Summary

This document describes the reproductive system, covering topics such as the portal vein, female reproductive system, pelvic diaphragm, child birth, internal genitalia (ovaries, fallopian tubes, uterus), cervix, vagina, and more.

Full Transcript

lOMoARcPSD|44175252 Portal Vein - Drains blood from the abdominal GI tract, spleen, pancreas - Takes venous blood to the liver for metabolism - Metabolised blood drains into the hepatic veins, which drains into the IVC FEMALE REPRODUCTIVE SYSTEM PELVIC DIAPHRAGM - Separates pelvis and...

lOMoARcPSD|44175252 Portal Vein - Drains blood from the abdominal GI tract, spleen, pancreas - Takes venous blood to the liver for metabolism - Metabolised blood drains into the hepatic veins, which drains into the IVC FEMALE REPRODUCTIVE SYSTEM PELVIC DIAPHRAGM - Separates pelvis and perineum (area superficial to the pelvic diaphragm) - Attachment point for external genitalia - Diamond shaped with 2 triangles: o Urogenital triangle = anterior, has the urogenital hiatus (opening for urogenital system) o Anal triangle = posterior, has the anal aperture (opening for GI tract) - Formed by levator ani muscle (contracts to elevate the anus): o Puborectalis § Attaches to the pubis bone and goes around the rectum § Forms a sling around the rectum (puts a kink in it) § Maintains faecal continence (as well as internal and external anal sphincters) o Pubococcygeus = lateral to puborectalis, attaches to pubis and coccyx bones o Iliococcygeus = lateral to pubococcygeus, attaches to the ilium and coccyx bones lOMoARcPSD|44175252 Perineal Membrane - Cover ½ of the pelvic diaphragm (urogenital triangle) - Superficial to the pelvic diaphragm - Opening for the urethra (M and F) and vagina (F) Deep Perineal Pouch - Space between perineal membrane and levator ani - Contains skeletal muscles that form voluntary sphincters around the urethra (external urethral sphincter) and the vagina lOMoARcPSD|44175252 Child Birth - Perineum, levator ani (mostly puborectalis and pubococcygeus), perineal membrane and deep perineal pouch muscles are often torn/injured - In females, these muscles support the urethra, vagina, uterus and rectum - Injury can result in urinary stress incontinence, uterine prolapse and faecal incontinence INTERNAL GENITALIA Ovary - Paired - Intraperitoneal - Located posterior to the broad ligament and adjacent to the lateral wall of the pelvis - Ovarian artery = principle blood supply, branch of the abdominal aorta - Ligament of ovary = attaches ovary to uterus - Irregular shaped ball - 2 regions: o Inner medulla — holds vessels, nerves and lymphatics o Outer cortex — where follicular genesis occurs - Defined surface epithelium - Oocytes are surrounded by supporting cells, which prepare the oocyte for ovulation - Oocyte ovulates in the ovary and is expelled into the fallopian tube lOMoARcPSD|44175252 Fallopian/Uterine Tubes - Project laterally from the uterus and open adjacent to ovaries - 3 areas o Infundibulum § Funnel shaped § Facilitates oocyte collection § Fimbriae = finger-like projections, attach to the anterior and lateral part of the ovary, help catch the oocyte o Ampulla § Large § Labyrinthine lumen § Fertilization occurs in the ampulla o Isthmus § Narrow § Connects to uterus Uterus - Thick walled, muscular - Facilitates development of the embryo and foetus - Uterine artery = supplies uterus, from internal iliac artery - 3 parts: o Fundus = top part, above fallopian tubes o Body = largest part, below fallopian tubes o Cervix = opening into vagina - 2 linings: o Myometrium = middle layer made of smooth muscle, during pregnancy it undergoes hypertrophy and hyperplasia o Endometrium = inner lining, supports pregnancy (zygote implants in endometrium), sheds during menstruation o Position of uterus (when the bladder s empty): o Anteverted (AV) relative to the vagina o Anteflexed (AF) over the bladder o When the bladder s full, uterus is displaced upwards o Retroverted and retroflexed = uterus displaced to the back, more likely to prolapse o Uterine prolapse = uterus pushed through the vagina due to high pressure in the pelvis lOMoARcPSD|44175252 Cervix - Opens inferiorly into the anterior wall of the vagina - 2 parts: o Supravaginal (above vagina) o Vaginal (in vagina) - Uterus is best supported at the cervix Vagina - Muscular passage - Connects uterus to the exterior - Between the urethra anteriorly and rectum posteriorly - Fornix = spaces created anterior, posterior and lateral to where the cervix enters the vagina - Vaginal arteries = supplies vagina, branch of internal iliac artery lOMoARcPSD|44175252 ECTOPIC PREGNANCY - Fertilization occurs in the ampulla - Implantation usually occurs in the uterine body - Ectopic/extrauterine pregnancy = implantation occurs anywhere but the endometrial lining - If an ectopic pregnancy occurs in an area with a large blood supply, the embryo will grow - Causes bleeding into the abdominal cavity - Burst uterine tube from ectopic pregnancy is often misdiagnosed as a burst appendix PERITONEAL FOLDS - Peritoneum = serous membrane covering the top of the pelvic viscera - Supports and protects the pelvis - Peritoneal folds form over the pelvic viscera - Broad ligament = peritoneal folds coming together over the uterine tube - Ovaries are surrounded by peritoneum and therefore are intraperitoneal (there is an opening for the oocyte to pass through) - Ligament of ovary = folds of peritoneum over the ovarian vessels Peritoneal Pouches - Created by peritoneal folds - Recto-uterine pouch o Between the rectum and uterus o Deepest part of the abdominal cavity o Fluid collects here, especially if patient lies on their back o Fluid can be aspirated with a syringe through the fornix - Vesico-uterine pouch = between the bladder and uterus lOMoARcPSD|44175252 EXTERNAL GENITALIA Development of external genitalia - Same in M and F - Genital tubercle à glans penis (M) or glans clitoris (F) - Testosterone causes more rapid growth of the genital tubercle, resulting in it being larger in males - Urethral folds à urethra (M and F) and labia minors (F) - Labioscrotal swellings à scrotum (M) and labia majora (F) Anatomy - Vulva/pudendum = erectile tissue and overlying skin which comprises the external genitalia - Labia minora = 2 thin skin folds next to the midline, fat free and hair free with connective tissue inside - Vestibule = area between each labia minora (contains urethra and vagina) - Labia majora = larger skin folds, lateral to labia minora - Glans clitoris = erectile tissue, exposed (not covered by skin), located where the labia minora meet anteriorly - Perineal membrane and pubic arch = attachment point for the roots of external genitalia lOMoARcPSD|44175252 Erectile Tissue - Erectile tissue is formed by: o 2 corpora cavernosa (located anterior to glans clitoris, attach to pubic arch) o 2 bulbs of vestibule (located deep to labia minora) o Glans clitoris - Body of clitoris = corpora cavernosa and bulbs of vestibule - Erectile tissues are anterior to the urethra - Greater vestibular glands = posterior to bulbs, have openings into the vestibule, secretes lubricating mucous during arousal Muscles - Ischiocavernosus muscle = covers crus of clitoris (part of corpora cavernosa attaching to the pubic arch) and maintains erection of the clitoris - Bulbospongiusis muscle = encloses the bulbs and greater vestibular glands, supports the pelvic floor, assists in clitoral erection and compresses greater vestibular glands lOMoARcPSD|44175252 MALE REPRODUCTIVE SYSTEM PELVIC DIAPHRAGM - Same as female pelvic diaphragm - Only 1 opening in the perineal membrane for the urethra - Deep perineal pouch also has sphincters around glands PERINEAL MEMBRANE o Superficial to pelvic diaghragm o Covers urogenital triangle o Opening for urethra (male & female) and vagina (female) DEEP PERINEAL POUCH o Space above the perineal membrane o Contains skeletal muscle that form sphincters around the urethra, glands, & neurovascular structures that supply the penis lOMoARcPSD|44175252 INTERNAL GENITALIA Testes - Function in sperm production - Septa (connective tissue) divides the testes into ~250 lobules - Lobules contain 3-10 seminiferous tubules (where spermatogenesis occurs) - Each tubule is a highly convoluted loop in the lobule - The closer to the lumen, the more the sperm differentiate (still non-motile though) - In the mediastinum, tubules end as tubulus erectus (straight tube), which connects to the rete testis - Rete testis = anastomosing channel system, collects sperm from all the seminiferous tubules - Outer capsules o Tunica albugenia = surrounds lobules o Tunica vaginalis = covers testes during descent, extension of abdominal peritoneum, surrounds tunica albugenia Testicular decent o Gonadal development occurs along posterior abdominal wall o Testes desced towards inguinal canal by 7 months gestation o Through inguinal canal into scrotum just before birth o Drags blood vessels, nerves, duct system (vas deferens) and layers of abdominal wall to scrotum Cryptorchidism (undescended testes) o Histological changes à infertility o Increased risk of testicular cancer o Needs to be surgically corrected preferentially before 18 months / 2 years of age lOMoARcPSD|44175252 Epididymis - Coiled tube - about 5cm long - Sperm in the mediastinum of the testes travel through efferent tubules to the epididymis - Capus = head - Corpus = body - Caudal = tail - Surrounded by smooth muscle to assist movement of sperm - Function to store and mature sperm - Where sperm acquire motility - Sperm are stored for ~1 month in the epididymis, before they die and are reabsorbed by epithelial cells Vas Deferens - Sperm travels from the epididymis to the vas deferens - Long duct - Length and complex course results from testicular descent - Penetrates abdominal wall through the inguinal canal - Descends along the lateral wall of the pelvic cavity - Wolffian ducts à vas deferens - Smooth muscular duct (inner circular and outer longitudinal muscles) - Muscular duct (smooth muscle wall) which transports spermazoa to ejaculatory duct - Ejaculation is mediated by the sympathetic NS, and causes the smooth muscle to contract and pump sperm through it - Ejaculatory duct = vas deferens and duct of seminal vesicle - Function is to transport sperm to ejaculatory duct - Part of the spermatic cord Vasectomy - Ligating the vas deferens to prevent sperm from reaching the penis - Vas is superficial at the posterior side of the scrotum, allowing the procedure to be relatively non- invasive - White blood cells assist the epididymis to break down sperm after a vasectomy lOMoARcPSD|44175252 Accessory Glands Contribute to the volume of ejaculate. Each has different secretion with different functions Seminal vesicles, prostate and bulbourethral glands Seminal Vesicles o Located at the posterior surface of the bladder o Ducts of seminal vesicle combines with vas deferens to form the ejaculatory duct, which empties into the prostatic urethra o Contributes to the volume of semen o Secretes an alkaline, viscous fluid, which neutralizes the acidic female reproductive tract o Contributes to sperm motility and viability Prostate o Inferior to the bladder, anterior to the rectum, superior to the perineal membrane, surrounds the urethra o About the size of a walnut o 3 zones: peripheral, transitional and central o Secretes water like liquid containing zinc, citric acid, prostaglandins and proteolytic enzymes o Assists with sperm viability and maturation o Many openings from prostate into the prostatic urethra Benign Hypertrophy of the Prostate o Occurs in most elderly men o Hypertrophy of the central prostate o Compresses/blocks the urethra giving an intermitted urinary stream o Direct rectal examination (DRE) reveals a large and bulky prostate (feels soft as the centre is effected) Prostate Cancer o Common malignancy in men o 70% are in the peripheral region o Effects the entire prostate o Diagnosed by DRE (prostate feels rock hard) or blood test o Treated with radiotherapy, chemotherapy, removal or androgen deprivation therapy o If androgen dependent, androgen deprivation therapy will shrink/remove the tumour o If tumour reoccurs, it is not androgen dependent and will be more aggressive lOMoARcPSD|44175252 Bulbourethral Glands - Paired - Pea shaped - Located in the deep perineal pouch - Ducts open into spongey urethra - Mucous type secretion which lubricates the urethra - Forms pre-ejaculate DEVELOPMENT OF EXTERNAL GENITALIA lOMoARcPSD|44175252 HYPOSPADIAS o Congenital disorder of the penis o Urethra opens somewhere along the shaft of the penis - 1:250 boys EXTERNAL GENITALIA - Erectile tissues covered by skin - Body of penis = pendulous and entirely surrounded by skin - Scrotum o Homologue of labia majora o Skin fuses in the midline (raphe) o Testes descend into this pouch - Prepuce = skin covering glans penis, open anteriorly, attaches to glans penis at the frenulum - Perineal membrane and pubic arch = attachment points for roots of penis lOMoARcPSD|44175252 Penis - Covered by skin - Perineal membrane and pubic arch = attachment roots of penis - Erectile tissues comprise: o 2 corpora cavernosa o 1 corpus spongiosum o Corpus spongiosum expands distally to form glans penis - Urethra pierces the perineal membrane through the urogenital hiatus, then enters the corpus spongiosum and opens at the glans penis - Erection is mediated by the parasympathetic NS, causing arteries in the penis to relax which allows blood to fill erectile tissues 3 cylinders of erectile tissues o 2 corpora cavernosa o 1 corpus spongiosum, encloses penile urethra o Each cylinder contains trabecular network of veins surrounded by collagen, elastic fibers & smooth muscle cells Erectile dysfunction in male and female o Two corpora cavernosa (male and female) o A single corpus spongiosum in male; two bulbs of vestibule in female Penis o Erection is mediated by parasympathetic nervous system, which relaxes arteries in penis, allowing blood to fill erectile tissues Muscles = ischiocavernosis muscle and bulbospongiosus muscle move blood from the root of the penis to the body of the penis, and constrict venous drainage lOMoARcPSD|44175252 KIDNEYS AND URINARY SYSTEM KIDNEYS - Adrenal glands are superomedial to each kidney - Function to produce urine - Paired solid viscus - Retroperitoneal - Bean shaped (10x2x2.5cm) - Healthy kidneys are red/brown coloured - Extends longitudinally from T12-L3 - Closely associated with the diaphragm à position changes with contraction of the diaphragm - Left kidney higher than the right as the liver pushes it lower - 2 surfaces: anterior surface and posterior surface (sits against quadratus lumborum) - Approach to operate on the kidneys is laterally or posteriorly due to their positioning Perinephric Fat and Renal Fascia - Perinephric fat = fat surrounding the kidneys - Renal fascia = lines of perinephric fat and kidneys - Renal fascia and perinephric fat sit behind parietal peritoneum Kidney Structure - Renal capsule lines kidney surface - Renal sinuses = spaces within the kidney, filled with perinephric fat - Inner medulla o Renal pyramids = pyramid shaped structures (base at surface, apex towards hilum) o Consists of secretory cells (secretes urine) o Renal pyramids are separated by cortex lOMoARcPSD|44175252 - Outer cortex o Continuous o Separates renal pyramids Renal Collecting System - Urine s secreted from the medulla - Secreted from the apex of the medulla into the hilum - Urine is collected into the minor calyx - 2-3 minor calices collect into a major calyx - 2-3 major calices collect into the renal pelvis (upper part of the ureter which passes through the renal hilum) Renal Hilum - Faces anteromedially (structures of the hilum feed into/arise from vessels anterior to the vertebral column, which is more anterior than the kidney) - Holds the renal vein (front), renal artery (middle) and renal pelvis (back) as well as nerves and lymphatics Renal Artery - Principle blood supply to each kidney - Arises from the paired branches of the abdominal aorta - Divides into 5 segmental arteries once it enters the hilum - Each segmental artery supplies a renal segment (single functional unit, typically 5, surgically resectable) lOMoARcPSD|44175252 Accessory Renal Artery - Additional blood supply - Arise from development as the kidneys develop lower in the posterior abdominal wall - Different growth rates of the kidneys and the abdominal wall causes them to move up - Sometimes the original blood supply remains as well as new blood supply (renal artery) - Not present in everyone, or on both sides - Can enter the kidney via the hilum or the surface Renal Vein - Drains venous blood of the kidneys directly into the IVC - IVC is to the right of the abdominal aorta (in the midline) - Left renal vein crosses the midline before draining into the IVC and has a longer course than the right renal vein URETERS - Urine from kidneys passes into ureters - Paired hollow viscus - Extends from the kidneys into the pelvis - Begins at the renal hilum as the renal pelvis, passes inferiorly in front of psoas major and the lumbar vertebra transverse processes, crosses the pelvic brim and enters the bladder - Constrictions o Uretropelvic Junction = where the renal pelvis meets the ureter there is a narrowing o Where the ureter crosses the pelvic brim o Where the ureter obliquely traverses the muscular bladder wall (functional sphincter, prevents reflux of urine) - Constrictions pose an issue for kidney stones lOMoARcPSD|44175252 URINARY BLADDER - Hollow viscus - Strong muscular walls with large muscular ridges - Function to store urine - Pyramid shaped o Base posteriorly, against uterus in females and rectum in males o Apex anteriorly, against pubis bone in males and females - Anteriormost pelvic viscus Bladder Neck - Inferiormost part - Achors the bladder, held by ligaments - As the bladder fills, the top part expands and is free, but the neck stays put Base - 3 openings forming an inverted triangle (trigone) - 2 uretric orifices = where the ureters enter the bladder - Urethral orifice = internal urethral opening - Surface of the trigone lacks muscular ridges and is smooth lOMoARcPSD|44175252 URETHRA Passes urine from the bladder to the exterior. Female Urethra - Short - Exits the bladder, quickly passes through the pelvic floor and perineal membrane - Females are more susceptible to UTIs as it is short - Easy to insert a catheter Male Urethra - Long - Bends twice - 4 parts: o Preprostatic Part = immediately after bladder, before the prostate o Prostatic Part = traverses the prostate o Membranous Part = traverses the pelvic floor and perineal membrane o Spongey Part = runs inside the penis (both bends are in the spongey part) - Males less prone to UTI s due to length - Difficult to insert a catheter

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