Normal Ocular Fundus Imaging with D-Eye Ophthalmoscope in Honamlı Goat Breed

Year 2020, Volume: 13 Issue: 1, 65 - 69, 30.06.2020

Özlem Şengöz Şirin

Abstract

It is very important to show the ocular fundus, which is useful in identifying some systemic and hereditary diseases in farm animals. However, herd-based ophthalmoscopic scanning in farm animals is quite difficult under field conditions. In this study, it was explained that it is a practical application to display the ocular fundus on a herd basis by using the D-EYE® system. In the study, the ocular fundus images of the Honamlı goat breed, which had superior features especially in terms of morphological, fertility and growth characteristics, were taken. With this study, normal ophthalmoscopic fundus views of Honamlı goats were presented and contributed to the literature.

Keywords

Honamlı goat breed, D-EYE®, ocular fundus, smart phone ophthalmoscopy

D-EYE® Oftalmoskop ile Honamlı Keçi ırkında Normal Oküler Fundus Görüntülenmesi

Abstract

Çiftlik hayvanlarında bazı sistemik ve kalıtsal hastalıkların tanımlanmasında yararlı olan oküler fundusu görüntülemek çok önemlidir. Bununla birlikte, çiftlik hayvanlarında sürü tabanlı oftalmoskopik tarama, saha koşulları altında oldukça zordur. Bu çalışmada D-EYE® sistemini kullanarak oküler fundusu sürü bazında göstermenin pratik bir uygulama olduğu açıklanmıştır. Çalışmada özellikle morfolojik, doğurganlık ve büyüme özellikleri bakımından üstün özelliklere sahip olan Honamlı keçi ırkı oküler fundus görüntüleri alınmıştır. Bu çalışma ile Honamlı keçilerinin normal oftalmoskopik fundus görüşleri sunulmuş ve literatüre katkıda bulunmuştur.

Keywords

Honamlı keçi ırkı, D-EYE®, oküler fundus, akıllı telefon oftalmoskop

References

• Reference1- Kalaka R, Ramani C, (2017): Normal Ocular Fundus Imaging of Domestic Goat (Capra hircus). Intas Polivet, 18(II), 509-10.
• Reference2- Khanamiri HN, Nakatsuka A, El-Annan J (2017): Smartphone fundus photography. JOVE, 125, 1-5.
• Reference3- Gomes FE, Ledbetter E (2019): Canine and feline fundus photography and videography using a nonpatented 3D printed lens adapter for a smartphone. Vet Ophthalmol, 22, 82-92.
• Reference4- Haddock LJ, Qian MD (2015): Smartphone Technology for Fundus Photography Greater portability could mean greater versatility. Retin Phys, 12(6), 51–8.
• Reference5- Ryan ME, Rajalakshmi R, Prathiba V, Anjana RM, et al. (2015): Comparison Among Methods of Retinopathy Assessment (CAMRA) Study. Opthalmology, 122(10), 2038-43.
• Reference6- Russo A, Morescalchi F, Costagliola C, Delcassi L, Semeraro F (2015): Comparison of Smartphone Ophthalmoscopy With Slit-Lamp Biomicroscopy for Grading Diabetic Retinopathy. Am J Ophthalmol, 159(2), 360-4.
• Reference7- Kanemaki N, Inaniwa M, Terakado K, et al. (2016): Fundus photography with a smartphone in indirect ophthalmoscopy in dogs and cats. Vet Ophthalmol, 20(3), 1–5.
• Reference8- Galan A, Martin-Suarez EM, Molleda JM (2006): Ophthalmoscopic Characteristics in Sheep and Goats: Comparative Study. J Vet Med A, 53, 205–8.
• Reference9- Pearce JW, Moore CP (2013), Food Animal Ophthalmology, In: Gelatt K. N., Gilger B. C., Kern T. J., Veterinary Ophthalmology, Vol. 2, 5th ed. pp. 1610-74, Wiley Blackwell, New Jersey, USA.
• Reference10- Cullen CL, Webb AA (2013): Ocular Manifestations of Systemic Disease Part:4 Food Animals In: Gelatt KN, Gilger BC, Kern TJ, Veterinary Ophthalmology, Vol. 2, 5th ed. pp. 2071-101, Wiley Blackwell, New Jersey, USA.
• Reference11- Alina D, Muste A, Beteg F, Briciu R (2008): Morphological Aspect of Tapetum Lucidum at some Domestic Animals. Bulletin USAAM, Vet Med, 65, 166-70.
• Reference12- Naderi S, Rezaei HR, Pompanon F, Blum MGB, et al. (2008): The goat domestication process inferred from large-scale mitochondrial DNA analysis of wild and domestic individuals. Proc Natl Acad Sci USA, 105, 17659–64.
• Reference13- Karadağ O, Soysal Mİ (2018): Honamlı Keçilerinin Bazı Döl Verimi, Büyüme ve Morfolojik Özelliklerinin Belirlenmesi. Journal of Tekirdag Agricultural Faculty, 15(01), 135-42.
• Reference14- Daşkıran İ., Koluman N., Konyalı A., (2012): Keçi Yetiştirme, Ankara.
• Reference15- Balland O, Russo A, Isard PF, Mathieson I, et al., (2017): Assessment of a smartphone-based camera for fundus imaging in animals. Vet Ophthalmol, 20(1), 89-94.
• Reference16- Crispin S, (2005): Notes on Veterinary Ophthalmology, pp. 261-263, Blackwell Science Ltd, UK.
• Reference17- Brooks DE (1999): Equine Ophthalmology, In: Gelatt KN (ed). Veterinary Ophthalmology, 3rd ed. pp. 1053-1115, Lippincott, Williams & Wilkins, Philadelphia, USA.
• Reference18- Chase J (1982): The evolution of retinal vascularization in mammals. Am Acad Ophthal, 89, 1518–25.