Week 1 Bioscience PDF

Summary

This document covers the basics of biological terms, including directional terms. It details eukaryotic cells and different types of tissues in the human body. The final section introduces the endocrine system and its role in reproduction.

Full Transcript

 Week 1 bioscience
The basics
Endocrine system
 The basics of biological terms
Human anatomy : which is studies that are about the structure of the human

Human physiology: studies that explain now the human body is able to surviveand
reproduce

Directional terms
Used to compare the location of body parts relative to each other
Anterior (ventral) – front or direction towards the front of the body
Posterior (dorsal) – back or direction towards the back of the body
Superior (cranial) – above or higher than another part of the body
Inferior (caudal) – below or lower than another part of the body

Eukaryotic cells Directional terms continued
Humans are made up of trillions of Distal – a position in a limb farther to
eukaryotic cells the point of attachment/trunk of the
Cells are bound by a plasma/cell body
membrane, that acts as a barrier to Proximal - a position in a limb nearer
the extracellular environment and to the point of attachment/trunk of the
controls the passage of substances into body
or out of the cell Medial – middle or direction towardsthe middle of the
Cells generally contain a nucleus and Lateral – side or direction towards the
other membrane bound organelles, side of the body
each of which has a specific function, Superficial – a position closer to the
with a thick fluid called cytoplasm surface of the body
Approximately 200 types of cells Deep – a position farther from the
Different cells contain a different surface of the body
number and type of organelles
depending on their function.

Tissues are groups of similar cells that work together to do a specific job in the body. Let’s break it down in a simple way:

1. Epithelial Tissue

This type of tissue forms the lining on both the inside and outside of body organs, like your skin or the lining of your stomach.
When it lines the inside of blood and lymph vessels, it's called endothelium.
2. Connective Tissue

Connective tissue gives support to organs and protects them.
It's the most common tissue in the body. Examples include cartilage, bone, and blood (yes, blood is a tissue!).
3. Muscle Tissue

Muscle tissue is special because it can contract (tighten up), which helps move parts of your body.
It controls movements like walking or the movement of your bowels (which helps digest food) and blood vessels(which helps regulate blood
pressure).
4. Nerve Tissue

Nerve tissue is made of two main cell types: neurons and glial cells.
It's the main part of the nervous system and is responsible for controlling activities in your body, like muscle movements and sending
signals to other parts of your body.
 Endocrine system

What's endocrine

The systems works with the nervous
system and is responsible in maintaining the
internal environment - homeostasis
When there is a change in production
or hormone release it may be because
of the nervous system

How are hormones transported?

By the bloodstreams.
hormone originates from the Greek word hormao meaning “to set
in motion” or “I excite”… Hormones set in motion/excite/stimulate parts of
the body to bring about actions including sleep, hunger, metabolism,
conception, moods, stress response.
Role of the Endocrine System in Reproduction

The endocrine system plays an important role in controlling reproduction by using
hormones, which are like chemical messengers in your body. Here’s how it works:

1 Menstrual Cycle and Ovulation

◦ Hormones help control the menstrual cycle, which prepares a woman’s
body for pregnancy.
◦ These hormones also trigger ovulation, which is when an egg is released
from the ovaries.
◦ The hormones then prepare the uterus (the organ where a baby develops) to
be ready if the egg is fertilized.
2 Pregnancy and Labour

◦ During pregnancy, many hormone levels increase a lot.
◦ Labour (the process of giving birth) is also believed to be started by
hormones, which prepare the body to deliver the baby.
3 Lactation (Milk Production)

◦ After the baby is born, the endocrine system controls the production and
release of milk (called lactation) for breastfeeding. Hormones help start and
continue milk production

Hormones are produced by the following
endocrine glands throughout the body or in
endocrine cells within tissues in the body:
Hypothalamus
Pituitary gland
Pineal gland
Thyroid gland
4 parathyroid glands
Thymus gland
2 adrenal glands
Endocrine cells within organs, such as
the ovaries, testes, placenta, and
pancreas
Hypothalamus
' Thyroid '
Found in the diencephalon
Major integrating link between the brain and Butterfly shaped gland in neck
endocrine function Largest adult endocrine gland (10-20g)
Receives information from other parts of the Produces & secretes 2 thyroid
brain or the body and alters function by either hormones:
nerve impulses or releasing its own hormones 1. Thyroxine (T4)
Produces hormones, including 2. Triiodothyronine (T3)
Gonadotrophin Releasing Hormone Essential for maintenance of normal
(GnRH), thyroid releasing hormone and metabolism
prolactin releasing hormone, that act on Thyroid hormones are important in
the pituitary gland by either stimulating an
regulating ovulation, preventing
increase or decrease in hormone secretion
miscarriage and aiding fetal brain
developmen I

Hormones are produced by the following Pancreas
endocrine glands throughout the body or in Part of the digestive system
endocrine cells within tissues in the body: Lies behind stomach
Hypothalamus Two types of tissue: exocrine and
Pituitary gland endocrine
Pineal gland Small collections of specialised cells called
Thyroid gland islets of Langerhans are found
4 parathyroid glands throughout
Thymus gland Islets contain
2 adrenal glands o Alpha cells which secrete the hormone
Endocrine cells within organs, such as glucagon (converts glycogen to glucose)
the ovaries, testes, placenta, and o Beta cells which secrete the hormone
pancreas insulin (converts glucose to glycogen)

Pituitary gland Role of the Ovaries -The ovaries are important organs in the female reproductive system. They produce
hormones and help with reproduction. Here’s a breakdown of what they do: Hormones Secreted by the
The anterior lobe is part of the pituitary gland, a small gland in your brain that produces hormones, which are like
chemical messengers. These hormones control many important processes in the body. Let’s go over some of the key
Ovaries
hormones produced here:
The ovaries mainly release two hormones: oestrogen and progesterone.
1 Follicle Stimulating Hormone (FSH) These hormones help control the menstrual cycle and are important for pregnancy.
Response to FSH and LH
◦ FSH helps the ovary create a Graafian follicle, which contains a mature egg (called an ovum) ready for
ovulation. ◦ The ovaries respond to Follicle Stimulating Hormone (FSH) and Luteinising Hormone (LH), which are
2 Luteinising Hormone (LH)
produced by the brain (pituitary gland). These hormones help control the release of eggs and hormone
◦ LH triggers ovulation, which is when the mature egg is released from the ovary. production in the ovaries.
◦ It also helps maintain the corpus luteum, which is important for early pregnancy.
3 Prolactin
Oestrogen’s Role

◦ Prolactin is responsible for starting and continuing the production of breast milk after a baby is Development of female sexual characteristics (like breasts) during puberty.
born.
The maturation of the dominant Graafian follicle (the part of the ovary that holds the egg) during the
4 Thyroid Stimulating Hormone (TSH)
menstrual cycle.
◦ TSH tells the thyroid gland (located in the neck) to produce thyroid hormones, which help control
metabolism (how your body uses energy). Corpus Luteum
Homeostasis and the Hypothalamus
After the egg is released during ovulation, a structure called the corpus luteum forms in the ovary.
To keep the body balanced (a state called homeostasis), the anterior pituitary releases hormones based The corpus luteum produces oestrogen and progesterone, which help prepare the uterus for a possible
on signals from the hypothalamus, another part of the brain that monitors levels of various chemicals in the body pregnancy.
If fertilization happens (the egg is fertilized by sperm), the corpus luteum keeps producing these
Role of the Placenta hormones to support the pregnancy until about 12 weeks when the placenta takes over.
Progesterone’s Role
he placenta is a special organ that develops during pregnancy and plays a crucial role in Progesterone also helps prepare the breasts for producing milk after childbirth.
supporting the growing baby (fetus). Here’s what the placenta does: Inhibin and Relaxin

1 Hormone Production-The placenta produces many hormones that help adjust the The corpus luteum also produces:
mother’s body to create the best environment for the baby’s development. Inhibin, which along with oestrogen and progesterone, stops the release of FSH and LH to prevent more
eggs from developing while a pregnancy is happening.
2 Human Chorionic Gonadotropin (hCG) -hCG is a hormone secreted by the trophoblast
Relaxin, which relaxes the pelvic muscles and ligaments, helping the body prepare for labour by
(the part of the placenta that connects to the uterus).It helps keep the corpus
allowing the pelvis to expan
luteum (a structure in the ovary) active for about 3-4 months, making sure it
continues producing oestrogen and progesterone, which are needed to support the early.puritary Posterior lobe
stages of pregnancy -The presence of hCG in the blood or urine is what pregnancy Two hormones are secreted by the posterior obe:
tests look for as a marker of pregnancy. 1. Oxytocin – “love hormone” released during touch, sex, orgasm, birth and breastfeeding
3 Human Placental Lactogen (hPL)-hPL helps prepare the mammary glands (breasts) for 2. Anti-diuretic hormone (ADH) –
milk production after the baby is born. released in response to a decrease in fluid volume in the blood to reduce reabsorptionof water by the kidney
Both hormones are produced by the
Relaxin -The placenta also produces relaxin, a hormone that helps relax and loosen the hypothalamus but stored and released by the posterior pituitary gland
pelvic muscles and ligaments in preparation for childbirth.
Feedback negative
Positive feedback