition of a female animal after fertilization & implantation in which their young ones are developing within her uterus. The pregnancy interval or gestation period includes of fertilization (ovums to the birth of offspring), early embryonic development (in uterus), implantation (in the uterine wall), placentation (development of fetal membranes) and growth of the fetus
- 21. Fertilization- After the meioticdivision of ovum (1st meiotic division completed of full term or ovulation in fox, horse & dog to become zygote whereas commonly it takes 2nd meiotic division to become folliculogenesis & ovulation for zygote) to become zygote on maturation is essential for fertilization Same as the condition with sperm Sperm capacitation is needed which is just capability of attaching to and penetrate the ovum The hydrolytic enzymes of acrosome plays a vital role in penetration of ovum There is interaction of sperm & ovum in the ampulla The sperm head is attached to the zona pellucida regulated by zona receptors Proteolytic enzyme (trypsin) blocks sperm attachment The sperm penetration occurs within 5 to 15 minutes after its attachment
- 22. Acrosin enzyme actsas zona lysin & helps in penetration Immediately after fertilization the ovum surface changes to prevent fusion of additional spermatozoa Fertilization failure between different species is due to genetically determined difference in constitution of the genital tract not the physiologic due to genetic constitution of sperm or egg Cleavage- Embryos goes under several mitotic divisions but to attain a similar somatic cells, cell divisions occur without an ↑ in cell mass referred as cleavage The site of fertilization is the lower region of ampullae Implantation- It is the attachment of a blastula to the uterine epithelium
- 23. Placentation- It is developmentof placenta or extra-embryonic membranes This is exchange site between fetal and maternal circulations for nutrition from the dam & waste products from the fetus Decidua- The maternal placenta The fetal placenta consists of chorion, allantois, amnion & vestigial yolk sac The chorion, outermost membrane always contact with maternal uterus outermost to inner Allantois is a continuous layer consist of a sac, allantoic cavity The amnion inner most membrane nearest to fetus is a fluid filled cavity contains fetus The allantoic cavity consists water bag is called 1st water bag while the amniotic cavity or sac terms 2nd water bag which expelled 1st & then 2nd during parturition The umbilical arteries & veins run between the allantois & chorion
- 25. Umbilical arteries carryun-oxygenated blood from the fetus to the placenta while umbilical veins carry oxygenated blood from the placenta to the fetus Ruminants have a cotyledonary type of placental attachment These cotyledons are mushroom like projection, caruncles The size of caruncles ↑ with progress of pregnancy & are larger in the gravid horn than in the non-gravid horn Hormones of pregnancy: Progesterone- To maintain normal pregnancy it serves as • It provides –ve feedback to the hypothalamus to inhibit any further estrus cycle • By inhibiting uterus smooth muscle to permit the attachment & development of fetus • It maintains the cervix contraction to protect the uterine environment Progesterone plasma level maintains initially by corpus luteum & secondary sources are placenta
- 26. Structural organization ofmammary gland: These glands produce milk for their offspring's Each gland consists of ducts connect with mass of secretory epithelium During lactation, the secretory tissue ↑es in volume due to the proportion of estrogen & progesterone presence When the animal becomes dry the progesterone level cause the regression of secretroy tissues. These glands (mammary) develop from bilateral thickening of ventro-lateral ectoderm of embryo also called milk lines or mammary ridges Mostly in domestic animals these glands are situated inguinal usually two or four quarters but in case of carnivores & sows they develop throughout axillary to inguinal extent of the ridges In case of monkey & elephant, these glands develop in pectoral region Each glands referred as quarters and they are independent from each other in so far as blood supply, nerve supply & suspensory apparatus concerned
- 27. The secretory units,alveoli are lined by a simple epithelium The various small ducts cover to form large ducts & terminate into a single large sinus. The lactiferous sinus is divided into two cavity gland cistern (pars glandularis) & teat cistern (pars papillary) The teat cistern continues through a narrow opening in the end of the teat, papillary duct (streak canal) which opens at the ostium papillae Sphincter of smooth muscle fibres surrounds the streak canal at the distal end of the teat The udder is supported by a dense system of fibroelastic ligaments called suspensory approach consists of medial laminae & lateral laminae The blood supply to the udder is primarily through external pudendal artery continues to ventral perineal artery for supplying each teats Where external pudendal vein receives blood from the quarters continuing with perineal vein & caudal superficial epigastric vein drains blood to cranial vena cava
- 28. Relaxin- This protein hormonesecretes from the corpus luteum & in some species from the placenta also It acts in opening of the cervix & relaxation of the muscle & ligaments associated with birth canal during parturition It’s secretion also ↑es during last gestation to facilitate mammary gland development to prepare for lactation Parturition- It is the termination of pregnancy. It is the act of giving birth to young. It may be divided into three stages- The 1st stage consists of uterine contraction to force the fetus & fetal membrane to the cervix The 2nd stage consists of the delivery of fetus to vagina with rupture of one or both water bags It consists the contractions of uterine & abdomen to fetus through the birth canal while the 3rd stage consists of the delivery of the fetus or placenta Attaining parturition, there is several changes occur physically & chemically in the body
- 29. The vulva swells& discharge mucus, mammary gland enlarges & redness, animals may become restlessness, micturition etc. While there is hormonally change also occurs When fetus enters into the birth canal reflex acts on neurohypophysis & oxytocin releases to enhance uterine smooth muscle contraction & promote delivery Prior to parturition, level of glucocorticoids ↑es through fetal adrenal cortex The rising fetal glucocorticoids affect the placenta & maternal uterus Placenta secretes estrogen which ↑ relative to progesterone PGF2α releases & initiating parturition by acting as luteolytic factor which remains the progesterone source