The therapeutic index of a drug is defined as the ratio between the toxic dose and the effective dose.

Ratio of toxic dose to effective dose

A patient on lithium therapy developed hypertension and was started on a thiazide diuretic. After a few days, he developed coarse tremors and other symptoms suggestive of lithium toxicity. What is the probable mechanism of interaction between thiazide diuretics and lithium?

Thiazide increases the tubular reabsorption of lithium

Thiazide inhibits the metabolism of lithium

Thiazides act as an add-on drug to lithium

A drug is more likely to cause toxicity in elderly patients due to all of the following reasons except which of the following?

decreased volume of distribution

decreased renal excretion of drugs

Which of the following cytochromes is involved in monooxygenase mediated detoxification of drugs?

NADPH-cytochrome P450 reductase

Which of the following statements about the PRIMARY mechanism of action of acetazolamide is correct?

Reversible inhibitor of carbonic anhydrase

It decreases potassium excretion

Has structural resemblance to penicillins

All of the following are risk factors for renal toxicity caused by aminoglycosides EXCEPT:

Aminoglycoside administration in recent past

Adverse Drug Reactions and Toxicity for INI-CET: High-Yield Pharmacology Lessons

ADR Basics - What's the Harm?

Adverse Drug Reaction (ADR): Harmful, unintended effect of a drug at normal therapeutic doses (WHO definition).
Severity: Can range from Minor → Moderate → Severe → Lethal.
Classification (Rawlins & Thompson):

Type	Feature (Dose Dep.)	Mnemonic (📌)	Example(s)
A	Augmented (Yes)	ABCDEF	Dose-related toxicity
B	Bizarre (No)		Allergy, Idiosyncrasy
C	Chronic (Yes/Time)		Long-term use effects
D	Delayed (Time)		Carcinogenicity
E	End-of-use (No)		Withdrawal effects
F	Failure (Varies)		Resistance, Inefficacy

⭐ Type B (Bizarre) reactions are generally unpredictable, not dose-dependent, and often related to patient-specific factors like genetics (e.g., G6PD deficiency) or immune responses (e.g., penicillin allergy).

ADR Mechanisms - How Drugs Go Rogue

Type A (Augmented): Dose-dependent, predictable from known pharmacology. E.g., Bleeding with anticoagulants, severe hypoglycemia with insulin.
Type B (Bizarre): Dose-independent, unpredictable; often immune-mediated or due to genetic factors. E.g., Anaphylaxis to penicillin, G6PD deficiency hemolysis with primaquine.

Hypersensitivity Reactions (Gell & Coombs): Gell and Coombs Hypersensitivity Reactions Types I-IV

Type	Name	Mediator(s)	Onset	Drug Examples
I	Anaphylactic	IgE	Minutes	Penicillin, NSAIDs
II	Cytotoxic	IgG, IgM	Variable	Methyldopa (hemolysis), Heparin (HIT)
III	Immune Complex	IgG, IgM	1-3 wks	Sulphonamides, Penicillin (serum sickness)
IV	Cell-Mediated	T-cells	2-3 days	Allopurinol (SJS/TEN), Topical neomycin

⭐ Stevens-Johnson Syndrome (SJS) / Toxic Epidermal Necrolysis (TEN) are severe Type IV reactions, often linked to allopurinol, lamotrigine, sulfonamides.

Other Types:
- C (Chronic): Prolonged use (e.g., NSAID nephropathy).
- D (Delayed): After stopping (e.g., tardive dyskinesia).
- E (End-of-use): Withdrawal (e.g., opioid withdrawal).
- F (Failure): Unexpected (e.g., antibiotic resistance).

Risk Factors & Susceptibility - Who's at Risk?

Patient-Specific:
- Age extremes (neonates, elderly): altered pharmacokinetics (PK), ↓drug metabolism/excretion
- Genetic factors: e.g., CYP polymorphisms (slow/rapid metabolizers), G6PD deficiency, HLA types (e.g., HLA-B*5701 & abacavir hypersensitivity)
- Organ dysfunction: renal/hepatic impairment (↓drug clearance, ↑half-life)
- Polypharmacy: ↑risk of drug-drug interactions (DDIs)
- Physiological states: pregnancy, lactation (altered PK, fetal/neonatal risk)
- History: previous ADRs, allergies, atopy
Drug-Specific:
- Narrow therapeutic index (NTI): e.g., warfarin, digoxin, lithium, phenytoin, theophylline
- Dose & duration: high doses, prolonged therapy
- Properties: inherent toxicity, high allergenic potential (e.g., penicillins)

⭐ Patients with renal impairment are at significantly ↑risk for ADRs from drugs primarily excreted by kidneys (e.g., aminoglycosides, lithium, metformin, many NSAIDs).

Organ Toxicity & Teratogenicity - System Hit List

Organ-Specific Toxicity:

Organ	Key Drugs
Hepatotoxic	Paracetamol, Isoniazid, Halothane
Nephrotoxic	Aminoglycosides, NSAIDs, Cisplatin
Neurotoxic	Vincristine (peri), Phenytoin (cereb)
Cardiotoxic	Doxorubicin, Trastuzumab
Pulmotoxic	Amiodarone, Bleomycin
Ototoxic	Aminoglycosides, Furosemide
Myelosupp.	Chemotherapy, Chloramphenicol

Teratogenicity: Drug-induced fetal defects. Critical period: 3-8 weeks (organogenesis).
- Thalidomide: Phocomelia 📌 Tha-limb-domide
- Warfarin: Nasal hypoplasia, skeletal defects
- Phenytoin: Fetal hydantoin syndrome
- Valproate: Neural tube defects
- ACE Inhibitors/ARBs: Renal dysplasia (2nd/3rd trimester)
- Isotretinoin: CNS, craniofacial, CV defects
- Lithium: Ebstein's anomaly
⭐ ACE inhibitors and ARBs are contraindicated in pregnancy, especially in the 2nd and 3rd trimesters, due to risks of fetal renal damage and oligohydramnios.

High‑Yield Points - ⚡ Biggest Takeaways

Type A ADRs are dose-dependent and predictable; Type B ADRs are non-dose-dependent and unpredictable.

Idiosyncratic reactions are genetically determined (e.g., G6PD deficiency with primaquine).

Teratogenicity involves drug-induced fetal malformations, with the first trimester being most critical.

CYP450 enzyme inducers (e.g., rifampicin) ↓ drug effect; inhibitors (e.g., ketoconazole) ↑ drug toxicity.

Key antidotes: N-acetylcysteine (paracetamol), naloxone (opioids), flumazenil (benzodiazepines).

Drug interactions (pharmacokinetic & pharmacodynamic) are a major source of ADRs and toxicity.

Therapeutic Drug Monitoring (TDM) is crucial for drugs with a narrow therapeutic index (e.g., digoxin, lithium).

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