This dissertation describes the use of various DNA techniques to identify resistance genes in different bacterial pathogens. Unlike conventional methods, such as culture mediums, these DNA techniques are capable of generating more reliable results in less time. This makes it possible to detect multi-resistant bacteria and prevent further infection through the implementation of timely prevention measures. Additionally, these DNA techniques give us instant insight into the type of resistance, which is important from an epidemiological standpoint
Highly resistant microorganisms (HRMOs) may evade screening strategies used in routine diagnostics. ...
Our DNA, 3 billion letters long, is the blueprint of life. People differ from each other in around 1...
Antibiotics represent one of the greatest advancements in modern medicine. Their clinical use has si...
This dissertation describes the use of various DNA techniques to identify resistance genes in differ...
A quick diagnosis of infectious diseases can advance treatment efficiency, and thus contribute to a ...
Antimicrobial resistance poses one of the greatest threats of modern times. The low estimate in 2014...
The human body is colonised with millions of bacteria, which are usually innocent. These bacteria ca...
Bacterial resistance to antimicrobial agents is not new—for millions of years bacteria have evolved ...
In this paper, we present a novel machine learning-based methodology for identifying bacteria DNA su...
High-throughput molecular screening is required to investigate the origin and diffusion of antimicro...
The World Health Organization declared antimicrobial resistance (AMR) one of the top 10 public healt...
This review will discuss a number of molecular tools which are currently used as well as some innov...
Antibiotic resistance is a growing problem, particularly among gram-negative bacteria (a distinct cl...
Bacterial strains resistant to various antibiotic drugs are frequently encountered in clinical infec...
Introduction: Antibiotics are important drugs for treating bacterial infections. Nevertheless, bacte...
Highly resistant microorganisms (HRMOs) may evade screening strategies used in routine diagnostics. ...
Our DNA, 3 billion letters long, is the blueprint of life. People differ from each other in around 1...
Antibiotics represent one of the greatest advancements in modern medicine. Their clinical use has si...
This dissertation describes the use of various DNA techniques to identify resistance genes in differ...
A quick diagnosis of infectious diseases can advance treatment efficiency, and thus contribute to a ...
Antimicrobial resistance poses one of the greatest threats of modern times. The low estimate in 2014...
The human body is colonised with millions of bacteria, which are usually innocent. These bacteria ca...
Bacterial resistance to antimicrobial agents is not new—for millions of years bacteria have evolved ...
In this paper, we present a novel machine learning-based methodology for identifying bacteria DNA su...
High-throughput molecular screening is required to investigate the origin and diffusion of antimicro...
The World Health Organization declared antimicrobial resistance (AMR) one of the top 10 public healt...
This review will discuss a number of molecular tools which are currently used as well as some innov...
Antibiotic resistance is a growing problem, particularly among gram-negative bacteria (a distinct cl...
Bacterial strains resistant to various antibiotic drugs are frequently encountered in clinical infec...
Introduction: Antibiotics are important drugs for treating bacterial infections. Nevertheless, bacte...
Highly resistant microorganisms (HRMOs) may evade screening strategies used in routine diagnostics. ...
Our DNA, 3 billion letters long, is the blueprint of life. People differ from each other in around 1...
Antibiotics represent one of the greatest advancements in modern medicine. Their clinical use has si...