Polymerase Chain Reaction Multiplication for the Detection of Bacterial Isolates Causing Neonatal Sepsis

Abstract: BACKGROUND: Neonatal sepsis is a clinical syndrome caused by the presence of bacteria in the blood accompanied by symptoms and systemic signs of infection that occurs in the first 4 weeks of life after birth. The process of identifying pathogenic microorganisms is essential in determining the clinical condition in neonatal sepsis. AIM: The study was aimed to develop a multiplex polymerase chain reaction (PCR) method to identify bacterial isolates that cause neonatal sepsis in Indonesia with the main targ… Show more

“…These bacteria are characterized by their resistance to β-lactam antibiotics to produce β-lactamase enzyme as well as having an important virulence factor (lipopolysaccharide and capsule) that resists phagocytosis (Jasim et al, 2020). A team of researchers were making explorative in vitro study for the optimization of an initial design and PCR methods for the detection of the main bacteria that cause neonatal sepsis in Indonesia, mainly Klebsiella pneumonia (Suryani et al, 2020). In a Dutch study for VRE cases, the dissemination of the VanA gene cluster in their hospitals between 2012 and 2015 was dominated by clonal spread, they also identified plasmid dissemination in a high frequencies with the spread of resistance which mainly driven by horizontal gene transfer (HGT).Their study clarified the feasibility of differentiate between modes of dissemination with short-read data and provides a new review to determine the relative contribution of nested genomic elements in the distribution of VanA-type resistance (Alonso et al, 2021).…”

Detection of acquired resistance genes for vancomycin in local Iraqi isolates of Klebsiella pneumoniae

“…These bacteria are characterized by their resistance to β-lactam antibiotics to produce β-lactamase enzyme as well as having an important virulence factor (lipopolysaccharide and capsule) that resists phagocytosis (Jasim et al, 2020). A team of researchers were making explorative in vitro study for the optimization of an initial design and PCR methods for the detection of the main bacteria that cause neonatal sepsis in Indonesia, mainly Klebsiella pneumonia (Suryani et al, 2020). In a Dutch study for VRE cases, the dissemination of the VanA gene cluster in their hospitals between 2012 and 2015 was dominated by clonal spread, they also identified plasmid dissemination in a high frequencies with the spread of resistance which mainly driven by horizontal gene transfer (HGT).Their study clarified the feasibility of differentiate between modes of dissemination with short-read data and provides a new review to determine the relative contribution of nested genomic elements in the distribution of VanA-type resistance (Alonso et al, 2021).…”

Detection of acquired resistance genes for vancomycin in local Iraqi isolates of Klebsiella pneumoniae