1. Tsai, TT, Nienaber, CA, Eagle, KA. Acute aortic syndromes. Circulation. 2005;112(24):3802–3813.
Google Scholar | Crossref | Medline | ISI2. Rooney, JR, Prickett, ME, Crowe, MW. Aortic rupture in Stallions. Path Vet. 1967;4(3):268–274.
Google Scholar | SAGE Journals3. Ploeg, M, Saey, V, Delesalle1, C, et al. Thoracic aortic rupture and aortopulmonary fistulation in the Friesian horse: histomorphologic characterization. Vet Pathol. 2015;52(1):152–159.
Google Scholar | SAGE Journals | ISI4. Potter, KA, Besser, TE. Cardiovascular lesions in bovine Marfan syndrome. Vet Pathol. 1994;31(5):501–509.
Google Scholar | SAGE Journals | ISI5. Lamm, CG, Guard, CL, Erb, HN, Njaa, BL. Characterization of rupture of abdominal artery aneurysm in dairy cattle. J Vet Diagn Invest. 2007;19(3):273–278.
Google Scholar | SAGE Journals | ISI6. Stehbens, WE . Analysis of definitions and word misusage in vascular pathology. Cardiovasc Pathol. 2001;10(5):251–257.
Google Scholar | Crossref | Medline7. Mitchell, RN . Blood vessels. In: Kumar, V, Abbas, AK, Aster, JC, eds. Robbins and Cotran Pathologic Basis of Disease, 9th ed. Elsevier Saunders. 2015:483–522.
Google Scholar8. Berridge, BR, Mowat, V, Nagai, H, et al. Non-proliferative and proliferative lesions of the cardiovascular system of the rat and mouse. J Toxicol Pathol. 2016;29(3 suppl):1S–47S.
Google Scholar | Crossref | Medline9. Treumann, S, Schneider, S, Gröters, S, Moore, NP, Boor, PJ. Spontaneous occurrence of dissecting aneurysms in the region of the ductus arteriosus in four-day-old Wistar rat pups. Toxicol Pathol. 2011;39(6):969–974.
Google Scholar | SAGE Journals | ISI10. Patrick, DJ, Gadsden, BJ, Rehagen, DA. Aortic tears in nonclinical research rodents. Poster presented at: Society of Toxicologic Pathology 36th Annual Symposium; June 24-29, 2017; Montréal, Québec, Canada.
Google Scholar11. Ramot, Y, Manno, RA, Okazaki, Y, et al. Spontaneous aortitis in the Balb/c mouse. Toxicol Pathol. 2009;37(5):667–671.
Google Scholar | SAGE Journals | ISI12. Taylor, I. Mouse In: McInnes, E . ed. Background Lesions in Laboratory Animals. ISBN: 9780702035197, Saunders Ltd. 2011.
Google Scholar13. Blankenship, B, Skaggs, H. Findings in historical control Harlan RCCHanTM: WIST rats from 4-, 13-, 26-week studies. Toxicol Pathol. 2013;41(3):537–547.
Google Scholar | SAGE Journals | ISI14. Blankenship, B, Eighmy, JJ, Hoffmann, G, Schroeder, M, Sharma, AK, Sorden, SD. Findings in historical control Harlan RCCHan™: WIST rats from 104-week oral gavage studies. Toxicol Pathol. 2016;44(7):947–961.
Google Scholar | SAGE Journals | ISI15. Weber, K, Mowat, V, Hartmann, E, et al. Pathology in continuous infusion studies in rodents and non-rodents and ITO (Infusion Technology Organisation)-recommended protocol for tissue sampling and terminology for procedure-related lesions. J Toxicol Pathol. 2011;24(2):113–124.
Google Scholar | Crossref | Medline16. Williams, JS, Graff, JA, Uku, JM, Steinig, JP. Aortic injury in vehicular trauma. Ann Thorac Surg. 1994;57(3):726–730.
Google Scholar | Crossref | Medline17. Meijer, MK, Spruijt, BM, van Zutphen, LFM, Baumans, V Effect of restraint and injection methods on heart rate and body temperature in mice. Lab Anim. 2006;40(4):382–391.
Google Scholar | SAGE Journals | ISI18. Falak, S, Schafer, S, Baud, A, et al. Protease inhibitor 15, a candidate gene for abdominal aortic internal elastic lamina ruptures in the rat. Physiol Genomics. 2014;46(12):418–428.
Google Scholar | Crossref | Medline19. Sauvage, M, Jacob, MP, Osborne-Pellegrin, M. Aortic elastin and collagen content and synthesis in two strains of rats with different susceptibilities to rupture of the internal elastic lamina. J Vasc Res. 1997;34(2):126–136.
Google Scholar | Crossref | Medline20. Erbel, R, Alfonso, F, Boileau, C, et al. Task force on aortic dissection, European society of cardiology. Diagnosis and management of aortic dissection. Eur Heart J. 2001;22(18):1642–1681.
Google Scholar | Crossref | Medline | ISI21. Gopinath, C, Prentice, DE, Lewis, DJ. The Cardiovascular System. Atlas of Experimental Toxicological Pathology. (Current Histopathology volume 13 ed. Gresham GA). 1987:20.
Google Scholar | Crossref22. Jayaraj, AP . Dissecting aneurysm of aorta in rats fed with cysteamine. Br J Exp Pathol. 1983;64(5):548–552.
Google Scholar23. Daugherty, A, Cassis, LA. Mouse models of abdominal aortic aneurysms. Arterioscler Thromb Vasc Biol. 2004;24(3):429–434.
Google Scholar | Crossref | Medline | ISI24. Asahina, M, Matsumoto, H, Yasuhara, Y, et al. Osborne-Mendel rats simultaneously develop cardiac and renal dysfunction, left atrial thrombosis, peripheral artery occlusion, and ascending aortic dissection. Biochem Biophys Res Commun. 2017;485(2):550–555.
Google Scholar | Crossref | Medline25. Patelis, N, Moris, D, Schizas, D, et al. Animal models in the research of abdominal aortic aneurysms development. Physiol Res. 2017;66(6):899–915.
Google Scholar | Crossref | Medline26. Losco, PE, Poulet, FM, Kaminska-McNamara, GZ, Klein, MF. Myocardial and reproductive system toxicity of SCH 351591, a selective phosphodiesterase-4 inhibitor, in CD-1 mice. Toxicol Pathol. 2010;38(4):568–582.
Google Scholar | SAGE Journals | ISI27. Greaves, P. Cardiovascular system. Histopathology of Preclinical Studies, 3rd ed. Elsevier. 2007:305.
Google Scholar | Crossref28. Hibender, S, Franken, R, van Roomen, C, et al. Resveratrol inhibits aortic root dilatation in the Fbn1C1039G/+ Marfan mouse model. Arterioscler Thromb Vasc Biol. 2016;36(8):1618–1626.
Google Scholar | Crossref | Medline29. Heegaard, AM, Corsi, A, Danielsen, CC, et al. Biglycan deficiency causes spontaneous aortic dissection and rupture in mice. Circulation. 2007;115(21):2731–2738.
Google Scholar | Crossref | Medline30. Kashyap, S, Engel, S, Osman, M, Al-Saiegh, Y, Wongjarupong, A, Grande, JP. Cardiovascular manifestations of renovascular hypertension in diabetic mice. PeerJ. 2016;4:e1736.
Google Scholar | Crossref | Medline31. Elefteriades, JA, Zafar, MA, Ziganshin, BA. Iatrogenic aortic dissection: review of the literature. Aorta (Stamford). 2016;4(6):240–243.
Google Scholar | Crossref | Medline32. Isaacs, KR . The cardiovascular system. In: Turton, J, Hooson, J, eds. Target Organ Pathology A Basic Text. Taylor & Francis. 1998:141–176.
Google Scholar33. Turner, PV, Brabb, T, Pekow, C, Vasbinder, MA. Administration of substances to laboratory animals: routes of administration and factors to consider. J Am Assoc Lab Anim Sci. 2011;50(5):600–613.
Google Scholar | Medline34. Boivin, GP, Bottomley, MA, Dudley, ES, Schiml, PA, Wyatt, CN, Grobe, N. Physiological, behavioral, and histological responses of male C57BL/6 N mice to different CO2 chamber replacement rates. J Am Assoc Lab Anim Sci. 2016;55(4):451–461.
Google Scholar | Medline35. Boivin, GP, Bottomley, MA, Schiml, PA, Goss, L, Grobe, N. Physiologic, behavioral, and histologic responses to various euthanasia methods in C57BL/6NTac male mice. J Am Assoc Lab Anim Sci. 2017;56(1):69–78.
Google Scholar | Medline36. Smith, W, Harrap, S. Behavioural and cardiovascular responses of rats to euthanasia using carbon dioxide gas. Lab Anim. 1997;31(4):337–346.
Google Scholar | SAGE Journals | ISI