Introduction to Renal Physiology Lecture Notes PDF

Summary

These lecture notes provide an introduction to renal physiology, covering the anatomy of the kidney and nephrons. The document explores the different components of the renal system and their functions, including regulating blood pressure and water balance.

Full Transcript

Introduction To Renal Physiology

Prof. Dr. Mervat El-Saka
Renal System
Functional Anatomy of the Kidney The kidney consists of 2 distinct zones

Red
Granular
An outer cortex

An Inner medulla
Paler
Striated
 Red
1- An outer
cortex
Functional Granular
Anatomy
of the
Kidney Paler
2- An inner
medulla
Striated
 Medulla is formed of

Pyramids (10-15 triangular-shaped)

Apexes of Pyramids form
the renal papillae which
drain into the calyces.
 Nephrons

The nephron is the functional
unit of the kidney (Each kidney
consists of about 1 million of
nephrons.
Each nephrons works
independently to produce
urine
 Components of renal nephron

1- Glomerulus 2- Renal tubule.
 The glomerulus: It consists of capillary
network lying between two arterioles
afferent & efferent.
 Blood inters the glomerulus via an afferent
arteriole and leaves it via a narrower efferent
arteriole.
 It invaginates the upper blind end of the
renal tubule forming a Bowman's capsule.
Bowman's capsule consists of:
A. Inner visceral layer: closed to the capillary
network of glomerulus.
B. Outer parietal layer continuous with the
proximal convoluted tubules.
 Both glomerulus & Bowman's capsule are
called the malpighian (renal) corpuscle.
which is located in the cortex.
Glomerulus & Bowman’s capsule
 Renal tubule consists of

1- Proximal 3-Distal
2- Loop of convoluted
convoluted
Henle tubules (DCT)
tubule (PCT)
 Renal tubule
The renal tubule: concerned with urine formation, consists of three parts:
1. Proximal convoluted tubule (PCT): It starts at the Bowman's capsule.
2. Loop of Henle: U-shaped tubule lies between the proximal & distal
convoluted tubules.
 It consists of:
A. Descending limb→ (the part which is connected to the proximal
convoluted tubule)→ it is thin part
B. Ascending limb (the part which is connected to the distal convoluted
tubule)
 Its first part is thin.
 Its distal part is thick.
 Renal tubule
3. Distal convoluted tubules (DCT):
 About 8 DCTs unite to form a cortical collecting duct
passes downwards into the medulla, where it becomes a
medullary collecting duct.
 Medullary collecting duct form larger ducts that drain into
 the minor calyces at the tips of renal papillae.
 Minor calyces unite to form the major calyces that empty in
the renal pelvis.
 Glomerulus & Renal
tubule

Nephrons
 An outer cortex
All glomeruli located in the
cortex
So it is Granular

An Inner medulla

Loops of Henle and collecting
ducts in medulla
So it is striated
 Types of the nephrons
according to situation of the renal glomeruli

1- Cortical Juxtamedullary
juxtamedullary
nephrons

Cortical
nephrons
 Types of the nephrons
Cortical nephrons Juxtamedullary nephrons:
Location of Inner portions of the renal cortex near to the
glomeruli Outer portions of the renal cortex medulla
% of total number
85% 15%
of the nephrons
Penetrate only short distances into the Penetrate deeply into the inner parts of the
Loops of Henle outer part of the medulla. medulla.
give rise to peritubular capillaries that Give rise to 2 types of capillaries.
surround all parts of the nephron 1) Peritubular capillaries that surrounds PCT & DCT in
renal cortex.
Efferent arterioles 2) Straight capillaries (vasa recta) that accompany
the long loop of Henle thought medulla then,
return back upwards to drain into the cortical
veins.
Function Filtration of plasma/ Urine formation Essential for the process of urine concentration
The renal circulation
Glomerular capillary
bed

First capillary bed
 Second capillary bed

Peritubular capillary
bed
 Glomerular capillary beds Peritubular capillary beds

Formed from the afferent arterioles Formed from the efferent arterioles
and drains into the efferent arterioles and drains into the interlobular veins

A high pressure bed that favors A low pressure bed that favors
filtration reabsorption
Second capillary bed

Peritubular capillary
bed
 The course of the circulation in cortical and juxtamedullary nephrons

(1) In the cortical nephrons, the efferent arterioles break into a network
of peri-tubular capillaries that supply the whole tubules.

(2) In the juxtamedullary nephrons, the efferent arterioles break into 2
types of capillaries:
(a) Peri-tubular capillary network that supplies the PCT & DCT
(b) The vasa recta that dip into the medulla alongside the LH.
 The Juxtaglomerular apparatus
It is a highly specialized functional complex
located near the glomerulus of each nephron
(juxta = near).
It is located between the afferent and efferent
arterioles and the returning initial part of distal
convoluted tubule of the same nephron.
The Juxtaglomerular apparatus
 The Juxtaglomerular apparatus
formed of 3 components

1-
Juxtaglomerular 2-Macula densa 3- Lacis or
cells cells mesangial) cells
 Juxtaglomerular (JG) cells:
 Present in wall of afferent arteriole
 Acts as baroreceptors

Macula densa cells:
Present in initial part of DCT
Acts as chemoreceptors
Lacis cells:
Found in area between juxtaglomerular
& macula densa cells
Its function is unknown
The Juxtaglomerular apparatus
Functions of The Juxtaglomerular apparatus
1) Endocrine (Juxtaglomerular cells): It
secrete renin that regulates arterial Blood
Pressure.
2) Paracrine (Macula densa cells): It secretes
prostaglandins and adenosine that have an
important role in autoregulation local renal
blood flow and glomerular filtration.
 Stimulants for renin secretion

1. Fall in arterial blood pressure
2. Reduction in the ECF volume
3. Decreased load of sodium and chloride in
macula densa
4. Increased sympathetic activity
The Juxtaglomerular apparatus
Overview of Kidney Functions
 1- Water balance

2- Ion (electrolyte) balance

A) Regulatory functions 3- Acid-base balance

4- Arterial blood pressure
regulation

5- Maintenance of ECF
osmolarity
 1- Excreting endogenous waste
products as urea, creatinine

B) Excretory
function
2- Excreting exogenous waste products as
drugs & food additives
 C) Endocrinal functions, it secretes

1- 3- Actives vitamin
2- Renin
Erythropoietin D
 3- Endocrinal function
1-Erythropoietin: it controls erythrocyte production
2-Renin:
 It an enzyme that controls formation of angiotensin,
which influences blood pressure and sodium balance
3- Conversion of 25-hydroxyvitamin D to 1,25-
dihydroxyvitamin D, which influences calcium balance
Erythropoietin
Vitamin D