Gabriel Fidalgo scite author profile

Amphibians are models for studying applied ecological issues such as habitat loss, pollution, disease, and global climate change due to their sensitivity and vulnerability to changes in the environment. Developmental series of amphibians are informative about their biology, and X-ray based 3D reconstruction holds promise for quantifying morphological changes during growth—some with a direct impact on the possibility of an experimental investigation on several of the ecological topics listed above. However, 3D resolution and discrimination of their soft tissues have been difficult with traditional X-ray computed tomography, without time-consuming contrast staining. Tomographic data were initially performed (pre-processing and reconstruction) using the open-source software tool SYRMEP Tomo Project. Data processing and analysis of the reconstructed tomography volumes were conducted using the segmentation semi-automatic settings of the software Avizo Fire 8, which provide information about each investigated tissues, organs or bone elements. Hence, volumetric analyses were carried out to quantify the development of structures in different tadpole developmental stages. Our work shows that synchrotron X-ray microtomography using phase-contrast mode resolves the edges of the internal tissues (as well as overall tadpole morphology), facilitating the segmentation of the investigated tissues. Reconstruction algorithms and segmentation software played an important role in the qualitative and quantitative analysis of each target structure of the Thoropa miliaris tadpole at different stages of development, providing information on volume, shape and length. The use of the synchrotron X-ray microtomography setup of the SYRMEP beamline of Elettra Synchrotron, in phase-contrast mode, allows access to volumetric data for bone formation, eye development, nervous system and notochordal changes during the development (ontogeny) of tadpoles of a cycloramphid frog Thoropa miliaris. As key elements in the normal development of these and any other frog tadpole, the application of such a comparative ontogenetic study, may hold interest to researchers in experimental and environmental disciplines.

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Synchrotron X-ray biosample imaging: opportunities and challenges

Sena

Fidalgo

Paiva

et al. 2022

Biophys Rev

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Evaluation of the effects of Azadirachtin on internal structures of Rhodnius prolixus head using low-energy X-ray microfluorescence

Sena

Barroso

Braz

et al. 2021

Spectrochimica Acta Part B: Atomic Spectroscopy

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The Methodology to produce Rhodnius prolixus head structures made by 3D printing using Synchrotron Radiation Microtomography

et al. 2021

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3D printing technology has an important role at the study animal anatomy, and, for a long time, scientists have been searched for techniques that allow to create accurate 3D replicas of plants and animal specimens. In this work it was developed a methodology to print insects 3D replicas using X-Ray synchrotron microtomography. The insect chosen was Rhodnius prolixus, a hematophagous Hemiptera traditionally used as a model for studies of insect physiology, vector control strategies and parasite-vector interactions. The results obtained from this work showed that combining microtomography with 3D printing could be a powerful tool to obtain accurate 3D replicas of insects, allowing anatomical studies without the necessity of sacrificing the animal for dissection.

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Gabriel Fidalgo

Elemental distribution in the aortic arch using LEXRF: Side effects of angiotensin receptor blockers as antihypertensive treatment

Synchrotron microtomography applied to the volumetric analysis of internal structures of Thoropa miliaris tadpoles

Synchrotron X-ray biosample imaging: opportunities and challenges

Evaluation of the effects of Azadirachtin on internal structures of Rhodnius prolixus head using low-energy X-ray microfluorescence

The Methodology to produce Rhodnius prolixus head structures made by 3D printing using Synchrotron Radiation Microtomography

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