Human Anatomy — Excretory System

Introduction

The excretory system removes metabolic wastes (mainly urea, uric acid, and creatinine) from the body. In ICSE Class 10 Biology, you study the structure and function of the kidney, the nephron as the functional unit, and the process of urine formation.


Organs of the Excretory System

OrganFunction
Kidneys (pair)Filter blood and form urine
Ureters (pair)Carry urine from kidneys to urinary bladder
Urinary bladderStores urine temporarily
UrethraCarries urine out of the body
Skin (sweat glands)Excretes water, salts, and urea (as sweat)
LungsExcrete CO₂ and water vapour

Kidney Structure (External)

  • Shape: Bean-shaped.
  • Location: Retroperitoneal (behind the abdominal cavity).
  • Size: ~10−12 cm long.

Internal Structure (from outer to inner)

RegionDescription
Renal capsuleOuter protective layer
CortexOuter part — contains Bowman's capsules, PCT, DCT
MedullaInner part — contains loops of Henle, collecting ducts
Renal pelvisFunnel-shaped cavity collecting urine
Renal arteryBrings blood to the kidney
Renal veinCarries filtered blood away

The Nephron (Functional Unit)

Each kidney contains about 1 million nephrons.

Parts of a Nephron

PartFunction
Bowman's capsuleCup-shaped structure containing the glomerulus
GlomerulusNetwork of capillaries — site of filtration
Proximal convoluted tubule (PCT)Reabsorption of glucose, amino acids, salts, water
Loop of HenleCreates concentration gradient in medulla (water reabsorption)
Distal convoluted tubule (DCT)Selective reabsorption and secretion
Collecting ductFinal water reabsorption; carries urine to renal pelvis

Urine Formation (Three Steps)

1. Glomerular Filtration

Blood enters the glomerulus under high pressure. Water, urea, glucose, amino acids, and salts are filtered into Bowman's capsule. Filtrate: ~125 mL/min (180 L/day).

2. Tubular Reabsorption

Useful substances are reabsorbed back into the blood:

  • Glucose and amino acids: 100% reabsorbed (PCT).
  • Water: ~99% reabsorbed (PCT, loop of Henle, collecting duct).
  • Salts: Selective reabsorption.

3. Tubular Secretion

Excess H⁺ and K⁺ ions and certain drugs are actively secreted into the tubule. Helps maintain pH balance (acid-base balance).

Final urine: ~1−1.5 L/day (the rest is reabsorbed).


Osmoregulation

The process by which the body maintains a constant water and salt balance.

Role of ADH (Antidiuretic Hormone):

  • When the body is dehydrated: ADH increases → more water reabsorbed → concentrated urine.
  • When the body is overhydrated: ADH decreases → less water reabsorbed → dilute urine.

Common Mistakes and Fixes

MistakeFix
Confusing Bowman's capsule with the glomerulusBowman's capsule = cup; Glomerulus = blood capillary network inside it
Thinking all filtrate becomes urineOnly ~1% of filtrate (180 L → 1.5 L urine)
Calling the collecting duct part of the nephronThe collecting duct receives urine from multiple nephrons
Forgetting that glucose is normally absent in urineGlucose is 100% reabsorbed — its presence indicates diabetes

ICSE Exam Focus

This chapter carries 4–6 marks. Key topics: kidney structure (labelled diagram), nephron structure and function, urine formation steps, osmoregulation, ADH role.

Marks Blueprint: Kidney/Nephron structure — 2 marks, Urine formation — 2 marks, Osmoregulation — 2 marks.


Self-Test Questions

  1. Draw a labelled diagram of the human kidney showing its internal structure.

  2. Draw and label the structure of a nephron.

  3. Describe the three stages of urine formation.

  4. What is the role of ADH in osmoregulation?

  5. Why is glucose not normally present in urine?

  6. What is the function of the loop of Henle?

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