Male and female reproductive anatomy, gametogenesis, the menstrual cycle, hormonal regulation, and fertilization — these memory tricks help you organize the structures and sequences so they stick for exams.
Proven Mnemonics & Acronyms — fast to learn, hard to forget.
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Male Reproductive Pathway
STEVE — Seminiferous tubules · Tubules straight · Rete testis · Efferent ductules · Vas deferens · Ejaculatory duct
The path sperm travel from production to ejaculation
Sperm pathway from production to ejaculation — in exact order
Sperm are produced in the seminiferous tubules of the testes → tubuli recti (straight tubules) → rete testis → efferent ductules → epididymis (maturation and storage, 20 days) → vas deferens (ductus deferens) → ejaculatory duct → urethra → external. The epididymis is where sperm gain motility. Vasectomy cuts the vas deferens. Accessory glands add fluid: seminal vesicles (60% of semen volume, fructose), prostate (alkaline, PSA), bulbourethral glands (pre-ejaculatory fluid).
Seminiferous
Sperm production — Sertoli cells nourish, Leydig cells produce testosterone.
Epididymis
Maturation + storage — sperm gain motility here over ~20 days.
Vas deferens
Carries sperm to ejaculatory duct — vasectomy cuts here.
Female reproductive organ pathway — from egg production to birth canal
Ovaries produce eggs (oocytes) and hormones (estrogen, progesterone). Uterine tubes (fallopian tubes) — 4 parts: infundibulum, ampulla (fertilization occurs here), isthmus, intramural. Uterus: fundus (top), body, cervix (bottom). Three layers: perimetrium, myometrium (muscle — contracts during labor), endometrium (shed during menstruation). Vagina: birth canal, receives penis during intercourse. The cervix dilates to 10 cm during labor — fully effaced and dilated = ready to push.
Ovaries
Egg production + estrogen/progesterone. Not directly connected to uterine tubes.
Ampulla
Where fertilization usually occurs — widest part of uterine tube.
Endometrium
Inner uterine lining — thickens each cycle, shed in menstruation if no pregnancy.
Myometrium
Smooth muscle — oxytocin stimulates contractions during labor.
Cervix
Dilates 0-10 cm during labor. Pap smear screens for cervical cancer here.
Menstrual Cycle Phases
MOSL — Menstrual · Ovulatory · Secretory · Luteal
Four phases of the 28-day menstrual cycle
The menstrual cycle — what happens each week
Day 1-5 Menstrual phase: endometrium shed, FSH rises. Day 6-13 Proliferative/Follicular phase: estrogen rises, endometrium rebuilds, follicle matures. Day 14 Ovulation: LH surge triggers egg release. Day 15-28 Luteal/Secretory phase: corpus luteum produces progesterone, endometrium thickens for implantation. If no pregnancy: corpus luteum degenerates, progesterone drops, menstruation begins again. Progesterone maintains pregnancy in early weeks — before placenta takes over.
Menstrual (1-5)
Endometrium shed. FSH rises to stimulate follicle development.
The HPG axis — three levels of hormonal control of reproduction
GnRH (hypothalamus) → FSH and LH (anterior pituitary) → gonadal hormones. FSH stimulates follicle development in females and spermatogenesis in males. LH triggers ovulation in females and testosterone production in males (Leydig cells). Estrogen: female secondary sex characteristics, endometrial growth, LH surge feedback. Progesterone: maintains pregnancy, thickens endometrium, suppresses ovulation. Testosterone: male secondary sex characteristics, spermatogenesis, libido.
How sperm are made — from stem cell to mature sperm
Spermatogenesis begins at puberty and continues throughout life. Spermatogonia (diploid stem cells) → Primary spermatocyte (meiosis I begins) → Secondary spermatocyte (after meiosis I, haploid) → Spermatids (after meiosis II) → Spermatozoa (mature sperm after spermiogenesis — when the tail develops). Takes approximately 64-72 days. Sertoli cells provide nutrients and form the blood-testis barrier. Sperm production requires temperature 2-3°C below body temperature — hence external testes.
Spermatogonia
Diploid stem cells in seminiferous tubules — divide by mitosis.
Primary spermatocyte
Diploid — undergoes meiosis I → 2 secondary spermatocytes.
2-3°C below body temp required. Cryptorchidism → infertility if untreated.
Oogenesis
Females are born with all their eggs — production stops at birth
~2 million primary oocytes at birth · ~400 ovulated in a lifetime
How eggs are made — and why it's completely different from spermatogenesis
Oogenesis begins before birth — primary oocytes are formed in the fetal ovary and arrested in meiosis I prophase. At puberty, one follicle matures each cycle. At ovulation, meiosis I completes → secondary oocyte released. Meiosis II only completes if fertilization occurs. Females are born with ~2 million oocytes — only ~400 will ever be ovulated. Oogenesis produces one egg and three polar bodies (non-functional). This is why advanced maternal age increases chromosomal abnormality risk — eggs have been paused in meiosis for decades.
Born with all eggs
~2 million at birth → ~400,000 at puberty → ~400 ovulated lifetime.
Arrested meiosis I
Primary oocytes pause in prophase I — resume at ovulation.
Secondary oocyte
What is actually ovulated — meiosis II not complete until fertilization.
Polar bodies
3 non-functional cells produced — 1 egg gets all the cytoplasm.
Egg → fertilized in tube → travels to uterus → implants in endometrium
The journey from ovulation to implantation — with key timing
Ovulation (day 14) → sperm must reach ampulla within 24-48 hours (egg viable) → fertilization in ampulla of uterine tube → zygote → cleavage (cell division without growth) → morula (solid ball) → blastocyst (hollow, ~day 5) → travels to uterus → implantation in endometrium (days 6-10 after fertilization). hCG is produced by the trophoblast immediately after implantation — this is what pregnancy tests detect. hCG maintains the corpus luteum to keep producing progesterone.
Fertilization
In ampulla of uterine tube. Egg viable 24 hrs, sperm viable 3-5 days.
Cleavage
Cell division without growth — zygote → 2→4→8→16 cells (morula).
Blastocyst
Day 5 — hollow ball. Inner cell mass → embryo. Trophoblast → placenta.
Implantation
Days 6-10 in posterior uterine wall — trophoblast invades endometrium.
hCG
Produced after implantation — maintains corpus luteum → progesterone continues.
Five key hormones of pregnancy and lactation in sequence
Hormonal sequence of pregnancy — from implantation to lactation
hCG: first hormone of pregnancy, maintains corpus luteum. Peaks at week 10, then declines as placenta takes over. Morning sickness correlates with hCG levels. Progesterone: prevents uterine contractions, maintains endometrium, suppresses immune rejection of fetus. Estrogen: uterine growth, breast development. Oxytocin: labor contractions, milk letdown — positive feedback loop during labor. Prolactin: milk production. Relaxin: softens ligaments and cervix for delivery.
hCG
Weeks 1-10 — detected by pregnancy tests. Peaks wk 10, then placenta takes over.
GI lining, respiratory lining, liver, pancreas, thyroid. Inner layer.
Neural tube
Ectoderm folds to form brain and spinal cord. Folic acid prevents defects.
🎓 Common Exam Questions
Q: Describe the hormonal regulation of the menstrual cycle including positive and negative feedback.
A: GnRH (pulsatile) → FSH and LH from anterior pituitary. Follicular phase: FSH stimulates follicle → rising estrogen → NEGATIVE feedback (preventing premature surge). Day 12-13: estrogen exceeds threshold → POSITIVE feedback → LH surge → ovulation day 14. Corpus luteum: progesterone + estrogen → NEGATIVE feedback suppresses FSH/LH. No pregnancy: corpus luteum degenerates → drop in hormones → menstruation → FSH rises → new cycle. Oral contraceptives mimic constant progesterone/estrogen → suppress FSH/LH → no ovulation.
Q: What are the stages of embryonic development from fertilization to implantation?
A: Day 0: Fertilization in ampulla → zygote. Days 1-3: Cleavage → morula (16+ cells). Day 4-5: Blastocyst forms (inner cell mass + trophoblast, zona pellucida hatches). Day 6-10: Implantation in posterior uterine wall. Day 8: Bilaminar disc. Day 14-21: Gastrulation → three germ layers from epiblast. Week 3: Notochord induces neurulation. Neural tube defects (spina bifida, anencephaly) = failure of neural tube closure → prevented by folic acid.
Q: What are the three germ layers and what does each form?