Male & Female Reproductive System PDF

Summary

This document is lecture notes on male and female reproductive systems. It covers topics such as the conversion of testosterone, genital development, puberty, and various disorders. The notes are well-organized and detailed, providing a comprehensive overview of the subject.

Full Transcript

‭Lecture 3: Male Reproductive System‬

‭‬ I‭n males, the conversion of testosterone to‬‭dihydrotestosterone‬‭, via the enzyme‬‭5α- reductase‬‭within these target tissues, is necessary‬
‭for the formation of the‬‭prostate gland‬‭and the‬‭male external genitalia‬
‭‬
‭Genital folds‬‭fuse to form‬‭penis‬
‭‬ ‭Labioscrotal swellings‬‭form the‬‭scrotum‬
‭‬ ‭Descent‬‭of the‬‭fetal testes‬‭into the scrotum‬‭requires‬‭the‬‭secretion of the fetal gonadotropins‬‭and occurs during the last trimester of‬
‭pregnancy‬
‭‬
‭↑‬‭adrenarche = axillary and pubic hair growth‬
‭‬ ‭Puberty‬‭begins with the activation of‬‭GnRH pulse generator‬‭within the hypothalamus‬
‭○‬ ‭Kisspeptin‬‭stimulates‬‭GnRH neurons‬
‭○‬ ‭Leptin‬‭stimulates‬‭Kisspeptin‬‭(esp. In females)‬
‭○‬ ‭↑‬‭LH and FSH‬
‭‬ ‭Complete androgen insensitivity syndrome (CAIS)‬‭results from the‬‭lack of functional androgen receptors‬
‭○‬ ‭46 XY DSD‬‭→ gonads become testes since Y chromie appears (testes remain undescended)‬
‭○‬ ‭Müllerian-inhibiting substance‬‭continues to be‬‭secreted from the‬‭Sertoli cells‬‭, resulting in the absence of the female internal‬
‭genitalia. Patients have a short, blind-ended vagina without a cervix, uterus, or ovaries‬
‭○‬ ‭Dihydrotestosterone‬‭is made but cannot direct the‬‭Wolffian duct‬‭to develop into male genitalia due to l‬‭ack of androgen receptors‬‭;‬
‭individuals have female external genitalia.‬
‭○‬ ‭Masculinization does not occur during puberty‬‭because of the lack of testosterone action. Conversion of testosterone to‬‭estrogen‬
‭causes breast development at puberty instead, but there is only a small amount of pubic hair.‬‭Diagnosis is often determined‬
‭following failure of the onset of the menstrual cycle‬
‭○‬ ‭Deficiency of 5α-reductase‬‭is another example of 46 XY DSD and causes‬‭ambiguous genitalia‬‭because it interferes with the‬
‭conversion of testosterone to dihydrotestosterone‬
‭‬ ‭Most common reason for ambiguous genitalia → congenital adrenal hyperplasia (CAH)‬
‭‬ ‭Deficiency in 21-hydroxylase‬‭→‬‭excessive production of adrenal androgens‬
‭‬ ‭The fluid of the‬‭vas deferens‬‭is relatively‬‭acidic‬‭owing to the presence of citric acid and metabolic end products of the sperm and,‬
‭consequently helps inhibit sperm fertility.‬
‭○‬ ‭Sperm become optimally motile at ~pH 6-6.5‬
‭‬ ‭Slightly alkaline prostatic fluid‬‭helps neutralize the acidity of the other seminal fluids during ejaculation and thus enhances the motility‬
‭and fertility of the sperm‬
‭‬
‭Peripheral zone (PZ)‬‭= most carcinomas arise from here (palpable)‬
‭‬ ‭Transitional zone (TZ)‬‭= BPH‬
‭‬ ‭DHT‬‭is‬‭produced‬‭from‬‭testosterone‬‭via‬‭5α-reductase activity‬‭(which increases with age) → 5α-reductase inhibitors, such as‬‭finasteride‬‭,‬
‭are effective in management of BPH.‬
‭‬
‭Most of these sperm are‬‭stored‬‭in the‬‭epididymis‬‭, although a small quantity is stored in the‬‭vas deferens‬‭.‬
‭‬ ‭In males, the primordial germ cells give rise to precursors of male gametes called‬‭spermatogonia‬‭.‬
‭○‬ ‭The germinal epithelium that will later produce male gametes is formed by spermatogonia plus support cells called‬‭Sertoli cells.‬
‭○‬ ‭The surrounding mesenchyme becomes‬‭Leydig cells‬‭, which‬‭secrete testosterone‬‭.‬
‭‬ ‭At puberty, tight junctions develop between adjacent‬‭Sertoli cells‬‭, creating an impermeable lining called the‬‭blood–testis barrier.‬
‭○‬ ‭This barrier divides the seminiferous tubules into a basal compartment and an adluminal compartment,‬‭separating‬‭more advanced‬
‭germ cells‬‭from the‬‭immune system‬‭.‬
‭○‬ ‭The separation is necessary because‬‭mature sperm are potentially antigenic‬‭since they are not present at the prepubertal interval‬
‭when much of the immune tolerance is established.‬
‭‬
‭Leydig cells‬‭secrete‬‭testosterone‬
‭‬ ‭LH‬‭secreted‬‭by the‬‭anterior pituitary gland‬‭→‬‭stimulates‬‭Leydig cells‬‭to‬‭secrete‬‭testosterone‬
‭‬ ‭LH & FSH‬‭secreted‬‭by the‬‭anterior pituitary gland‬
‭‬ ‭FSH‬‭stimulates‬‭Sertoli cells‬
‭‬ ‭FSH‬‭also stimulates the production of‬‭inhibin‬‭in response to‬‭active spermatogenesis‬‭and‬‭androgen-binding globulin (ABP)‬
‭‬ ‭During‬‭fetal life‬‭, the testes are‬‭stimulated‬‭by‬‭chorionic gonadotropin‬‭from the‬‭placenta‬‭to produce moderate quantities of‬‭testosterone‬
‭throughout the entire period of fetal development and for 10 or more weeks after birth‬
‭‬
‭In the mature sperm, the‬‭hyaluronidase‬‭and‬‭proteolytic enzymes‬‭are stored in the‬‭acrosome‬
‭‬ ‭Capacitation‬‭causes sperm to become‬‭hyperactive‬‭and prepared to undergo the acrosome reaction, allowing it to bind to and fuse with‬
‭an oocyte‬
‭‬ ‭Antisperm Antibodies (ASA):‬‭should be suspected with‬‭sperm agglutination‬‭or‬‭isolated asthenozoospermia‬‭with normal sperm‬
‭concentrations.‬
‭‬
‭Normal testosterone‬‭and‬‭LH with high FSH‬‭→‬‭primary spermatogenic failure‬‭(esp. Azoospermia or severe oligozoospermia)‬
‭‬ ‭Normal LH‬‭→ proper Leydig cell function‬
‭‬ ‭High FHS‬‭→ damage to seminiferous tubules‬
‭‬ ‭Azoospermia‬‭+‬‭normal testicle size‬‭→ obstructive azoospermia‬
‭‬ ‭Bilateral absent vas‬‭→‬‭CFTR gene mutation‬
‭‬ ‭Low testosterone + high FSH and LH‬‭→ primary hypergonadotropic hypogonadism‬
‭‬ ‭Kleinfelter syndrome (47XXY)‬
‭○‬‭Additional X chromie‬
‭○‬‭Most common chromosomal disorder associated with infertility‬
‭○‬‭Small testes and low testoterone levels‬
‭○‬‭Puberty is often delayed or incomplete‬
‭○‬‭Labs‬‭:‬‭increased serum FSH‬‭,‬‭normal or increased serum estradio‬‭l, and‬‭normal or low serum testosterone‬
‭○‬‭Leydig cell‬‭function is commonly‬‭impaired‬‭in men.‬
‭‬ ‭Kallman syndrome‬
‭○‬‭Gene defect →‬‭lack of GnRH neurons‬
‭○‬‭X-linked inheritance‬
‭○‬‭Hypogonadotropic hypogonadism‬‭- decreased or absent sense of smell (anosmia)‬
‭‬ ‭Epididymitis‬
‭○‬‭< 35 yo = Chlamydia/Gonorrnea‬
‭○‬‭> 35 yo = E. coli‬
‭‬‭Often associated with UTI and BPH‬
‭○‬‭Sx: tenderness and swelling of the‬‭posterior side‬‭of the‬‭affected testicle‬
‭○‬‭+ Prehn sign / intact cremasteric reflex‬
‭‬ ‭Orchitis‬
‭○‬‭Mumps infection‬
‭‬ ‭Testicular Torsion‬
‭○‬‭Cremasteric reflex is absent /‬‭- Prehn sign‬
‭○‬‭Bell clapper deformity → a tender, enlarged, high-riding testis, with its long axis oriented transversely due to the‬
‭shortening of the spermatic cord‬
‭‬ ‭Varicocele‬
‭○‬‭Most common cause of subfertility in men‬
‭○‬‭Possible pathogenic mechanisms in varicocele formation include‬
‭‬‭the anatomical configuration of the left internal spermatic vein,‬
‭‬‭incompetent or absent valves, and the potential for partial left renal vein compression between the aorta and the‬
‭superior mesenteric artery‬
‭‬‭An acute varicocele can also be caused by retroperitoneal malignancies compressing the venous system‬
‭‬ ‭Cryptorchidism‬
‭○‬‭Associated with testicular malignancy, infertility, inguinal hernia, and torsion‬
‭○‬‭Unilateral = risk of impaired sperm production or of becoming malignant‬
‭‬ ‭Benign prostatic hyperplasia (BHP)‬
‭○‬‭↑‬‭5α-reductase‬‭age = ↑‬‭dihydrotestosterone‬‭levels‬
‭○‬‭↑ PSA‬
‭○‬‭Patho:‬‭DHT‬‭binds to and activates‬‭androgen receptors (ARs)‬‭found in both stromal and epithelial‬‭prostate cells‬
‭○‬‭Nodular hyperplasia of stromal and epithelial cells in the periurethral zone of the prostate gland‬
‭○‬‭Sx:‬‭chronic lower UT symptoms,‬‭symmetrically‬‭enlarged, smooth, firm,‬‭non-tender prostate‬‭with a‬‭rubbery‬‭texture‬
‭○‬‭Complication‬‭:‬‭acute urinary retention‬‭(↑ with‬‭diphenhydramine‬‭drug)‬
‭‬ ‭Male infertility‬

‭‬ ‭Congenital bilateral absence of the vas deferens (CBAVD)‬
‭○‬‭Although most patients with classic CF carry severe mutations on both CFTR gene loci, patients with CBAVD can have a‬
‭severe mutation in only one CFTR gene‬‭,‬‭coupled with a minor mutation in the other‬‭, or minor mutations on both‬
‭loci.‬
‭Lecture 4: Female Reproductive System‬

‭‬
‭ abia minora‬‭forms from the‬‭genital folds‬
L
‭‬ ‭Clitoris‬‭forms anterior to the‬‭urethral opening‬
‭‬ ‭Labia majora‬‭formed from the‬‭labioscotal swellings‬
‭‬ ‭Leptin‬‭stimulates‬‭Kisspeptin‬
‭‬ ‭Estrogens‬‭formed‬‭from testosterone by the‬‭Sertoli cells‬‭when‬‭stimulated‬‭by‬‭FSH‬
‭‬ ‭The‬‭absence of the Müllerian-inhibiting substance‬‭in the female fetus allows the‬‭Müllerian duct system‬‭(instead of the‬
‭Wolffian duct) to develop, leading to the formation of the fallopian tubes, the uterus, and the upper vagina.‬
‭‬
‭LH surge‬‭initiates‬‭ovulation‬
‭‬ ‭Ovarian‬‭steroid‬‭secretion‬‭occurs in‬‭response to FSH and LH‬
‭‬ ‭Damage to the uterine ligaments‬‭(e.g., during childbirth) may result in‬‭prolapse‬‭of the uterus downward into the vagina‬
‭‬ ‭Squamocolumnar junction‬‭→‬‭cervical cancer‬‭commonly occur‬
‭‬ ‭The epithelium surrounding the oogonia differentiates into‬‭granulosa cells‬‭, and the surrounding ovarian mesenchyme‬
‭becomes‬‭thecal cells‬‭.‬
‭‬ ‭The corpus luteum is a temporary endocrine structure in female ovaries involved in the production of relatively‬‭high levels‬
‭of progesterone‬‭,‬‭moderate levels of estradiol‬‭, and‬‭inhibin A‬
‭‬
‭First half of the menstrual cycle → follicular phase (1-14 days)‬
‭‬ ‭Granulosa cells‬‭secrete‬‭estrogen‬
‭○‬‭Inhibin‬‭under the influence of FSH‬
‭○‬‭Rely on a supply of‬‭androgens‬‭from‬‭thecal cells‬‭as a substrate for‬‭estrogen production‬
‭‬
‭Continued progesterone secretion‬‭by the corpus luteum‬‭is essential to‬‭early pregnancy‬
‭‬ ‭The‬‭proliferative phase‬‭occurs in the first half of the cycle prior to ovulation and is under the‬‭influence of‬‭high estrogen‬
‭levels‬
‭‬ ‭The secretory phase‬‭occurs after ovulation, during the second half of the monthly cycle when there‬‭is‬‭progesterone‬
‭dominance‬
‭‬ ‭Placenta‬
‭○‬‭After the invasion by the‬‭syncytiotrophoblast‬‭, the entire endometrium undergoes further biochemical‬‭and morphologic‬
‭change, called‬‭decidualization (decidual reaction)‬‭, and forms the “membranes of pregnancy” called‬‭the‬‭decidua‬‭.‬
‭‬ ‭Decidualization‬‭begins at the site of implantation and spreads in a concentric wave around the entire endometrium‬
‭○‬‭The‬‭syncytiotrophoblast‬‭develops spaces within it called‬‭lacunae‬‭, as it invades deeper into the endometrium‬
‭‬ ‭Chorionic villi‬‭grow from the cytotrophoblast into the syncytiotrophoblast to make contact with lacunae‬
‭○‬‭The two major‬‭placental peptides‬‭, which are only‬‭secreted‬‭during‬‭pregnancy‬‭, are‬‭human chorionic gonadotropin‬
‭(hCG)‬‭and‬‭human chorionic somatomammotropin (hCS)‬
‭‬ ‭hCG‬‭rescues the corpus luteum from degeneration and allows continued‬‭progesterone secretion‬‭to support the‬
‭early pregnancy‬
‭‬ ‭Placental hCG secretion is‬‭controlled‬‭in a‬‭paracrine manner‬‭, by locally produced GnRH‬
‭‬
‭Proteins‬‭make up about 1% of milk; the proteins‬‭casein‬‭and‬‭lactalbumin‬‭are‬‭only found in milk‬
‭‬ ‭Colostrum‬‭is the thin, yellowish fluid produced within the‬‭first few days after parturition‬‭, before the main milk production‬
‭begins‬
‭○‬‭contains more protein than milk, including‬‭antibodies‬‭and immune cells, and provides the neonate‬‭with some‬
‭immunologic protection‬
‭‬ ‭Prolactin‬‭and‬‭oxytocin‬‭are the‬‭two key hormones‬‭involved in the control of‬‭lactation‬
‭○‬‭Prolactin → milk production‬
‭○‬‭Oxytocin → milk ejection‬
‭‬ ‭Infertility‬
‭○‬‭Most common factor is anovulatory menstrual cycles‬
‭‬ ‭Common causes: polycystic ovarian syndrome, thyroid dysfunction, and stress‬
‭‬ ‭Infection, endometriosis, and endometrial and cervical structural abnormalities‬
‭‬ ‭Turner syndrome (45 XO)‬
‭○‬‭Lack one of the X chromie‬
‭○‬‭Rudimentary “streak” ovaries‬
‭○‬‭Inability to undergo puberty without hormone therapy‬
‭‬ ‭Pelvic inflammatory disease (PID)‬
‭○‬‭STD → chlamydia or gonorrhea‬
‭○‬‭Complications: ectopic tubal pregnancy‬
‭‬ ‭Dysmenorrhea‬
‭○‬‭Painful menstruation → excess prostaglandin and leukotriene levels → painful uterine cramping, n/v/d‬
‭‬ ‭Amenorrhea‬
‭○‬‭Primary‬‭: Absence of spontaneous menstruation by age 16 years with secondary sex characteristics or age 14 years in‬
‭the absence of secondary sex characteristics‬
‭○‬‭Secondary‬‭: (previously menstruated) absence of menses for 3 months if previous cycles were normal‬
‭‬ ‭(irregular menses) the absence of menses for 6 months‬
‭‬ ‭Ectopic pregnancy‬
‭○‬‭Common site of implantation of ectopic pregnancy =‬‭ampulla of the fallopian tube‬
‭○‬‭Common cause → occlusion of the tube secondary to adhesions‬
‭○‬‭Common risk factors → hx of previous ectopic pregnancy, previous salpingitis (caused by PID), previous abdominal, or‬
‭tubal surgery‬
‭‬ ‭The use of an intrauterine device and assisted reproduction‬
‭‬ ‭Polycystic ovary syndrome (PCOS)‬
‭○‬‭Most common cause of androgen excess‬‭and‬‭hirsutism‬‭(male-patterned hair growth) in females‬
‭○‬‭Sx: bilaterally enlarged polycystic ovaries, amenorrhea or oligomenorrhea, and infertility‬
‭‬ ‭Normal menses during adolescence → progressively longer episodes of amenorrhea‬
‭○‬‭Complications: endometrial hyperplasia and carcinoma‬
‭‬ ‭Preeclampsia-eclampsia‬
‭○‬‭Most common causes of maternal death‬
‭○‬‭Hypertension‬‭can develop during pregnancy as an isolated finding‬‭(pregnancy-induced hypertension [PIH])‬‭or as a‬
‭component of a dangerous syndrome‬‭(preeclampsia-eclampsia)‬‭.‬
‭○‬‭Labs‬‭: proteinuria and edema‬
‭○‬‭Sx‬‭:‬‭tonic-clonic seizures‬‭on‬‭pregnancy-induced hypertension‬
‭○‬‭HELLP syndrome‬
‭‬ ‭Severe preeclampsia with hemolysis, elevated liver enzymes, low platelets‬
‭○‬‭Risk factor:‬‭nulliparity‬