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Radiographic and CT Evaluation of FORL Disease on Referral Cats to Small Animal Teaching Hospital, Faculty of Veterinary Medicine, University of Tehran
2020
Soroori, Sarang | Aramesh, Fatemeh | Shateri Amiri, Banafsheh
BACKGROUND: Feline Odontoclastic Resorptive Lesion (FORL) is one of the most common diseases in oral cavity of adult domestic cats. OBJECTIVES: Evaluation of different types of FORL by radiography and computed tomography in order to accurately and early diagnose of disease. METHODS: In this retrospective study during 1 year, among 68 CT scans and 17 radiographs of the head of referral cats to veterinary hospital, University of Tehran, 18 cases of FORL (10 CT scans and 8 radiographs) having different degrees of teeth involvement in accordance with stages of FORL were described and diagnosed. For this purpose, radiographic images of teeth in lateral, oblique and dorsoventral views were prepared and also CT images of 2D in transverse, sagittal and dorsal views and 3D were constructed for evaluation of dental and bones reactions. RESULTS: In radiography and computed tomography, FORLs lesions are classified into five stages. In Stage 1 there is mild cementum and enamel loss but this stage is usually not noted on dental radiographs but may be felt on clinical exploration. In Stage 2 there is moderate cementum and enamel loss with dentinal loss that does not involve the pulp. In Stage 3 there is severe loss involving the pulp cavity with remaining tooth integrity. In Stage 4 there are extensive dental hard tissue losses and most of the tooth has lost its integrity. In Stage 5 there are remnants of dental hard tissues as irregular opacities. Furthermore, in this study it was proved that FORL occurs in male more than female cats and mandibular premolar teeth are the most affected ones. CONCLUSIONS: Considering that FORL has different stages and consequently has different severity, accurate diagnosis of this disease by radiography and computed tomography can help prevent progression of disease and results in fast and successful treatment.
Показать больше [+] Меньше [-]Computed tomographic anatomy and topography of the non-respiratory organs of coelomic cavity of European pond turtle (Emys orbicularis)
2015
Zehtabvar, Omid | Vajhi, Alireza | Tootian, Zahra | Rostami, Amir | Shojaei, Bahador
BACKGROUND: Reptiles, especially turtles that inhabit both on land and water, have made some special adaptations. Many people keep turtles as pets. Therefore, the anatomical knowledge of turtles should be more carefully evaluated and used for therapeutic purposes. One of these turtles is European pond turtle (Emys orbicularis). Most of vital systems are enclosed by the carapace and the plastron so it cannot be examined customarily by clinicians. The noninvasive diagnostic imaging techniques provide detailed information concerning these organs. OBJECTIVES: This study was conducted to give complete topographic information and knowledge about the position of the non respiratory organs of the coelomic cavity in the European pond turtle using Computed Tomography (CT) and usual anatomic methods. METHODS: 10 adult turtles (5 female, 5 male) were selected. All scans were obtained on a two detector scanner. In anatomical study three female and three male turtles were dissected. Two other female and male turtles were sectioned transversely. RESULTS: The results showed some differences in the position of the organs including stomach, gall bladder, liver and heart with those of other species. Moreover, the topography of the organs is described in retracted and protruded neck in this article. Retraction of the neck had an influence on the position of the organs such as oesophagus, stomach, liver and heart. CONCLUSIONS: The general morphological features of the non respiratory organs of the coelonic cavity of European pond turtle were examined by CT images and macroscopically in this study. Significant differences were found compared with other species.
Показать больше [+] Меньше [-]Clinical applications of imaging modalities of the carpal joint in dogs with particular reference to the carpal canal
2020
Tobolska Angelika | Adamiak Zbigniew | Głodek Joanna
The structure of the canine carpal joint is complex. This small joint consists of articulations that include the antebrachiocarpal, middle, carpometacarpal, and intercarpal joint surfaces. A large number of ligaments and tendons support and stabilise the carpus in dogs. Many injuries of this joint in dogs are not correctly recognised, diagnosed, or treated due to the limited use of diagnostic imaging methods. Radiography, the most common of them, has extensive application in diagnosing the causes of lameness in small animals. Other techniques, such as ultrasonography, computed tomography, and magnetic resonance imaging visualise other joint structures and surrounding soft tissues. However, these imaging modalities are rarely used to diagnose diseases and injuries of the canine carpus at present. The main reason for this is the small amount of research carried out and the lack of a properly described methodology for the use of imaging techniques. The wide use of all diagnostic imaging tools in the diagnosis of diseases and injuries of the wrist joint in humans shows that conducting studies on dogs could expand current knowledge. The use of these techniques in veterinary medicine could facilitate diagnosis and subsequent therapy of carpal disorders in dogs. MRI is the most frequently used imaging method in human medicine for visualisation of abnormalities of joints. This method could become a valuable part of the detection of inflammatory, traumatic, and degenerative diseases of the carpal joint in dogs.
Показать больше [+] Меньше [-]CT and scintigraphic evaluation of osseointegration following immediate versus delayed implantation in dogs
Kim, J.H.;Lee, J.Y.;Lee, W.G.;Oh, W.Y.;Kim, S.S.;Choi, S.H.(Chungbuk National University, Cheongju, Republic of Korea)E-mail:shchoi@cbu.ac.kr | Kang, S.S.(Chonnam National University, Gwangju, Republic of Korea)
Osseointegration involves anchoring dental implants to stable bone rather than to soft-tissue. Clinical osseointegration is currently defined as the process whereby alloplastic material is asymptomatically and rigidly fixed and maintained in bone during functional loading. Full osseointegration is necessary for the success of long-term dental implants. Recent developments in computer assisted measurement of bone formation have improved maxillofacial examination and osseointegration. Computer assisted examination has also proved effective in dental implantology.
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