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Drugs and Medicines

Chemistry in Everyday Life: Drugs and Medicines

What You'll Learn

  • How drugs interact with biological receptors to produce therapeutic effects
  • Classification of analgesics (narcotic vs non-narcotic) with mechanism of action
  • Key differences between antibiotics: bactericidal vs bacteriostatic, broad vs narrow spectrum
  • Distinction between antiseptics and disinfectants with concentration-dependence examples
  • Role of antacids, antihistamines, antifertility drugs, and tranquillisers

Level 1 — Core Concepts

Drug-Receptor Interaction

A drug is a chemical that interacts with a biological receptor (usually a protein) to produce a pharmacological response.

  • Agonists — mimic natural substrate, activate receptor
  • Antagonists — block receptor without activating it (most therapeutic drugs are antagonists)
  • Competitive inhibition — drug competes with natural substrate for the same active site
  • Non-competitive inhibition — drug binds elsewhere, changes shape of active site

Key idea: Drug efficacy depends on shape complementarity between drug molecule and receptor site (lock-and-key).


Analgesics (Pain Relievers)

PropertyNon-NarcoticNarcotic
ExamplesAspirin, Paracetamol, IbuprofenMorphine, Codeine, Heroin
MechanismInhibit prostaglandin synthesis (COX inhibition)Bind to opioid receptors in CNS
Addiction potentialNoYes (habit-forming)
Side effectsGI irritation (aspirin), hepatotoxicity (paracetamol overdose)Respiratory depression, constipation
Clinical useMild to moderate pain, feverSevere pain (post-surgery, terminal cancer)

Aspirin (Acetylsalicylic acid): Irreversibly inhibits cyclooxygenase (COX) enzyme → reduces prostaglandin synthesis → reduces pain, fever, inflammation. Also used as antiplatelet agent (prevents clot formation).

Paracetamol: Inhibits COX centrally in CNS. Causes less GI irritation than aspirin. Overdose leads to hepatotoxicity (liver damage).

Morphine: Binds to μ-opioid receptors → decreased pain perception + euphoria. Highly addictive; classified as controlled substance.


Antibiotics

Antibiotic = chemical produced by a microorganism (or synthetically) that inhibits growth of or kills other microorganisms.

ClassificationExampleMechanism
Bactericidal (kills bacteria)Penicillin, Amoxicillin, CiprofloxacinInhibit bacterial cell wall synthesis
Bacteriostatic (inhibits growth)Tetracycline, Chloramphenicol, ErythromycinInhibit bacterial protein synthesis
Broad spectrumAmpicillin, AmoxicillinActive against gram +ve and gram −ve
Narrow spectrumPenicillin GMainly gram +ve bacteria

Penicillin: Inhibits transpeptidase enzyme → prevents cross-linking of peptidoglycan in bacterial cell wall → bacteria lyse. Not effective against viruses.


Antiseptics vs Disinfectants

FeatureAntisepticsDisinfectants
Applied onLiving tissue (wounds, skin, mucous membranes)Non-living objects (floors, surgical instruments)
ConcentrationLower (safe for tissue)Higher (toxic to tissue)
ExamplesDettol (chloroxylenol + terpineol), Bithional, Iodoform (CHI₃), 0.2% phenol1% phenol, Chlorine (0.2–0.4 ppm in water), Lysol

Phenol is concentration-dependent: 0.2% → antiseptic; 1% → disinfectant.

Iodoform (CHI₃): Used as antiseptic for wounds; releases iodine slowly which kills bacteria.


Antacids

Neutralise excess HCl in stomach to relieve hyperacidity.

AntacidTypeNeutralisation Reaction
NaHCO₃Systemic (absorbed)NaHCO₃ + HCl → NaCl + H₂O + CO₂↑
Mg(OH)₂Non-systemicMg(OH)₂ + 2HCl → MgCl₂ + 2H₂O
Al(OH)₃Non-systemicAl(OH)₃ + 3HCl → AlCl₃ + 3H₂O

Al(OH)₃ causes constipation; Mg(OH)₂ causes diarrhea. Combined in preparations like Gelusil/Maalox to balance side effects.


Antihistamines

Histamine released in allergic reactions causes vasodilation, itching, and bronchoconstriction. Antihistamines competitively block histamine receptors.

  • Cimetidine, Ranitidine — H₂ receptor antagonists; reduce gastric acid secretion; treat peptic ulcers
  • Diphenhydramine, Chlorpheniramine — H₁ antagonists; treat allergic rhinitis, hay fever

Antifertility Drugs

  • Norethindrone — synthetic progestogen derivative; prevents ovulation by mimicking progesterone
  • Combined oral contraceptive pills contain synthetic estrogen + progestogen

Tranquillisers (Psychotherapeutic Drugs)

ClassExamplesAction
BarbituratesLuminal (phenobarbital), SeconalCNS depressants; induce sleep
BenzodiazepinesValium (diazepam), LibriumAnti-anxiety; enhance GABA-mediated inhibition
SSRIs (antidepressants)Prozac (fluoxetine)Inhibit serotonin reuptake → increase serotonin levels

Serotonin is a neurotransmitter affecting mood. Low serotonin levels are associated with depression.


Level 2 — JEE Depth

Mechanism: Aspirin and COX Inhibition

Arachidonic acid ──[COX enzyme]──► Prostaglandins → pain, fever, inflammation

Aspirin: acetylates a serine –OH group in COX active site → IRREVERSIBLE inhibition
Ibuprofen: competitive, REVERSIBLE COX inhibitor

Aspirin's antiplatelet effect lasts the lifetime of a platelet (~8–10 days) because platelets lack nuclei and cannot synthesise new COX enzyme.

Penicillin: Structure and Resistance

  • β-Lactam ring is the pharmacophore; structurally mimics the D-Ala-D-Ala terminus of peptidoglycan precursor
  • Bacteria develop resistance by producing β-lactamase enzyme that hydrolyses the β-lactam ring → inactivating penicillin
  • Amoxicillin + clavulanic acid (Augmentin): clavulanic acid irreversibly inhibits β-lactamase → restores penicillin activity

Drug Potency vs Efficacy

  • Potency — dose required to produce a given effect (lower dose = higher potency)
  • Efficacy — maximum therapeutic effect a drug can produce
  • These are independent concepts: a drug can be highly potent with low efficacy

GABA and Benzodiazepines

Benzodiazepines (e.g., Valium) bind to GABA-A receptor at an allosteric site → increase frequency of Cl⁻ channel opening → hyperpolarisation of neuron → CNS depression → anti-anxiety and sedation.


Worked Examples

Example 1: Classify drugs by mechanism

Problem: Classify — Aspirin, Morphine, Valium, Penicillin, Ranitidine
by pharmacological class and mechanism.

Step 1: Analgesics
  Aspirin  → Non-narcotic analgesic; irreversibly inhibits COX enzyme
              → reduces prostaglandin synthesis
  Morphine → Narcotic analgesic; binds μ-opioid receptors in CNS
              → reduces pain perception + causes euphoria (addictive)

Step 2: Tranquilliser
  Valium (diazepam) → Benzodiazepine tranquilliser
                    → allosteric enhancement of GABA-A receptor
                    → increased Cl⁻ influx → CNS depression → anxiolytic

Step 3: Antibiotic
  Penicillin → Bactericidal antibiotic (narrow spectrum, gram +ve)
             → inhibits transpeptidase → prevents peptidoglycan
               cross-linking → cell wall rupture → bacterial death

Step 4: Antihistamine
  Ranitidine → H₂ receptor antagonist
             → reduces gastric acid secretion
             → used for peptic ulcer disease

Answer:
  Aspirin    — Non-narcotic analgesic (COX inhibitor)
  Morphine   — Narcotic analgesic (opioid receptor agonist)
  Valium     — Tranquilliser (GABA-A receptor modulator)
  Penicillin — Bactericidal antibiotic (cell wall synthesis inhibitor)
  Ranitidine — Antihistamine / H₂ blocker (reduces acid secretion)

Example 2: Antiseptic vs Disinfectant

Problem: Explain why phenol at 0.2% is used on wounds but at 1% only on
surfaces. What general rule does this illustrate?

Step 1: Phenol at 0.2%
  → Low concentration; does not denature human tissue proteins significantly
  → Still lethal to bacteria on wound surface
  → Classified as ANTISEPTIC (safe for living tissue)

Step 2: Phenol at 1%
  → Higher concentration causes rapid protein denaturation
  → Toxic to mammalian cells → NOT safe for skin/wound use
  → Suitable for disinfecting non-living surfaces (floors, instruments)
  → Classified as DISINFECTANT

Step 3: General Rule
  The SAME chemical can act as antiseptic OR disinfectant
  depending on concentration.
  
  Lower concentration → antiseptic (living tissue)
  Higher concentration → disinfectant (non-living surfaces)

  This also applies to H₂O₂:
    3% → antiseptic (wound cleaning)
    >10% → industrial bleach/disinfectant

Common Mistakes

MistakeWhy It's WrongCorrect Approach
Confusing bactericidal with bacteriostaticBactericidal kills bacteria; bacteriostatic only inhibits growth — these are mechanistically distinctPenicillin/Amoxicillin = bactericidal (cell wall); Tetracycline/Chloramphenicol = bacteriostatic (protein synthesis)
Calling aspirin non-narcotic because it is "mild"Non-narcotic refers to mechanism (no opioid receptor binding), not potencyNon-narcotic = does not act on CNS opioid receptors; addiction potential is the deciding criterion
Treating cimetidine/ranitidine as antacidsBoth reduce gastric acid but they do NOT neutralise HCl — they are antihistamines (H₂ blockers)Antacids (NaHCO₃, Mg(OH)₂) chemically neutralise HCl; H₂ blockers reduce HCl secretion — different mechanism
Ignoring concentration when labelling antiseptic/disinfectantThe same compound has different safety profiles at different concentrationsAlways specify concentration: 0.2% phenol = antiseptic; 1% phenol = disinfectant

Quick Check

Q1. Which of the following is a narcotic analgesic?

A) Aspirin
B) Paracetamol
C) Morphine
D) Ibuprofen

Q2. Penicillin acts as a bactericidal antibiotic by:

A) Inhibiting protein synthesis in ribosomes
B) Disrupting bacterial plasma membrane
C) Inhibiting peptidoglycan cell wall synthesis
D) Blocking bacterial RNA polymerase

Q3. Ranitidine is best classified as:

A) An antacid that neutralises HCl
B) A broad-spectrum antibiotic
C) An H₂ receptor antagonist
D) An antifertility drug

Q4. A drug that blocks a receptor without activating it is called:

A) Agonist
B) Competitive agonist
C) Antagonist
D) Allosteric activator

Q5. Iodoform (CHI₃) acts as an antiseptic because it:

A) Directly denatures bacterial proteins on contact
B) Releases iodine slowly which kills bacteria
C) Raises pH of wound environment
D) Inhibits bacterial cell wall synthesis

Answer Key: 1-C | 2-C | 3-C | 4-C | 5-B


NCERT Links

  • NCERT Class 12 Chemistry — Chapter 16: Chemistry in Everyday Life
  • Pages 474–486 (drugs and medicines)
  • Key sections: 16.1 Drug-target interaction, 16.2 Therapeutic action of different classes of drugs
  • Table 16.1: Classification of drugs by pharmacological effect
  • Refer also to NCERT Exemplar Problems, Chapter 16 for additional MCQs

Drishti

🎯 Exam Tips

  • JEE frequently asks "Which is bactericidal/bacteriostatic?" — memorise the short list cold
  • Drug questions often use trade names (Valium, Luminal, Prozac) — know both trade and generic names
  • Antiseptic vs disinfectant distinction appears almost every year — anchor on concentration and tissue safety
  • Serotonin as neurotransmitter for depression/antidepressants is a reliable one-liner MCQ
  • Aspirin's IRREVERSIBLE COX inhibition vs ibuprofen's REVERSIBLE inhibition is a JEE distinction point

📊 Weightage

  • 1–2 questions per JEE Main paper from Chemistry in Everyday Life
  • Chapter contributes ~4 marks to JEE Main annually
  • Recall-based chapter — high return for time invested in revision

🔗 Related Topics

  • Biomolecules (enzyme-substrate analogy parallels drug-receptor interaction)
  • Amines (most drugs contain amine functional groups)
  • Alcohols and Phenols (antiseptic chemistry of phenol, iodoform)
  • Carbonyl Compounds (aspirin synthesis from salicylic acid)

📝 Revision Checklist

  • Name 2 narcotic and 3 non-narcotic analgesics with mechanism
  • Distinguish bactericidal vs bacteriostatic with 2 examples each
  • List antiseptics with active ingredients (Dettol, Bithional, Iodoform)
  • Write neutralisation reactions of NaHCO₃, Mg(OH)₂, Al(OH)₃ with HCl
  • Recall H₁ vs H₂ antihistamines with clinical use
  • State mechanism of penicillin and basis of resistance
  • Identify norethindrone's class and action
  • Name 3 tranquilliser classes with one example each

Key Takeaways (TL;DR)

  • What You'll Learn
  • Level 1 — Core Concepts
  • Level 2 — JEE Depth
  • Worked Examples

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