[Inhibitory effects of electric UHF field and magnetic infrared laser irradiation on Mycobacterium tuberculosis]. / Ingibiruiushchee deistvie élektricheskogo polia UVCh i magnito-infrakrasno-lazernogo izlucheniia na mikobakterii tuberkuleza.

Microbiological studies indicate that stimulating the multiplication of Mycobacteria tuberculosis, electric UHF fields at 40 and 70 W make them available for drug exposure despite drug resistance. Unlike the electric UHF fields, MILI has a direct inhibitory effect on Mycobacteria tuberculosis that are sensitive and resistant to antibiotic drugs, by potentiating their action. In the clinical setting, chemotherapy in combination with electric UHF fields and MILI therapy reduces the time of disappearance of clinical signs of the disease, infiltration resolution, bacterial isolation, and decay cavity closure.

[Effectiveness of complex treatment in combination with short-wave therapy and protease inhibitors in first detected patients with pulmonary tuberculosis]. / Effektivnost' kompleksnogo lecheniia vpervye vyiavlennykh bol'nykh tuberkulezom legkikh pri ispol'zovanii UVCh-terapii i ingibitorov proteaz.

Combined drug therapy ceases bacterial isolation and clinical symptoms of the disease and resolves infiltration in most patients after 1-month therapy. Gordox has a pronounced inhibitory action on Mycobacterium tuberculosis irrespective of their responses to antibiotics. L-transformation of M. tuberculosis was found with 5000-10,000 ATpE (U) of gordox.