Male Reproductive System
Sperm Production & Delivery♂️ The Male System — Built for Sperm Production at Scale
The male reproductive system has one primary function: produce hundreds of millions of sperm continuously from puberty and deliver them to the female reproductive tract. Every structure is optimised for this — from the external testes (temperature control) to the multiple glands that produce the seminal fluid carrying sperm.
📍 Structure & Location
- Located in the scrotum — outside the body cavity
- Temperature is 2-3°C lower than core body temperature
- Sperm production (spermatogenesis) requires cooler temperature — cannot occur at 37°C
- Seminiferous tubules — tightly coiled tubes inside testes where sperm are produced by meiosis
- Sertoli cells — nurse cells that support developing sperm
- Leydig (interstitial) cells — produce testosterone
⚙️ Spermatogenesis
- Spermatogonia (2n) → divide by mitosis to maintain stem cell population
- Primary spermatocytes (2n) → meiosis I → secondary spermatocytes (n)
- Secondary spermatocytes → meiosis II → spermatids (n)
- Spermatids → mature into spermatozoa (sperm) with flagellum
- Process takes approximately 74 days
- Produces ~300 million sperm per day from puberty
Female Reproductive System
Egg Production & Uterine Environment♀️ The Female System — Built for Egg Release and Embryo Support
The female reproductive system produces one egg (usually) per month, provides the site for fertilisation, and — if fertilisation occurs — maintains and nourishes the developing embryo for nine months. Every structure is adapted for this. The ovaries, fallopian tubes, uterus, and cervix each play a precisely timed role.
🔬 Oogenesis (Egg Production)
- Oogonia → primary oocytes formed before birth — arrested in meiosis I
- At puberty, one primary oocyte completes meiosis I each month → secondary oocyte + first polar body
- Secondary oocyte is released at ovulation — arrested in meiosis II
- Meiosis II is only completed if the egg is fertilised by a sperm
- Produces one large egg + small polar bodies (discarded)
🌕 Follicle Development
- Each egg develops inside a follicle in the ovary
- Follicle = egg + surrounding support cells
- Follicle grows and produces oestrogen as it matures
- At ovulation — Graafian follicle ruptures, releasing egg
- Empty follicle → corpus luteum → produces progesterone
- Corpus luteum degenerates if no pregnancy → menstruation
| Structure | Function |
|---|---|
| Ovaries | Produce eggs (oogenesis) and hormones (oestrogen, progesterone) |
| Fallopian tubes (oviducts) | Carry egg from ovary to uterus; site of fertilisation; cilia and peristalsis move egg/zygote |
| Fimbriae | Finger-like projections at the end of fallopian tube — sweep egg from ovary surface into tube |
| Uterus | Muscular organ where embryo implants and develops; endometrium = inner lining that thickens each cycle |
| Endometrium | Inner lining of uterus; thickens under oestrogen and progesterone; shed during menstruation if no implantation |
| Cervix | Lower narrow part of uterus; mucus plug protects uterus from infection; dilates during labour |
| Vagina | Birth canal; receives penis during copulation; slightly acidic environment (harmful to sperm — neutralised by seminal fluid) |
The Menstrual Cycle
28-Day Hormonal Blueprint🔄 A Monthly Preparation for Possible Pregnancy
The menstrual cycle is a precisely orchestrated sequence of hormonal events that prepares the uterus for possible pregnancy every month. Four hormones — FSH, LH, oestrogen, and progesterone — interact in a precise sequence through negative and positive feedback loops. The cycle averages 28 days but varies between individuals.
The Four Phases
| Hormone | Source | Main Role in Cycle |
|---|---|---|
| FSH (Follicle Stimulating Hormone) | Anterior pituitary | Stimulates follicle growth in ovary; stimulates oestrogen production |
| LH (Luteinising Hormone) | Anterior pituitary | Surge triggers ovulation; stimulates corpus luteum formation and progesterone production |
| Oestrogen | Developing follicle | Thickens and repairs endometrium; inhibits FSH (negative feedback); triggers LH surge (positive feedback) at high levels |
| Progesterone | Corpus luteum (then placenta) | Maintains thickened endometrium; inhibits FSH and LH (prevents new follicle development); essential for maintaining pregnancy |
Positive feedback: Very high oestrogen (just before ovulation) triggers the LH surge — the one exception to negative feedback in this cycle. This is critical to understand — it is the trigger for ovulation.
Fertilisation & Pregnancy
From Zygote to Birth🤱 Nine Months of Extraordinary Development
After fertilisation in the fallopian tube, the single-celled zygote undergoes a remarkable journey — dividing, implanting, forming the placenta, and developing over 38 weeks into a fully formed human being capable of independent life. Each trimester brings distinct developmental milestones and physiological challenges.
🌱 First Trimester (Weeks 1–12)
- Embryo stage: weeks 1–8; foetus from week 9
- All major organs and body systems begin forming
- Heart begins beating around week 6
- Neural tube (brain and spinal cord) forms weeks 3–4
- Limb buds appear by week 5
- Most critical period — highest risk from teratogens (drugs, alcohol, infections)
- Placenta fully formed by week 10
🌿 Second Trimester (Weeks 13–26)
- Rapid growth — foetus grows from ~9cm to ~35cm
- Movements felt by mother (quickening) around week 18-20
- Sex organs visible by week 14
- Hair, fingernails, eyebrows develop
- Hearing develops — foetus responds to sound
- Risk of miscarriage drops significantly
🌳 Third Trimester (Weeks 27–38)
- Rapid weight gain — foetus triples in weight
- Lungs mature (surfactant production — allows lung inflation after birth)
- Brain development accelerates
- Foetus moves into head-down position for birth (normally)
- Passive immunity — maternal antibodies cross placenta, providing protection in first months of life
🎯 Blueprint Assessment
Eight questions covering the full human reproduction system.