[1] Elizondo G, Eggers M, Falcon M, Trevino M, Marrufo R, Perez C, Nunez E, Moreno R, Mitchell A, Sheppard A, Dria S, Jay T, Kirk I, Hovsepian D, Steele J. First-in-Human Study with Eight Patients Using an Absorbable Vena Cava Filter for the Prevention of Pulmonary Embolism. Journal of Vascular and Interventional Radiology 2020; 31:1817-1824.

[2] Elizondo G, Eggers M, Falcon M, Trevino M, Marrufo R, Perez C, Nunez E, Moreno R, Mitchell A, Sheppard A, Dria S, Jay T, Kirk I, Hovsepian D, Steele J. First in Human Evaluation of an Absorbable Vena Cava Filter for the Prevention of Pulmonary Embolism. Journal of Vascular and Interventional Radiology 2020; SIR Proceedings, Abstract 277.

[3] Eggers M, Rousselle S, Urtz M, Albright R, Will A, Jourden B, Godshalk C, Dria S, Huang S, Steele J. Randomized Controlled Study of an Absorbable Vena Cava Filter in a Porcine Model. Journal of Vascular and Interventional Radiology 2019; 30:1487-1494.

[4] Eggers M, Dria S, Rousselle S, Urtz M, Albright R, Will A, Jourden B, Godshalk C, Huang S, Steele J. Randomized Controlled Study of an Absorbable Vena Cava Filter in a Porcine Model. Journal of Vascular and Interventional Radiology 2018; 29, 4: S29.

[5] Huang S, Eggers M, McArthur M, Dixon K, Dria S, Steele J, Wallace M. Safety and Efficacy of an Absorbable IVC Filter for the Prevention of Pulmonary Embolism in Swine. Radiology 2017; 285 (3): 820-829.

[6] Tian L, Lee P, Singhana B, Chen A, Qiao Y, Lu L, Martinez J, Tasciotti E, Melancon A, Huang S, Eggers, M, Malancon M. Radiopaque Resorbable Inferior Vena Cava Filter Infused with Gold Nanoparticles. Scientific Reports / Nature 2017; 7: 2147: 1-10.

[7] Dria S, Eggers M.  In-vitro Evaluation of Clot Capture Efficiency of an Absorbable Vena Cava Filter. Journal of Vascular Surgery: Venous and Lymphatic Disorders.  2016 Oct; 4(4): 472-8.

[8] Eggers M, Huang S, McArthur M, Dixon K, Dria S, Steele J, Cannizzaro L, Wallace M. Preliminary Safety and Efficacy of an Absorbable Vena Cava Filter in a Porcine Model. Journal of Vascular and Interventional Radiology 2016;27: S102-3.

[9] Eggers M, McArthur M, Figueira T, Abdelsalam M, Dixon K, Pageon L, Wallace M, Huang S. Pilot In-vivo Study of an Absorbable Polydioxanone Vena Cava Filter. Journal of Vascular Surgery: Venous and Lymphatic Disorders 2015; 3: 409-420.

[10] Singhana B, Chen A, Slattery P, Yazdi I, Qiao Y, Tasciotti E, Wallace M, Huang S, Eggers M, Melancon M. Infusion of Iodine-based Contrast Agents into Poly(p-dioxanone) as a Radiopaque Resorbable IVC Filter. Journal of Materials Science: Materials in Medicine 2015; 26.

[11] Eggers M, Huang S, Dixon K, Figueira T, Abdelsalam M, Wallace M. In-vivo Analysis of Polydioxanone for the Development of Absorbable Vascular Filters. Journal of Vascular and Interventional Radiology 2014; 25: S87.

[12] Singhana B, Chen A, Slattery P, Yazdi I, Maldonado K, Tasciotti E, Wallace M, Eggers M, Huang S, Melancon M, Development of Radiopaque Resorbable Medical Device. Journal of Vascular and Interventional Radiology 2014; 25: S84-5.

[13] Eggers M, Reitman C. In Vitro Analysis of Polymer Candidates for the Development of Absorbable Vascular Filters, Journal Vascular and Interventional Radiology 2012; 23: 1023-1030.