[摘要] ENGLISH ABSTRACT: In this thesis, research results are reported on the role of dipalmitoyl phosphatidyl choline (DPPC) and DPPC-liposomes on the in vitro permeability characteristics of various antimycobacterial drugs across porcine bronchial tissue. The permeability flux values of the different compounds (isoniazid, ofloxacin and moxifloxacin) and their relevant DPPC formulations were determined using a continuous flow through perfusion system. Mean steady state flux values were compared statistically by means of a t-test at a significance level of 5% as well as an F-test using whole curve comparisons. The results indicated that the different formulations of drug and their DPPC combinations retard the permeation of drug through bronchial tissue. However, moxifloxacin permeation was significantly enhanced when in a DPPC-liposomal formulation. These results demonstrate the important role that molecular weight, electrostatic charge, partitioning of the molecules in DPPC and DPPC-liposomes play in transmembrane diffusion.In addition, the effect of individual drugs and their DPPC combinations on the surface tension lowering property of DPPC was evaluated. The results obtained showed minimal decreases in the surface tension lowering capability of DPPC; however, the minimal increases in surface tension do not alter the integrity of DPPC to a large extent.Drug susceptibility testing of Mycobacterium tuberculosis cultures against the individual antitubercular drugs and their DPPC combinations was done by using the Radiometric BACTEC 460TB™ system. Drug-entrapped DPPC liposomes were tested at concentrations comparable to their relative minimum inhibitory concentrations (MIC). The results for the BACTEC assay indicated that the mycobacteria were susceptible to the developed drug entrapped liposomes; of which their encapsulation efficiencies for the relevant drugs were approximately ± 50%. It was concluded that drug-entrapped DPPC liposomes could fulfill the dual role of pulmonary drug delivery and alveolar stabilization due to antiatelectatic effect of DPPC which can improve the distribution of anti-tubercular drugs in the lung