Animal models have for long been pivotal for parasitology research. Over the last few years, techniques such as intravital, optoacoustic and magnetic resonance imaging, optical projection tomography, and selective plane illumination microscopy developed promising potential for gaining insights into host-pathogen interactions by allowing different visualization forms in vivo and ex vivo. Advances including increased resolution, penetration depth, and acquisition speed, together with more complex image analysis methods, facilitate tackling biological problems previously impossible to study and/or quantify. Here we discuss advances and challenges in the in vivo imaging toolbox, which hold promising potential for the field of parasitology
The initial phase of malaria infection is the pre-erythrocytic phase, which begins when parasites ar...
The quantitative analysis of Plasmodium development in the liver in laboratory animals in cultured c...
As predicted by the red queen hypothesis, microbial pathogens are probably the major reason for the ...
Animal models have for long been pivotal for parasitology research. Over the last few years, techni...
© 2019 Elsevier Ltd. All rights reserved.Animal models have for long been pivotal for parasitology r...
In vivo infection routes of parasites have remained something of a "black box", in which only snapsh...
Pathogens interact with their hosts at different spatial and temporal scales. Studying these interac...
Intravital microscopy (IVM) allows the visualization of how pathogens interact with host cells and t...
Intravital microscopy allows imaging of biological phenomena within living animals, including host‐p...
Over the past decade, major advances in imaging techniques have enhanced our understanding of Plasmo...
AbstractThe advances in microscopy combined to the invaluable progress carried by the utilization of...
Fluorescent proteins have proven to be important tools for in vitro live imaging of parasites and fo...
Infectious diseases are the second leading cause of death worldwide. Noninvasive small-animal imagin...
Background: The development of techniques that allow the imaging of animals infected with parasites ...
Hematogenous dissemination followed by tissue tropism is a characteristic of the infectious process ...
The initial phase of malaria infection is the pre-erythrocytic phase, which begins when parasites ar...
The quantitative analysis of Plasmodium development in the liver in laboratory animals in cultured c...
As predicted by the red queen hypothesis, microbial pathogens are probably the major reason for the ...
Animal models have for long been pivotal for parasitology research. Over the last few years, techni...
© 2019 Elsevier Ltd. All rights reserved.Animal models have for long been pivotal for parasitology r...
In vivo infection routes of parasites have remained something of a "black box", in which only snapsh...
Pathogens interact with their hosts at different spatial and temporal scales. Studying these interac...
Intravital microscopy (IVM) allows the visualization of how pathogens interact with host cells and t...
Intravital microscopy allows imaging of biological phenomena within living animals, including host‐p...
Over the past decade, major advances in imaging techniques have enhanced our understanding of Plasmo...
AbstractThe advances in microscopy combined to the invaluable progress carried by the utilization of...
Fluorescent proteins have proven to be important tools for in vitro live imaging of parasites and fo...
Infectious diseases are the second leading cause of death worldwide. Noninvasive small-animal imagin...
Background: The development of techniques that allow the imaging of animals infected with parasites ...
Hematogenous dissemination followed by tissue tropism is a characteristic of the infectious process ...
The initial phase of malaria infection is the pre-erythrocytic phase, which begins when parasites ar...
The quantitative analysis of Plasmodium development in the liver in laboratory animals in cultured c...
As predicted by the red queen hypothesis, microbial pathogens are probably the major reason for the ...