Drug Treatment of Tuberculosis

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Presentation transcript:

Drug Treatment of Tuberculosis Dr Munir Gharaibeh, MD, PhD, MHPE Department of Pharmacology Faculty of Medicine December 2014

Drug Treatment of Tuberculosis

Recommended Duration of Therapy

Antituberculous Agents Primary or First Line Drugs: Isoniazid (INH) Rifampin “Rifadin” or “Rimactane” Ethambutal Streptomycin Pyrazinamide

Isoniazid(INH) Most active. Small molecule, water soluble, Structurally related to Pyridoxine. Prodrug, activated by KatG, the mycobacterial catalase-peroxidase, Blocks mycolic acid synthesis, and consequently mycobacterial cell wall synthesis, leading to a bactericidal effect in growing TB cells.

Isoniazid (INH) TB lesion contains more than 108 bacilli When used alone, resistance is 1 in 106. A lesion usually contains 108 cells. When used in combination, the probability of resistance will be 1 in 10 6 * 10 6 =1012. Readily absorbed Widely distributed, penetrates into macrophages. Metabolized by acetylation: Slow and Fast Acetylators

Isoniazid(INH) Adverse Reactions: Hepatitis: in about 1% Anorexia, N,V, jaundice, pain, death. Depends on age, alcohol, pregnancy Neuropathy:10-20% More in slow acetylators, malnutrition, alcoholism, DM, AIDS, uremia. Due to pyridoxine defeciency. Neurotoxicity: Memory loss, Psychosis, Seizures. Hematologic, Tinnitus, GIT, Interactions

Rifampin Stretomyces miditerranei. Gram+ve and –ve Mycobacteria, enterococci and chlamydia. Binds to the beta subunit of bacterial DNA-dependant RNA polymerase and therefore inhibits RNA synthesis.

Rifampin Bactericidal Well absorbed, highly bound to proteins. Widely distributed. Hepatic metabolism and exhibits enterohepatic recirculation.

Uses of Rifampin TB Leprosy Meningococcal Carrier State Prophylaxis in H.influenzae. Serious Staph osteomyelitis and valve endocarditis.

Toxicity of Rifampin Imparts harmless orange color to secretions( tears, urine, sweat). Nephritis Rashes Hepatitis Flu-like syndrome Liver Enzyme Inducer, so can lower serum levels of many drugs

Streptomycin Primary---Second-line------ Primary anti-tuberculus agent. Plague, Tuleremia, Brucellosis. Endocarditis. Toxic: Allergy: Fever, Rashes Pain, after i.m injection. Vestibular toxicity---- Irreversible. Nephrotoxicity

Antituberculous Agents Secondary or Second Line Drugs: Ethionamide Capreomycin Cycloserine Para-Amino-Salicylic Acid (PAS) Amikacin Flouroquinolones Linezolid Rifabutin Rifapentine

Indications for Secondary or Second Line Drugs 1. Resistance to first –line drugs. 2. Failure of clinical response to conventional therapy. 3. Occurrence of serious treatment-limiting adverse drug reactions. 4. When expert guidance is available to deal with the toxic effects.

Secondary or Second Line Drugs Ethionamide: Related to Isoniazid Blocks mycolic acid synthesis Oral, Good distribution Poorly tolerated: Severe GIT irritation Neurotoxic Hepatotoxic

Secondary or Second Line Drugs Capreomycin: Peptide protein synthesis inhibitor Injectable Nephrotoxic, ototoxic Local pain and sterile abscesses may occur.

Secondary or Second Line Drugs Cycloserine: Inhibits cell wall synthesis. Peripheral neuropathy and CNS toxicity including depression and psychotic reactions.

Secondary or Second Line Drugs Para-Amino-Salicylic Acid (PAS): Folate synthesis antagonist Well absorbed Dose 8-12 gm/day Widely distributed, except CNS Excreted in urine. GI toxicity Hypersensitivity reactions Crystalluria

Secondary or Second Line Drugs Amikacin: Multidrug-resistant strains Atypical mycobacteria

Secondary or Second Line Drugs Flouroquinolones: Are an important addition Resistance develops rapidly if used alone.

Secondary or Second Line Drugs Linezolid: Multidrug-resistant strains. Bone marrow suppression Irreversible peripheral and optic neuropathy. Drug of last resort

Secondary or Second Line Drugs Rifabutin Rifapentine Related to Rifampin. Inhibit bacterial RNA polymerase. Both, like Rifampin, are inducers for CYP P450 enzymes. But Rifabutin is less potent inducer. Rifabutin is indicated in place of Rifampin in the treatment of TB in HIV-infected patients receiving protease inhibitor or nonnucleoside reverse transcriptase inhibitor (e.g. efavirenz)

Atypical Mycobacteria (Nontuberculus Mycobacteria) 10% of clinical isolates. Distinctive laboratory characteristics. Present in the environment. Not communicable from person to person. Less susceptible to drugs.

Atypical Mycobacteria (Nontuberculus Mycobacteria) M.tuberculosis complex: Erythromycin Sulphonamides Tetracycline M.avium complex: Important and common cause of disseminated TB in late stages of AIDS. Azithromycin or Clarithromycin, plus Ethambutal, plus Ciprofloxacin

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