<div class="fultxt">
											  <ol>
											  <li>Shiwani H, Baxter P, Taylor E, Bailey MA, Scott DJA (2018) Modelling the growth of popliteal artery aneurysms. Br J Surg 105: 1749-52.</li>
											  <li>Cecenarro RR, Allende JN, Molinelli LB, Antueno FJ, Gramática L (2018) Popliteal Artery Aneurysms: Literature review and presentation of case. Rev Fac Cien Med Univ Nac Cordoba 75: 41-5.</li>
											  <li>Cervin A, Ravn H, Björck M (2018) Ruptured popliteal artery aneurysm. Br J Surg: 105: 1753-8.</li>
											  <li>Mikhaylov IP, Lavrenov VN, Isaev GA, Kokov LS, Trofimova EY (2018) Ruptures of popliteal artery aneurysms. Khirurgiia (Mosk) 4: 57-62.</li>
											  <li>Hohneck A, Keese M, Ruemenapf G, Amendt K, Muertz H, et al. (2019) Prevalence of abdominal aortic aneurysm and associated lower extremity artery aneurysm in men hospitalized for suspected or known cardiopulmonary disease. B M C Cardiovasc Disord 19.</li>
											  <li>Aragão JA, de Miranda FGG, Aragão ICSA, Aragão FMSA, Reis FP (2019) Treatment of bilateral popliteal artery aneurysms. J Vasc Bras 10.1590/1677-5449.180142.</li>
											  <li>Kim TI, Sumpio BE (2019) Management of asymptomatic popliteal artery aneurysms. Int J Angiol 28: 5-10.</li>
											  <li>Carino D, Sarac TP, Ziganshin BA, Elefteriades JA (2018) Abdominal aortic aneurysm: evolving controversies and uncertainties. Int J Angiol 27: 58-80.</li>
											  <li>Shen YH, LeMaire SA (2017) Molecular pathogenesis of genetic and sporadic aortic aneurysms and dissections. Curr Probl Surg 54: 95-155.</li>
											  <li>Bäck M, Yurdagul A, Tabas I, Öörni K, Kovanen PT (2019) Inflammation and its resolution in atherosclerosis: mediators and therapeutic opportunities. Nat Rev Cardiol 16: 389-406.</li>
											  <li>Forrester SJ, Booz GW, Sigmund CD, Curt D, Coffman TM, et al. (2018) Angiotensin II signal transduction: An update on mechanisms of physiology and pathophysiology. Physiol Rev 98(3): 1627–738.</li>
											  <li>Jana S, Hu M, Shen M, Kassiri Z (2019) Extracellular matrix, regional heterogeneity of the aorta and aortic aneurysm. Exp Mol Med 10.1038/s12276-019-0286-3.</li>
											  <li>Tsukita S, Yamada T, Takahashi K (2017) MicroRNAs 106b and 222 improve hyperglycemia in a mouse model of insulin-deficient diabetes via pancreatic β-Cell proliferation. E Bio Medicine 15: 163–72.</li>
											  <li>Ren J, Han Y, Ren T, Fang H, Xu X, et al. (2020) AEBP1 promotes the occurrence and development of abdominal aortic aneurysm by modulating inflammation via the NF-κB pathway. J Atheroscler Thromb 27: 255-70.</li>
											  <li>Boros FA, Vécsei L (2019) Immunomodulatory effects of genetic alterations affecting the kynurenine pathway. Front Immunol 10.3389/fimmu.2019.02570.</li>
											  <li>Ma X, Yao H, Yang Y (2018) MiR-195 suppresses abdominal aortic aneurysm through the TNF-α/NF-κB and VEGF/PI3K/Akt pathway. International J Mol Med 2350-8.</li>
											  <li>Sima X, Xu J, Li J, You C (2013) Association between NFKB1 -94 insertion/deletion ATTG polymorphism and risk of intracranial aneurysm. Genet Test Mol Biomarkers 17: 620-4.</li>
											  <li>Wright LB, Matchett WJ, Cruz CP, James CA, Culp WC, et al. (2004) Popliteal artery disease: diagnosis and treatment. Radio Graphics 24: 467-79.</li>
											  
											  <li>Seidi A, Mirzaahmadi S, Mahmoodi K, Soleiman-Soltanpour M (2018) The association between NFKB1 -94ATTG ins/del and NFKB1A 826C/T genetic variations and coronary artery disease risk. Mol Biol Res Commun 7: 17-24.</li>
											  <li>Ruan Z, Zhao D (2019) Long intergenic noncoding RNA LINC00284 knockdown reduces angiogenesis in ovarian cancer cells via up-regulation of MEST through NF-κB1, FASEB J 33: 12047-59.</li>
											  <li>Iacobas DA, Tuli NY, Iacobas S, Rasamny JK, Moscatello A, et al. (2017) Gene master regulators of papillary and anaplastic thyroid cancers. Oncotarget 9: 2410–24.</li>
											  <li>Si-Yu J, Jun-Yi L, Xiao-Mei L, Fen L, Yi-Tong M, et al. (2019) NFKB1 gene rs28362491 polymorphism is associated with the susceptibility of acute coronary syndrome. Biosci Rep 39.</li>
											  <li>Salman HE, Ramazanli B, Yavuz MM, Yalcin HC (2019) Biomechanical investigation of disturbed hemodynamics-induced tissue degeneration in abdominal aortic aneurysms using computational and experimental techniques. Front Bioeng Biotechnol 7.</li>
											  <li>Ramachandran RK, Sørensen MD, Aaberg-Jessen C, Hermansen SK, Kristensen BE (2017) Expression and prognostic impact of matrix metalloproteinase-2 (MMP-2) in astrocytomas. PLoS One 12.</li>
											  <li>Miyata H, Shimizu K, Koseki KH, Abekura Y, Kataoka H, et al. (2019) Real-time iImaging of an experimental intracranial aneurysm in rats. Neurol Med Chir (Tokyo) 59: 19-26.</li>
											  <li>Mussbacher M, Salzmann M, Brostjan C, Hoesel B, Schoergenhofer C, et al. (2019) Cell type-specific roles of NF-κB linking inflammation and thrombosis. Front Immunol 10. </li>
											  <li>Du L, Zhang J, De Meyer GRY, Flynn R, Dichek DA (2014) Improved animal models for testing gene therapy for atherosclerosis. Hum Gene Ther Methods 25: 106-14.</li>
											  <li>Petsophonsakul P, Furmanik M, Forsythe R (2019) Role of vascular smooth muscle cell phenotypic switching and calcification in aortic aneurysm aormation, involvement of Vitamin K-dependent processes. Arterioscler Thromb Vasc Biol 39: 1351-68.</li>
											  <li>Carino D, Sarac TP, Ziganshin BA, Elefteriades JA (2018) Abdominal aortic aneurysm: Evolving controversies and uncertainties. Int J Angiol 27: 58-80.</li>
											  <li>Lekai E, Klonaris C, Athanasiadis D, Patelis N, Sioziou A, et al. (2019) DAB2IP Expression in abdominal aortic aneurysm: EZH2 and mir-363-3p as potential mediators. In Vivo 33: 737-42.</li>
											  <li>Bradley J, Toghill BJ, Saratzis A, Freeman PJ, Sylvius N, et al. (2018) SMYD2 promoter DNA methylation is associated with abdominal aortic aneurysm (AAA) and SMYD2 expression in vascular smooth muscle cells. Clin Epigenetics 10.</li>
											  <li>Goettsch C, Kjolby M, Aikawa E (2018) Sortilin and its multiple roles in cardiovascular and metabolic diseases. Arterioscler Thromb Vasc Biol 38: 19–25.</li>
											  <li>Ramella M, Bernardi P, Fusaro L, Manfredi M, Casella F, et al. (2018) Relevance of inflammation and matrix remodeling in abdominal aortic aneurysm (AAA) and popliteal artery aneurysm (PAA) progression. Am J Transl Res 10: 3265–75.</li>
											  <li>Goyal A, Keramati AR, Czarny MJ, Resar JR, Mani A (2017) The genetics of aortopathies in clinical cardiology. Clin Med Insights Cardiol 11.</li>
											  <li>Korneva A, Zilberberg L, Rifkin DB, Humphrey JD, Bellini C (2019) Absence of LTBP-3 attenuates the aneurysmal phenotype but not spinal effects on the aorta in Marfan syndrome, Biomech. Model Mechanobiol 18: 261-73.</li>
											  <li>Mohammad A, Helmi H, Atwal PS (2018) Patient with Marfan syndrome and a novel variant in FBN1 presenting with bilateral popliteal artery aneurysm. Case Reports Genetics 4: 1-4.</li>
											  <li>Takeda N, Komuro I (2019) Genetic basis of hereditary thoracic aortic aneurysms and dissections. J Cardiol 74: 136-43.</li>
											  <li>Harky A, Fan KS, Fan KH (2019) The genetics and biomechanics of thoracic aortic diseases. Vasc Biol 1: 13-25.</li>
											  <li>Pinard AP, Jones GT, Milewicz DM (2019) Genetics of thoracic and abdominal aortic diseases: Aneurysms, dissections, and ruptures. Circ Res 124: 588-606.</li>
											  <li>Ellis MW, Luo J, Qyang Y (2019) Modeling elastin-associated vasculopathy with patient induced pluripotent stem cells and tissue engineering. Cell Mol Life Sci 76: 893-901.</li>
  </ol>
											  </div>