49-Title: Ultrasonographic studies of teat in bovine health and disease

49-Title: Ultrasonographic studies of teat in bovine health and disease

Authors: Ravneet, Pallavi Verma, Tarunbir Singh, Ashwani Kumar and Arun Anand

Source: Ruminant Science (2021)-10(2):479-488.

How to cite this manuscript: Ravneet, Verma Pallavi, Singh Tarunbir, Kumar Ashwani and Anand Arun (2021). Ultrasonographic studies of teat in bovine health and disease. Ruminant Science 10(2):479-488.

Abstract

The present study comprised of ultrasonographic examination of normal (n=60) and diseased (n=60) teats in cows (n=48) and buffaloes (n=12) making a total of 120 teats. All the animals were subjected to real time B-mode, grey scale ultrasonography (USG) using 6 to 12 MHz frequency transducer by direct contact and water bath techniques. Normal teat’s sonoanatomy is comprised of the innermost hyperechoic mucosa followed by the hypoechoic muscular layer and the outermost hyperechoic layer of skin. The lumen of the teat cistern appeared anechoic to hypoechoic clearly distinguishable from the adjacent teat wall. The teat canal was seen as a hypoechoic band surrounded by hyperechoic lines on either side. The transition between teat cistern and teat canal was marked by Rosette of Furstenberg which appeared as a hyperechoic structure bounded by anechoic vessels making the venous ring of the rosette of Furstenberg. Water bath technique provided better visualization of teat cistern, teat canal, teat wall thickness, teat diameter at the area and 1.5 cm proximal to Rosette of Furstenberg. In diseased teat ultrasonographic diagnosis of the teat, lesions included intraluminal fibrosis at various levels of teat, foreign bodies, lacerations, fistulae, congenital anomalies such as imperforated teats, supernumerary teats and teat spider.

 

References

Abu-Rafee M and Pawde AM (2015). Iatrogenic foreign body in a previously blind teat: Case Report. International Journal of Veterinary Health Science and Research 3(4):58-59.

Amin NR, Patil DB, Kelawala DN, Parikh PV, Mer DR, Gameti KS and Gohil KM (2017). Ultrasonography of udder and teat in dairy animals. Ruminant Science 6(1):173-177.

Arnold JP (1960). Surgical procedures of the bovine teat. Iowa State University Veterinarian 22(1): 1.

Awasthi Neeraj, Purohit S and Pandey RP (2018). B-mode ultrasonographic evaluation of teat and udder affections in buffaloes (Bubalus bubalis). Ruminant Science 7(1):151-154.

Cartee RE, Ibrahim AK and McLeary D (1986). B-mode ultrasonography of the bovine udder and teat. Journal of the American Veterinary Medical Association 188(11):1284-1287.

Caruolo EV and Mochrie RD (1967). Ultrasonograms of lactating mammary glands. Journal of Dairy Science 50(2):225-230.

Carvalho RM (2020). Surgical management of teat avulsion in a goat using disposable skin staples.

Fasulkov IR (2012). Ultrasonography of the mammary gland in ruminants: a review. Bulgarian Journal of Veterinary Medicine 15(1).

Flöck M and Winter P (2006). Diagnostic ultrasonography in cattle with diseases of the mammary gland. Veterinary Journal 171(2):314-21.

Franz  S, Hofmann-Parisot M, Baumgartner W, Windischbauer G, Suchy A and Bauder B (2001). Ultrasonography of the teat canal in cows and sheep. Veterinary Record 149(4):109-112.

Franz, Sonja, Floek M and Hofmann-Parisot M (2009). Ultrasonography of the Bovine Udder and Teat. Veterinary Clinics of North America – Food Animal Practice  25(3):669-685.

Hamana KY, Motomura N, Yasuda S, Kamimura and Trenti F (1994). In Proceedings 18th  World Buiatrics Congress: 26th Congress of the Italian Association of Buiatrics, Bolonga, Italy, pp 377-380.

Hoque M, Jiwary R, Maiti SK, Singh GR, Gupta OP and Kumar N (2004). Ultrasonography of bovine udder and teat. In Abstract 11th Annual Congress of Indian Association for Advancement of Veterinary Research (IAAVR), IVRI Izatnagar.

Kadu BM (2013). Surgico-Therapeutic Management of Teat Affections in Bovine. MAFSU, Nagpur.

Klein D, Flöck M, Khol JL, Franz S, Stüger HP and Baumgartner W (2005). Ultrasonographic measurement of the bovine teat: Breed differences and the significance of the measurements for udder health. Journal of Dairy Research 72(3):296-302.

Masterson MA (2020). Teat surgery. In: American Association of Bovine Practitioners Proceedings of the Annual Conference, pp 39-40.

McDonald JS (1975). Radiographic method for anatomic study of the teat canal: Changes between milking periods. American Journal of Veterinary Research 36(8):1241-1242.

Misk N, Misk T, El-Khamary A and Semeika M (2018). A retrospective study of surgical affections of mammary glands in cattle and buffaloes and their management in the field. Journal of Veterinary Medical Science 17-0586.

Neijenhuis F, Klungel GH and Hogeveen H (2001). Recovery of cow teats after milking as determined by ultrasonographic scanning. Journal of Dairy Science 84(12):2599-2606.

Nichols S (2008). Teat laceration repair in cattle. Veterinary Clinics of North America: Food Animal Practice 24(2):295-305.

Nouh SR, Korittum AS, Elkammar MH and Barakat WM (2014). Retrospective study of teat surgical affections in dairy farms of armed forces and their treatment. Alexandria Journal of Veterinary Sciences 40(1):65-76.

Nudda A, Pullina G, Vallebella R, Bencini R and Enne G (2000). Ultrasound technique for measuring mammary cistern size of dairy ewes. Journal of Dairy Research 67(1):101-106.

Singh D (2018). Clinical studies on theloscopy and ultrasonography for evaluation of teat and udder affections in bovine. Doctoral dissertation submitted to GADVASU, Ludhiana.

Singh P, Purohit S and Pandey RP (2017). Ultrasonographic evaluation of teats in buffaloes (Bubalus bubalis). Ruminant Science 6(2):377-381.

Singh S, Bisla RS, Kumar A, Arora N and Jamdagni M (2020). Ultrasonographic evaluation of healing of teat fistula using polyglactin 910 suture and iso–butyl cyanoacrylate tissue adhesive in bovines. Haryana Veterinarian 59:69-73

Sreenu M and Jayaprakash T (2003). Foreign body in the udder of a cow-A case report. Indian Veterinary Journal 80(1):65-65