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Sexual Reproduction in the Human

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Presentation on theme: "Sexual Reproduction in the Human"— Presentation transcript:

1 Sexual Reproduction in the Human
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2 Learning Objectives(1/3)
Outline the general structure of the reproductive system (Male & Female) State the functions of the main parts of the reproductive system Outline the role of meiosis to produce sperm & ova (egg) cells Define the term secondary sexual characteristics Outline the role of oestrogen, progesterone & testosterone Outline the nature of birth control to include natural, mechanical, chemical and surgical methods State the location of fertilisation 2

3 Learning Objectives(2/3)
Outline the events & outline the role of oestrogen and progesterone of the menstrual cycle Explain copulation Outline infertility State one cause of male infertility State the availability of corrective measures for male infertility State one cause female infertility State the availability of corrective measures for female infertility 3

4 Learning Objectives(3/3)
Explain implantation, placenta formation & function Outline the birth process Explain In-vitro fertilisation & implantation Outline milk production & breastfeeding including biological benefits Show video on mircle of life 4

5 Structure of the male reproductive system
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6 Bladder Seminal Vesicle Prostate gland Cowper’s Gland Penis Sperm duct
Urethra Epididymis Testis Scrotum 6

7 Testes A gonad is an organ that produces sex cell in animals.
Male gonads are called testes Testes develop inside the body at first, but a few weeks before birth descend into the scrotum. This means they are kept at slightly lower than body temperature (35°) which is the ideal temperature for sperm production. 7

8 Testes Seminiferous tubules inside the testes are lined with sperm producing cells. Cells between the tubules produce the hormone testosterone. 8

10 All the seminiferous tubules join to form the epididymis.
Sperm mature and are stored here. 10

11 Sperm duct and urethra The epididymis leads to the sperm duct (vas deferens) The sperm duct brings sperm to the urethra. The urethra is responsible for carrying sperm and urine out of the body 11

12 Glands in the male reproductive system
Seminal Vesicle Prostate Gland Cowper’s Gland These glands produce seminal fluid which nourishes the sperm and provides a medium in which to swim. Seminal fluid + Sperm = Semen 12

13 Functions of the main parts of the Male reproductive system
Testis Epididymis Sperm duct Seminal Vesicle Prostate gland Bladder Urethra Scrotum Cowper’s Gland Penis Produces 1. Sperm 2 Testosterone 13

14 Functions of the main parts of the Male reproductive system
Testis Epididymis Sperm duct Seminal Vesicle Prostate gland Bladder Urethra Scrotum Cowper’s Gland Penis Stores sperm 14

15 Functions of the main parts of the Male reproductive system
Testis Epididymis Sperm duct Seminal Vesicle Prostate gland Bladder Urethra Scrotum Cowper’s Gland Penis Carries sperm from the epididymis to the urethra 15

16 Functions of the main parts of the Male reproductive system
Testis Epididymis Sperm duct Seminal Vesicle Prostate gland Bladder Urethra Scrotum Cowper’s Gland Penis Produces Seminal Fluid - For sperm to swim in - Nourishment for sperm 16

17 Tube through which the sperm travel through the penis
Functions of the main parts of the Male reproductive system Testis Epididymis Sperm duct Seminal Vesicle Prostate gland Bladder Urethra Scrotum Cowper’s Gland Penis Tube through which the sperm travel through the penis 17

18 Keeps testes at a lower temperature
Functions of the main parts of the Male reproductive system Testis Epididymis Sperm duct Seminal Vesicle Prostate gland Bladder Urethra Scrotum Cowper’s Gland Penis Keeps testes at a lower temperature 18

19 Functions of the main parts of the Male reproductive system
Testis Epididymis Sperm duct Seminal Vesicle Prostate gland Bladder Urethra Scrotum Cowper’s Gland Penis Places sperm in the females body 19

20 Summary of functions of main parts of male reproductive system
Testis Produces sperm and testosterone Epididymis Matures and stores sperm Sperm duct Carries sperm from the epididymis to the urethra Seminal vesicles, Cowper’s gland and Prostate gland Produces seminal fluid which feeds the sperm and allows them to swim. Sperm and seminal fluid are collectively called semen. Urethra Allows the passage of either urine or sperm. Penis Places sperm inside the body of a female Scrotum Keeps testes at a lower temperature (35°). This is the optimum temperature for Meiosis to occur. 20

21 Sperm 21

23 Role of meiosis in sperm and egg production
Sperm and egg producing cells are diploid i.e. they contain 46 chromosomes. They divide by meiosis to form sperm and egg cells. Each sperm and egg cell, therefore, has a haploid number of chromosomes i.e. they have 23 each 23

24 Role of meiosis in sperm and egg production
As both a sperm nucleus and an egg nucleus are haploid they combine in fertilisation to form a diploid zygote i.e. the new zygote has 46 chromosomes. 23 chromosomes + 23 chromosomes = 46 chromosomes The zygote now grows by mitosis division ensuring that each new cell has a diploid number of chromosomes. 24

25 Role of meiosis in sperm and egg production
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26 Male Hormone - Testosterone
Testosterone is the male hormone responsible for the development of the primary and secondary male sexual characteristics The primary sexual characteristics are the presence of the male and female reproductive parts Secondary sexual characteristics refer to features that distinguish males from females, apart from the sex organs themselves 26

27 Male Secondary Sexual characteristics
The growth of pubic, facial and body hair The enlargement of larynx and ‘breaking’ of the voice Increased muscular development and bone development A growth spurt at puberty An increased secretion of sebum in the skin 27

28 Structure of the female reproductive system
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29 These produce the eggs and female hormones.
The Ovary These produce the eggs and female hormones. All the eggs in an ovary are present at birth. After puberty 20 eggs mature each month. Only one will be released from the ovary – the rest will die. 29

30 The Fallopian tube (oviduct)
The Fallopian tubes are muscular and approx 12cm long. Funnels at the tip of each tube catch the egg after it is released from the ovary. The egg is moved along the tube by cilia and muscular peristalsis. The egg is either fertilised or dies in the fallopian tube. 30

31 Muscular structure approximately the size of your fist.
The Uterus (womb) Muscular structure approximately the size of your fist. Outer wall made of involuntary muscle. Inner lining is called the endometrium This lining thickens each month with cells and blood vessels to nourish the embryo. The cervix separates the uterus from the vagina. 31

32 Elastic muscular tube 10cm long. Allows entry of sperm.
The vagina Elastic muscular tube 10cm long. Allows entry of sperm. Is the birth canal for the exit of a baby. Lined with cells that produce mucous. This serves to protect against the entry of pathogens. 32

38 Summary of functions of main parts of female reproductive system
Ovary To produce the egg (ova). To produce the hormones oestrogen and progesterone Fallopian tube (oviduct) Catches the egg from the ovary and transports it to uterus. Site of fertilisation. Uterus Site of implantation. Holds the developing embryo. Has a lining (endometrium) enriched with blood vessels to nourish the embryo. Forms the placenta. Vagina Allows entry of sperm and exit of baby at birth. 38

39 Female Hormones Oestrogen and progesterone are the female hormones
A combination of oestrogen and progesterone at puberty causes the development of the secondary female characteristics: The maturing and enlargement of the breasts. The widening of the pelvis to allow for birth. The growth of pubic and underarm hair. A growth spurt. 39

40 The Ovary The ovaries produce the eggs and the female hormones oestrogen and progesterone. The ovaries of a female foetus contains all the potential eggs at birth. These eggs have not yet divided by meiosis and as a result are diploid After puberty a number of eggs are produced by meiosis each month. Usually only one egg continues to grow … the rest die 40

41 The Ovary Once meiosis is complete the egg is surrounded within a structure called the Graafian follicle. This structure produces the female hormone oestrogen When mature the follicle forms a swelling on the outside of the ovary. It bursts at ovulation to release the egg After ovulation the follicle fills with yellow cells and becomes the Corpus luteum (yellow body). This secretes the hormone progesterone 41

42 Summary of events in the menstrual cycle
The menstrual cycle is a 28 day sequence of events that produces an egg and prepares the body for pregnancy. This cycle begins at puberty and continues until the menopause (the end of the woman’s reproductive life). Summary of events in the menstrual cycle Days 1 – 5 The old lining of the uterus (endometrium) breaks down and is shed from the body. The loss of this blood and tissue is called menstruation (period). A new egg is produced in the ovary by meiosis. This new egg is surrounded by the Graafian follicle. 42

43 - Oestrogen also prevents the development of any more eggs.
The Menstrual Cycle Days The hormone oestrogen is produced by the developing Graafian follicle. This has two functions: - It causes the lining of the uterus (endometrium) to build up again in preparation for implantation. - Oestrogen also prevents the development of any more eggs. Day 14 Ovulation. This occurs when the Graafian follicle bursts to release the egg into the fallopian tube. 43

44 - It causes the endometrium to thicken even further.
Days The Graafian follicle now develops into the Corpus Luteum (yellow body). This has two functions: - It causes the endometrium to thicken even further. - It also prevents new eggs from forming. The egg that was released will die by day 16 if it is not fertilised. Thus days 12 – 16 of the menstrual cycle are referred to as the Fertile Period. (Even though the egg is not released until day 14, sperm, which can survive for a period of time in the female body, may already be present. Thus the fertile period begins on day 12). 44

45 If fertilisation does not take place the Corpus Luteum starts to degenerate around day 22. This results in a reduction in progesterone levels. As a result the lining of the uterus breaks down again on day 28. The menstrual cycle begins again with day 1. 45

49 Learning Check Name the main parts of the male reproductive system and give a function for each part named. Name the main parts of the female reproductive system and give a function for each part named. Outline what is happening on each of the following days of the menstrual cycle: 1,5,12,14,26? Outline the role played by oestrogen and progesterone in the cycle 49

50 Copulation – Sexual intercourse
Sexual arousal The penis becomes erect The vagina becomes lubricated Copulation The penis is inserted into and moved inside the vagina Orgasm Sperm is released from the penis (Ejaculation) Contraction of vagina and uterus 50

51 Insemination Insemination is the release of sperm into the female
Contractions of uterus and fallopian tubes move the sperm to the fallopian tubes within 5 minutes If an egg is present it releases chemicals to attract the sperm this is called chemotaxis 51

52 Fertilisation Fertilisation is the fusion of the egg and sperm nuclei to form a diploid zygote. 52

55 Implantation Implantation is the embedding of the fertilised egg into the lining of the uterus This occurs days after fertilisation. By this time the zygote has grown into an embryo. During implantation a membrane called the amnion develops around the embryo. This secretes amniotic fluid which will surround the developing embryo and act as a shock absorber. After implantation the placenta forms. 55

57 Placenta Formation After implantation the embryo forms an outer membrane called a chorion This chorion develops projections (chorionic villi) which, together with the blood vessels of the mother in the endometrium, form the placenta The placenta allows nutrients, wastes, gases, antibodies and hormones to be exchanged between the blood of the mother and the embryo 57

58 Placenta Formation The blood of the mother and embryo do not mix
This is important as: - The blood groups of mother and baby might not be compatible. - The blood pressure of the mothers system may cause damage to the embryo 58

59 Placenta Formation The placenta also makes the hormone progesterone
The umbilical cord connects the placenta with the embryo. It contains blood vessels which circulate blood between the embryo and the placenta 59

61 61

62 Birth The hormones oestrogen and progesterone are produced throughout pregnancy firstly by the corpus luteum (3 months) and then by the placenta. The placenta acts as an endocrine gland. Immediately before birth the placenta stops making progesterone. The walls of the uterus begin to contract as a result. The pituitary gland releases the hormone called oxytocin. This causes further contractions of the uterus Labour has now begun 62

74 74

75 Umbilical cord is cut 75

76 Breastfeeding Lactation The secretion of milk from the mammary glands
The first days after birth colostrum produced Milk production triggered by release of prolactin by pituitary 76

77 Breastfeeding Breastfeeding is better than bottle feeding because:
Colostrum and breastmilk provides the baby with essential antibodies protecting it against infection Ideal balance of nutrients for baby Has little fat making it is easier to digest than milk 77

78 Birth control Birth control refers to the methods employed to limit the number of children that are born Removing the possibility of conception is called contraception. This is achieved by preventing the egg and sperm from meeting There are a number of methods: 78

79 Mechanical contraception -male
The use of condoms Surgical contraception Sperm ducts are cut and tied 79

80 Mechanical contraception - female
The use of diaphragms 80

81 Chemical contraception
Use of ‘the pill’. The pill contains oestrogen and progesterone which prevents ovulation and hence conception. Use of spermicide 81

82 Surgical contraception
The fallopian tubes and sperm ducts can be cut and tied 82

83 Natural contraception
Not having sexual intercourse during the fertile period of the menstrual cycle Natural methods of contraception try to identify the time of ovulation based on: - monitoring the body temperature. This rises slightly after ovulation - mucous secreted in the cervix (which changes its texture after ovulation) 83

84 Infertility is the inability of a couple to achieve conception.
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85 Male infertility disorders
Low sperm count – Refers to a low number of sperm per ml of seminal fluid. Low sperm mobility - If movement of the sperm is slow, not in a straight line or both, the sperm may have difficulty passing through the cervical mucous or penetrating the shell of the egg. Endocrine gland failure – A failure of the testes to produce sperm 85

86 Low sperm count Causes:
The persistent use of drugs such as alcohol, cigarettes and anabolic steroids. Abnormalities in sperm production or obstruction of the tubes through which sperm travels. Stress 86

87 Low sperm count Treatment A change in diet.
A change in lifestyle e.g. stopping alcohol consumption, smoking. A reduction in stress levels. 87

88 Female infertility disorders
Blockage of the Fallopian Tube Scarring of the fallopian tube can block the passage of the egg to the uterus Endocrine gland failure A failure of the ovaries to produce an egg 88

89 Blockage of the fallopian tubes
Causes: Fragments of the uterus lining may spread to the fallopian tube Inflammation as a result of infection Treatment In-vitro fertilisation (I.V.F.) 89

90 In-vitro fertilisation (I.V.F.)
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91 IVF is a method of treating infertility It involves removing eggs from an ovary and fertilising them outside the body 91

92 During the natural menstrual cycle an egg is produced by the ovary every month
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93 During IVF fertility drugs are given to the female to stimulate the ovaries to produce more than one egg 93

94 These eggs are then taken from the females body and into the laboratory
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95 In the meantime a sperm sample is taken from the male
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96 The eggs and sperm are mixed together in the hope that fertilisation will occur
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97 97

98 The sample is placed in the most ideal conditions for fertilisation to occur
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99 The main aim of the procedure is to obtain a zygote
The main aim of the procedure is to obtain a zygote. If successful the zygotes development will be monitored closely 99

100 If successful the zygote develops into a morula, blastocyst and eventually becomes an embryo
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101 The developing embryo can now be placed back into the females body for implantation to take place
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102 Babies born as a result of IVF are often incorrectly called ‘test tube’ babies.
While fertilisation takes place in the laboratory (‘in vitro’ – in glass) the fertilised egg is re-inserted into the mother’s body and develops naturally in the uterus 102

103 If analysis of a couples eggs and sperm suggests that IVF treatment is unsuitable, other methods of assisted fertility treatment are available 103

104 Syllabus 104

105 Depth of treatment(1/2) General structure of the reproductive system – male and female Functions of the main parts Role of meiosis in the production of sperm cells and egg (ova) Definition of “secondary sexual characteristics” Role of oestrogen, progesterone and testosterone The menstrual cycle: the events and outlined role of oestrogen and progesterone 105

106 Depth of treatment(1/2) Copulation Location of fertilisation
Implantation, placenta formation and function Birth – outline of process Milk production and breastfeeding 106

107 Contemporary Issues and Technology
Birth control – natural, mechanical, chemical and surgical methods of contraception Infertility One cause of male infertility from the following disorders: low sperm count, low sperm mobility, endocrine gland failure Availability of corrective measures 107

108 Contemporary Issues and Technology
One cause of female infertility from the following disorders: blockage of the Fallopian tube, endocrine gland failure Availability of corrective measures In-vitro fertilisation and implantation Biological benefits of breastfeeding 108


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