Iveta Putnová scite author profile

The pig represents a useful, large experimental model for biomedical research. Recently, it has been used in different areas of biomedical research. The aim of this study was to review the basic anatomical structures of the head region in the pig in relation to their use in current research. Attention was focused on the areas that are frequently affected by pathological processes in humans: the oral cavity with teeth, salivary gland, orbit, nasal cavity and paranasal sinuses, maxilla, mandible and temporomandibular joint. Not all of the structures have an equal morphology in the pig and human, and these morphological dissimilarities must be taken into account before choosing the pig as an experimental model for regenerative medicine.

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Radiography, Computed Tomography and Magnetic Resonance Imaging of Craniofacial Structures in Pig

Kyllar

Štembírek

Putnová

et al. 2013

Anat. Histol. Embryol.

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The pig has recently become popular as a large animal experimental model in many fields of biomedical research. The aim of this study is to evaluate the basic anatomical structures in the head region of the pig to lay the groundwork for its practical clinical usage or pre-clinical research in the future. We used three different diagnostic imaging methods: radiography, computed tomography (CT) and magnetic resonance imaging (MRI). The analysis showed that radiographic imaging is suitable only for general evaluation of the facial area of the pig skull. CT images showed excellent spatial definition of bony structures of the whole craniofacial area, and MRI images revealed fine soft tissue details. Radiography is preferentially suited to general assessment of bone structures of the facial skeleton; however, the thick layer of adipose tissue in the craniofacial region of the pig makes the imaging of some parts difficult or even impossible. CT is useful for revealing morphological details of mineralized tissues, whereas MRI is more suitable for soft tissue analysis and the detection of subtle pathologic changes in both bone and soft tissues. Therefore, before using pigs as an experimental model in craniofacial research, it is necessary to evaluate the suitability and disadvantages of potential imaging methods and how appropriate they are for accurate visualization of desired structures.

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Comparative morphology of normal and cleft minipigs demonstrates dual origin of incisors

Putnová

Odehnalová

Horak

et al. 2011

Archives of Oral Biology

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Alteration of primary cilia morphology and associated signalling in ameloblastoma

Filušová

Putnová

Hurník

et al. 2022

Archives of Oral Biology

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Iveta Putnová

The pig as an experimental model for clinical craniofacial research

Radiography, Computed Tomography and Magnetic Resonance Imaging of Craniofacial Structures in Pig

Comparative morphology of normal and cleft minipigs demonstrates dual origin of incisors

Alteration of primary cilia morphology and associated signalling in ameloblastoma

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