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Scientific Program
6th webinar on Microbiology, will be organized around the theme “Exploring Innovative Research in Clinical Microbiology”
Webinar on Microbiology is comprised of keynote and speakers sessions on latest cutting edge research designed to offer comprehensive global discussions that address current issues in Webinar on Microbiology
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Medical microbiology, the large subset of microbiology that is applied to medicine, is a branch of medical science concerned with the prevention, diagnosis and treatment of infectious diseases. Medical microbiologists deal with clinical consultations on the investigation, principles of diagnosis, treatment, and prevention of infectious diseases; the scientific development, administrative and medical direction of a clinical microbiology laboratory; the establishment and direction of infection control programs across the continuum of care; communicable disease prevention and epidemiology and related public health issues.
Microbial biochemistry comprises of biochemical reactions in microbial growth, various modes and mechanisms/ processes of pathogenesis required in causing infection/ diseases in the host. It involves the study of microbial growth, microbial cell structure, microbial metabolism, primary and advanced functions and the interactions of biological macromolecules, like carbohydrates, proteins, Fatty Acids and Lipids and nucleic acids; which cater the skeletal aspect and basis of functions affiliated with life. Biochemical study of microbes is crucial in the processes of their action. Post genomic analyses, maintenance of mechanisms, & functional replication, integrating plasmid functions, conjugation systems and regulatory network are the key factors that play a vital role in metabolism of microbes. When monomers are co-linked to synthesize a polymer, dehydration occurs often resulting in assembly of different macromolecules in much larger complexes.
Antimicrobial resistance-Antimicrobial resistance occurs when microorganisms such as bacteria, viruses, fungi and parasites change in ways that render the medications used to cure the infections they cause ineffective. When the microorganisms become resistant to most antimicrobials they are often referred to as “superbugs”. This is a major concern because a resistant infection may kill, can spread to others, and imposes huge costs to individuals and society .Consequences of antimicrobial resistance-The disease consequences of resistance should be assessed according to the morbidity and mortality rate due to antibiotic resistant organisms. It can be assumed that resistant microorganisms lead to an increase in morbidity and mortality since resistance increases the risk of inappropriate therapy. There is an increased risk that patients who do not receive appropriate treatment will have a longer course of disease or a fatal outcome; moreover, as these patients remain infectious for a longer period, morbidity and transmission of the microorganism are increased. Such increased morbidity was documented in outbreaks of diseases such as shigellosis, typhoid fever, and pneumococcal infections.
Molecular microbiology is a has increased its expansion in the area of science. The application of molecular biology has turned up the microbial world in many remarkable ways. Molecular biology has transformed the study of microorganisms and improved the composition, phylogeny, and physiology of microbial communities. The current molecular microbiology includes a range of many technologies and new methods for the study of proteins extracted from environmental samples.
Antimicrobial chemotherapy is the clinical application of antimicrobial agents to treat infectious disease. Antimicrobial chemotherapy involves the administration of drugs with selective toxicity against pathogens involved in infections, not host cells. Antibiotics, which are agents used to combat bacteria, are among the most common antimicrobials. An antimicrobial is an agent that kills microorganisms or stops their growth. Antimicrobial medicines can be grouped according to the microorganisms they act primarily against. For example, antibiotics are used against bacteria, and antifungals are used against fungi.