Njiru, 2012 has described that " Lack of effective point of care diagnostic tests applicable in resource-poor endemic areas is a critical barrier to effective treatment and control of infectious diseases.” Therefore, Innovations in biotechnology that combine molecular biology, microfabrication and bioinformatics are moving nucleic acid technologies from futuristic possibilities to common laboratory techniques and modes for diagnoses. In this context, LAMP (Loop Mediated Isothermal Amplification) is a highly sensitive and specific DNA/RNA amplification method. Advantage of LAMP is isothermal reaction condition and therefore, LAMP is affordable because of no need to have expensive thermal cycler.
Njiru, 2012 has described that " Lack of effective point of care diagnostic tests applicable in resource-poor endemic areas is a critical barrier to effective treatment and control of infectious diseases.” Therefore, Innovations in biotechnology that combine molecular biology, microfabrication and bioinformatics are moving nucleic acid technologies from futuristic possibilities to common laboratory techniques and modes for diagnoses. In this context, LAMP (Loop Mediated Isothermal Amplification) is a highly sensitive and specific DNA/RNA amplification method. Advantage of LAMP is isothermal reaction condition and therefore, LAMP is affordable because of no need to have expensive thermal cycler.