Pedro Almeida da Silva - Academia.edu (original) (raw)
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Papers by Pedro Almeida da Silva
Journal of Clinical Microbiology, 2010
This study identified pathogenicity genes in 40 Helicobacter pylori clinical isolates. The cagA ,... more This study identified pathogenicity genes in 40 Helicobacter pylori clinical isolates. The cagA , vacA , and iceA genes were detected in 65%, 97.5%, and 97.5% of the isolates, respectively. The cagA , iceA1 , and vacAs1a/m1 genes were related to erosive gastritis, whereas the vacAs2/m2 and iceA2 genes were associated with enanthematous gastritis.
Journal of Antimicrobial Chemotherapy, 2011
Tuberculosis (TB) remains one of the leading public health problems worldwide. Declared as a glob... more Tuberculosis (TB) remains one of the leading public health problems worldwide. Declared as a global emergency in 1993 by the WHO, its control is hampered by the emergence of multidrug resistance (MDR), defined as resistance to at least rifampicin and isoniazid, two key drugs in the treatment of the disease. More recently, severe forms of drug resistance such as extensively drug-resistant (XDR) TB have been described. After the discovery of several drugs with anti-TB activity, multidrug therapy became fundamental for control of the disease. Major advances in molecular biology and the availability of new information generated after sequencing the genome of Mycobacterium tuberculosis increased our knowledge of the mechanisms of resistance to the main anti-TB drugs. Better knowledge of the mechanisms of drug resistance in TB and the molecular mechanisms involved will help us to improve current techniques for rapid detection and will also stimulate the exploration of new targets for drug activity and drug development. This article presents an updated review of the mechanisms and molecular basis of drug resistance in M. tuberculosis. It also comments on the several gaps in our current knowledge of the molecular mechanisms of drug resistance to the main classical and new anti-TB drugs and briefly discusses some implications of the development of drug resistance and fitness, transmission and pathogenicity of M. tuberculosis.
Journal of Clinical Microbiology, 2010
This study identified pathogenicity genes in 40 Helicobacter pylori clinical isolates. The cagA ,... more This study identified pathogenicity genes in 40 Helicobacter pylori clinical isolates. The cagA , vacA , and iceA genes were detected in 65%, 97.5%, and 97.5% of the isolates, respectively. The cagA , iceA1 , and vacAs1a/m1 genes were related to erosive gastritis, whereas the vacAs2/m2 and iceA2 genes were associated with enanthematous gastritis.
Journal of Antimicrobial Chemotherapy, 2011
Tuberculosis (TB) remains one of the leading public health problems worldwide. Declared as a glob... more Tuberculosis (TB) remains one of the leading public health problems worldwide. Declared as a global emergency in 1993 by the WHO, its control is hampered by the emergence of multidrug resistance (MDR), defined as resistance to at least rifampicin and isoniazid, two key drugs in the treatment of the disease. More recently, severe forms of drug resistance such as extensively drug-resistant (XDR) TB have been described. After the discovery of several drugs with anti-TB activity, multidrug therapy became fundamental for control of the disease. Major advances in molecular biology and the availability of new information generated after sequencing the genome of Mycobacterium tuberculosis increased our knowledge of the mechanisms of resistance to the main anti-TB drugs. Better knowledge of the mechanisms of drug resistance in TB and the molecular mechanisms involved will help us to improve current techniques for rapid detection and will also stimulate the exploration of new targets for drug activity and drug development. This article presents an updated review of the mechanisms and molecular basis of drug resistance in M. tuberculosis. It also comments on the several gaps in our current knowledge of the molecular mechanisms of drug resistance to the main classical and new anti-TB drugs and briefly discusses some implications of the development of drug resistance and fitness, transmission and pathogenicity of M. tuberculosis.