January 17, 2012

Question bank on General Pharmacology


For students of 2nd Prof. MBBS

Pharmacokinetics

1. Definition of Drug. Difference between drug and medicine.
2. Different routes of drug administration, their advantages and disadvantages, examples of each route.
3. Define Pharmacokinetics. How does it differ from Pharmacodynamics?
4. Write short notes on:
a) Passive transport of drugs
b) Absorption of drug
c) Plasma protein binding of drug and its significance
d) Apparent volume of distribution and its significance. Why is it called “apparent”?
e) Blood brain barrier and its pharmacological significance
f) Biotransformation and its two phases
g) Microsomal enzymes, their inducers and inhibitors
h) Cytochrome P-450
i) Bioavailibility of a drug, Calculation, Significance
j) Half life of a drug, types, calculation, significance
k) Clearence and its pharmacological significance
l) Steady state plasma concentration of a drug

Pharmacodynamics and adverse drug reaction

1. Define pharmacodynamics.
2. Mechanisms of drug action.
3. Define: Agonist, antagonist and partial agonist. What is Inverse agonist?
4. Short notes on:
a) Therapeutic Index
b) Therapeutic window
c) Tolerance
d) Tachyphylaxis
e) Effects of drug combinations
f) Types of antagonism
g) Pharmacogenetics
h) Teratogenic drugs
i) Side effect vs. Secondary effects
j) Idiosyncrasy
k) P-drugs
l) Essential drugs
m) Orphan drugs

January 15, 2012

Laboratory diagnosis of Generalised Edema (Anasarca)


Edema is defined as collection of excess fluid in tissue space or serous cavities. Generalised edema is also called Anasarca.

Common causes of anasarca are:

  • a.       Renal disease – Nephrotic syndrome
  • b.      Hepatic disease – Cirrhosis of Liver
  • c.       Cardiac disease – Congestive cardiac failure


Investigations:

Baseline:

  • a.       Complete hemogram
  • b.      Blood Sugar, Urea, Creatinine
  • c.       Chest X ray – PA view
  • d.      ECG in 12 leads

Special:

  • a.       Echocardiography
  • b.      Serum albumin
  • c.       LFTs
  • d.      Prothombin time
  • e.      Urine R/E
  • f.        24 hour urinary protein excretion
  • g.       Examination of effusion/ ascitic fluid


Complete hemogram

  • ·         Hb – may be reduced in chronic renal disease
  • ·         RBCs may show macrocytosis or target cells in chronic liver disease

Blood sugar

  • ·         To rule out Diabetes Mellitus

Urea/ Creatinine

  • ·         May rise in Renal disorder and left Heart failure

Chest X Ray

  • ·         May show evidence of pulmonary edema (bat wing appearance of hilar region)
  • ·         May show evidence of Pleural and Pericardial effusion (due to hypo-albuminemia)
  • ·         May show cardiac hypertrophy in chronic heart diseases

ECG in 12 leads

  • ·         Shows patterns of Ventricular hypertrophy
  • ·         Gives early evidence of electrolyte disbalance (in renal failure)

Echocardiography

  • ·         Confirms heart failure (LV ejection fraction < 55%)
  • ·         Detects ventricular hypertrophy
  • ·         Detects pericardial effusion

Serum albumin

  • ·         Reduced in hepatic disease and nephrotic syndrome
  • ·         Unchanged in heart failure
Liver function tests
  • ·         Abnormal in cirrhosis (raised AST, ALT, reduced albumin, altered albumin:globulin ratio)

Prothrombin time

  • ·         Raised in cirrhosis
  • ·         Reduced in nephrotic syndrome
  • ·         Unchanged in cardiac failure

Urine Routine Examination

In nephrotic syndrome, following changes are expected:
  • ·         Physical – appearance is hazy, high specific gravity
  • ·         Chemical – protein +++
  • ·         Microscopic – fatty cast +, hyaline cast +++

24 hour urinary protein excretion

  • ·         Raised in nephrotic syndrome (often > 3.5 g/day)

Examination of pleural fluid in case of pleural effusion

·         State the differences between transudate and exudate (from your textbook/ copy)