UTS College SHAP001 Human Anatomy and Physiology Week 9 Course Book PDF

Summary

This course book covers human anatomy and physiology, focusing on the urinary system. It includes preliminary questions and details on excretion, kidney functions, and other related concepts.

Full Transcript

SHAP001
Human Anatomy and Physiology
Week 9 Course Book
PRE-TUTORIAL A: IMPORTANCE OF URINARY SYSTEM

A. Homeostasis (Fill in the blanks)
Homeostasis is defined asmaintenance
__________________ of a constant
____________ internal
environment of the body.

tissuefluid
Internal environment refers to the _______________ or known as
___________________ (ECF) that bathes the body cells. The body needs
fluid
extracellular
____________ controls of the composition and concentration of the tissue fluid. Any
homeostastic
great fluctuation of these will kill the body cells.

blood capillary incirculatorysystemcarriesoxygennutrients
andhormonestocellsremoveswasteproducts

tiffa
lymphaticsystemnetwork
of tissuesandorgansthat 1 98
ftp.EF.MEeEEfion M
pYTaEy
backflow of lymph
deadendtopreven distripytse
egth.roughout
system
connective

B. Excretion
58,4 4
processofremovingwastesfrom the body
Excretion is ___________________________________________________
Examples of metabolic wastes:
 Nitrogenous waste, such as ________ – from deamination in liver
Urea
 Carbon dioxide – fromcellular
_____________ of body cells
respiration

RBC
Bile pigment – from _____________ of old _ _ _ in liver
breakdown

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 C. Excretory organs

 Gases: 
W__________
ater ater
W____________
  
Metabolic Mineral salts, carbondioxide
__________ Mineral salts, e.g.

sodiumchloride  Water vapour
wastes e.g.__________ __________
calciummagnesium
excreted
 Nitrogenous waste,  sodium
Nitrogenous waste,
e.g. __________acid
urea uric
e.g. __________
urea

D. Functions of Kidney
 Regulation of blood
extracellularfluid
_____________________ and _______________
pressure
 Regulation of _____________
osmolarity volume
 Maintenance of ________ balance
ion
 Homeostatic regulation of _________
 Excretion ofmetabolic
___________
was fÉ
 Production of hormones
__________
 Conserve nutrients
____________

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 PRE-TURORIAL A: URINARY SYSTEM

It consists of __ kidneys, __
2 ureters, 1 urinary bladder and 1 urethra. (Fill in the
2
blanks and label the diagrams)

A. Location of Kidneys
The paired, bean-shaped kidneys located posteriorly beneath the peritoneum at the
level of the last few ribs. This means they are located slightly above the waistline.
The right kidney is somewhat inferior in position to the left due to the large overlying
mass of the liver on that side of the body.

liver Rightside of thekidneyis
more inferior than
the left side of the
897 Makespace

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 ureter

her
urethra
Anterior View Longitudinal section through the kidney
whattypeofreceptorsarepresentin sphinctermuscles
at AdrenoceptorB.helps
to contrictmuscle
Gross Structure of the Kidneys:

Adrenoceptorhelpsto relax muscle
B
Renal cortex
Renalmedulla
Renal pyramid

has a
Renal hVis
Renalpapilla

ureter Fibrouscapsule

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  The kidney is bound by a thin, leathery, fibrous capsule. Directly interior from it is a
highly vascularised, reddish brown renal cortex usually lighter in colour than the rest of
the tissue.
 The deeper renal medulla, a darker, inner region which is often striated in
appearance is divided into from 9 to 12 renal pyramids. These striated wedges
alternate with deep, rectangular extensions of cortical tissue, the renal columns.
 Each pyramid has an external wide margin or base. A narrow, pointed papilla of
each renal pyramid is at the end opposite the base. The papilla of each renal
pyramid projects internally and medially. The papilla also projects deeply into a
funnel-like calyx. All these calyces converge into a larger funnel-shaped renal
pelvis which represents the expanded end of the ureter.
 Note the renal artery and renal vein at the radial notch of the kidney, the hilus.

PRE-TUTORIAL A: THE NEPHRON

The human kidney contains approximately 1 million microscopic units called
nephrons (kidney tubules). There are two types: cortical (80-85%) and
juxtamedullary nephrons (15-20%).

small
artery

cortical
nephrons
801

medullary
juxta
nephrons
20.1
Very long nephron
loops, maintain
salinity gradient in
the medulla and helps
conserve water

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 Each nephron is composed of:
A incoming E outgoing
diffenEptron ortex
me
gfygff.fi
capsule
a.in
proximal
L
flow ascending
Loppenite
edulla

descending
minor majorcalyx pelvist
ureter
 uringy
Bowman's capsule - a double-walled cup-shaped hollow tube surrounding a tuft of capillaries the glomerulus

 Proximal convoluted tubule - the convoluted (coiled) portion of the uriniferous tubule closest to Bowman’s
capsule (hence “proximal”). This is first section to receive filtrate.

 Loop of Henle - that part of the uriniferous tubule is
straight, forming a loop with a descending limb diving
into the medulla and an ascending limb moving back
towards the cortex.

 Distal convoluted tubule – the convoluted (coiled)
portion of the uriniferous tubule furthest away from
Bowman’s capsule (“distal” from it).

 Collecting Duct - the last section of the uriniferous tubule,
straight, descending into the medulla, merges with other
collecting ducts as it conveys urine towards the minor
calyces.

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 PRE-TUTORIAL A: RENAL PROCESSES

The __________, in which renal processes take place, is the basic structural and
nephron
functional unit in kidney.

1.
iltration
Glomerular f____________ – from glomerulus to Bowman’s capsule
2. R_______________ – from tubules to peritubular capillaries
eabsorption
3.
ecretion
S________________ – from peritubular capillaries to tubules

1 solute
949
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 re absorption

secretion

Once the urine has been formed in the nephron, it is collected into each of the
following parts of the duct system (in order):

1. ___________ ducts - one collecting duct serves about 12 nephrons
collecting ↓
2. Papillary ducts - short ducts that drain about 30 collecting ducts each
↓
3. Minor ________; then Major __________
calyces calyces
↓
4. Renal _________ - receptacle within the kidney for all urine produced by the nephrons
pelvis ↓
5.
Ureter
_________ - duct to the urinary bladder
↓
6.
Urinary bladder
_________________ - a muscular temporary storage organ
↓
7. U__________ - duct from the urinary bladder to the outside
rethra

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 TUTORIAL A: RENAL TUBULES

Label the different parts of renal tubule. Then, draw blood vessels to show how they are
around the nephron in the diagram above. Label the vessels

Blood circulation:
Renal artery → afferent arteriole → glomerulus (a network of capillaries) → efferent arteriole →
capillary → venule → renal vein

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 TUTORIAL A: RENAL PROCESSES

Label the 3 major renal processes.

Peri surrounding
tubular
88es

a ball ofcapillaries 3D

reabsorbed secreted
filtered R

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 (1) Filtration
About 20% of the blood plasma is filtered into the Bowman’s capsule and becomes
glomerular filtrate that flows along the kidney tubule. The remaining blood in the
glomerulus flows to the efferent arteriole.

efferaffteriole

afferentarteriole
BIGGIE
liquid here is
grafferffard
glomerulus
consists ofglucoseamino
acids water salts urea
these substances are so
small so you can pass
through the bowman's
Processes:
RBCs
capsule whereasare
and proteins
in size
(1) Due to the _________________________________, creating a high large
pumping action of heart polymer so canno
blood lood
_____________ pressure. ∴ the pressure of b________ in glomerulus is
passthrough
________ than that in Bowman’s capsule. i excretedthroug
higher
glucose amino acids.ae
1000 flow
(2) Some of the b______________, e.g. _______________________________ teriole
ittered
____________________________________ will be f________ out through the
salt urea
thin wall of glomerulus and the wall of B__________'s capsule to form
owman
lomerular intrate lood ells
g______________ f___________; except ___________ and b_______ c______
protein

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 Filtration barriers inside the nephron
During ultrafiltration, substances leaving the blood must pass through three filtration
barriers before they can enter the Bowman’s capsule.
epithelialtissue

The endothelium of the glomerular capillaries
It has pores that allow most components (except proteins) of the plasma to pass
through. Blood cells are too large to pass through the pores and are retained in the
blood.
The basement membrane
It allows water and small molecules to pass through.
The epithelium of the Bowman’s capsule
It consists of specialised cells with many foot-like extensions. These cells are called
podocytes (‘pod’ means foot). They form a network of slits that allows the filtered
liquid to pass through.

Classwork – Which of the following can pass through?
 Amino acids /  Plasma proteins /
 Blood cells /  Urea /
 Electrolytes /  Vitamins /
 Fatty acids /  Water /
 Glucose /

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 Gomins hr
(2) Reabsorption
125 6042 180
ago
The normal rate of forming glomerular filtrate in man is 125 ml per minute (i.e. ____
litres per day). However, 124 per minute of the filtrate formed is reabsorbed back
into the blood capillary. Thus only 1__ ml per minute of the filtrate is lost as urine. (i.e.
15L (around 1500) ml per day)
about _____

Significance: to absorb ____________________________________________
useful
nutrients
Process:

diffusion
How? By _______________, ______________ and _______________.
active
transit osmosis

Where?

Total % Mechanism
At proximal At distal
(proportion) of At loop of At collecting
Active convoluted convoluted
substances Diffusion Osmosis Henle duct
transport tubule tubule
absorbed

1.
glucose
(100%) Y N Y Y N N N
Y
2.
and N
(100%) Y N Y N N
Y
3.
salt Y
(80%) N Y Y Y Y
Y(80%) Y
4.
water(99%)
N y N Y Y
Y N Y
5.
urea (50%) N Y Y Y

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 Structural adaptations of proximal convoluted tubule

Reabsorption occurs mainly in the proximal convoluted tubule which has the
following structural adaptations:

Feature Adaptation

 To increase the ________________ for
reabsorption
surface area
Highly c_________________ 
onvoluted To increase the __________ for the filtrate to flow
through
time
so that more useful substances can be reabsorbed.

The wall is a single layer of cells  To shorten ________________ for reabsorption of
(t________) diffusiondistance
useful substances
hin
The cells contain numerous  Mitochondria provide energy for
m______________________ ________________.
itchondria activetransport
 To increase the ________________ for
The cells contain m_____________
isrovilli reabsorption.
surfacearea

peritubular

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 (3) Secretion
A few substances are actively secreted from the capillary INTO the tubular cells.

drug substances
Examples: ____________ ___________
toxic

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 TUTORIAL B: CONSERVING WATER BY LOOP OF HENLE

A terrestrial mammal has to conserve water, which is performed by the loop of
Henle. Mammals and birds are the only animals which can produce a markedly
hypertonic urine that is the urine having a greater solute concentration than the
blood plasma. This hypertonic urine maximizes the amount of water retained, thus
enabling these animals to colonize the drier habitats.
The concentration of the urine produced is directly related to the lengths of the loop
of Henle and the collecting duct as well as the thickness of the medulla.

contission

juxtamedullary
nephron

morejuxta
medullary
nephron canconserve
morewater

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 TUTORIAL B: ACTIONS OF ANTIDIURETIC HORMONE (ADH)

Action of antidiuretic hormone (ADH)
 Function of ADH: to_____________________
decrease urine
production
→ ∴ a greater _______________ of water is
proportion
reabsorbed from the filtrate.

 Therefore, kidney can form urine in different
v_____________ and c___________________
oncentrations
Olumes
according to the body conditions.

In kidneys,
must variable

depends on howmuchwater is available
to be reabsorbed

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 e.g. _______________ e.g. _______________
Gwater molecules water molecules
absorbed reabsorbed
urine
lefsmyqtera.is a9bsorbed fhfrweatfnrce.is reafebas.orbed urine
Action of ADH at collecting duct:

 ADH stimulates insertion of water channels (aquaporin-2) into apical
membrane. More water can then permeate membrane and be reabsorbed by
osmosis.

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 PROBLEM SOLVING QUESTIONS: ACTIONS OF ANTIDIURETIC HORMONE (ADH)

The diagram below shows the nephron and its related structures. The solute concentrations of
the fluid at J in the tubules are indicated.

Ing

Account for the difference in solute concentration of fluid in point D with or without ADH.

with ADH moreaquaporin channels open less urine issecreted

because most of the water is reabsorbed back into the capillaries

without ADH lessaquaporinchannelsopen more urinesecreted
urine is more dilutel because less water is reabsorbed back into
body
ADH secretion causes vasoconstriction and this increases blood pressure and also increases the
volume of blood that ows through the glomerulus.

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