Tissue Heart Valves (THV) - EPIC™ Features

SURGICAL
VALVE SOLUTIONS
EPIC™ PLUS MITRAL AND AORTIC STENTED TISSUE VALVES

The latest generation of the Epic™ Platform continues the Epic product family’s history of excellence. The future-forward design of the Epic Plus mitral and aortic valves gives you and your patients more choices when it comes to preserving long-term treatment paths.

THE PLATFORM FOR POSSIBILITY

The Epic™ Platform has been proven over time and defined by strong hemodynamics, intuitive implantability, a future-forward design, and more. The platform boasts the low ventricular protrusion in all valve sizes, a flexible polymer stent, individually selected porcine leaflets to ensure optimal coaptation, and a flexible sewing cuff designed to minimize both in-implant suture drag and post-implant paravalvular leak.

Epic™ Plus Supra Aortic Stented Tissue Valve Features

Silicone-Filled Cuff
FlexFit^TM Polymer Stent
Unique Pericardial Shield
Flexible Cuff
Low Stent Post Height

Allows for supra-annular implantation
- Withstands approximately 8 atm pressure during balloon valvuloplasty procedures¹
- Eases implant
- Accommodates MIS procedures
Provides a tissue-to-tissue interface to help prevent the risk of abrasion
Mitigates PVL and easily fits patient anatomy
Mitigates risk of coronary obstruction

EPIC™ SUPRA AORTIC STENTED TISSUE VALVE FEATURES

Epic Plus Supra aortic stented tissue valve features

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SILICONE-FILLED CUFF
Allows for supra-annular implantation
FLEXFIT™ POLYMER STENT
- Withstands approximately 8 atm pressure during balloon valvuloplasty procedures¹
- Eases implant
- Accommodates MIS procedures.
UNIQUE PERICARDIAL SHIELD
Provides a tissue-to-tissue interface to help prevent the risk of abrasion
FLEXIBLE CUFF
Mitigates PVL and easily fits patient anatomy
LOW STENT POST HEIGHT
Mitigates risk of coronary obstruction

Epic Plus Mitral Stented Tissue Valve Features

Optimal Leaflet Design and Matching
Low Ventricular Protrusion
FlexFit^TM Polymer Stent
Unique Pericardial Shield
Flexible Cuff
Ratcheting Holder

Reduces regurgitation risk
Avoids LVOT obstruction
- Withstands approximately 8 atm pressure during balloon valvuloplasty procedures¹
- Eases implant
- Accommodates MIS procedures.
Provides a tissue-to-tissue interface to help prevent the risk of abrasion
Mitigates PVL and easily fits patient anatomy
Streamlines implant and reduces risk of suture looping

EPIC™ MITRAL STENTED TISSUE VALVE FEATURES

Epic Plus Supra mitral stented tissue valve features

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OPTIMAL LEAFLET DESIGN AND MATCHING
Reduces regurgitation risk
LOW VENTRICULAR PROTRUSION
Avoids LVOT obstruction
FLEXFIT™ POLYMER STENT
- Withstands approximately 8 atm pressure during balloon valvuloplasty procedures¹
- Eases implant
- Accommodates MIS procedures.
UNIQUE PERICARDIAL SHIELD
Provides a tissue-to-tissue interface to help prevent the risk of abrasion
FLEXIBLE CUFF
Mitigates PVL and easily fits patient anatomy
RATCHETING HOLDER
Streamlines implant, reduces risk of suture looping, and offers true one cut holder release

Low Profile Design for Now and Later

Curtaining is a characteristic of bioprosthetic valves in which the leaflets, when opened, stand tall or form a “curtain” between stent posts.^10,* Epic/Epic Plus Mitral leaflets are not prone to curtaining, which can result in less LVOT obstruction.^10,*,†

Leaflet behavior when opened

25 mm Epic Mitral^† valve (left) and Magna Mitral Ease^‡ (right), with representative rods inserted

*Results based on internal testing.
^†The Epic and Epic Plus valves are designed to the same specifications for dimension and tissue behavior.
^‡Indicates a third-party trademark, which is property of its respective owner.

Preserving the LVOT

Anticalcification advantages

Abbott’s unique Linx™ AC technology—to promote anticalcification*—is designed to improve long-term performance and valve durability.
The Linx™ AC treatment has demonstrated resistance to calcification by:

Extracting lipids⁶
Reducing free aldehydes^7,8
Minimizing cholesterol uptake⁹
Stabilizing leaflet collagen⁹

*No clinical data currently available has evaluated the long-term impact of AC tissue treatment in humans.

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Epic™ Mitral stented tissue valve with Linx™ AC technology

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References

Guler N, Ozkara C, Akyol A. Left ventricular outflow tract obstruction after bioprosthetic mitral valve replacement with posterior mitral leaflet preservation. Tex Heart Inst J. 2006;33(3):399-401.
Epic Plus Instructions for Use.
Allen KB, Adnan CK, Cohen DJ, et al. Bioprosthetic valve fracture to facilitate transcatheter valve-in-valve implantation. Ann Thorac Surg. 2017;104:1501-1508.
Edelmann JJ, Khan JM, Rogers T, et al. Valve-in-valve TAVR: state-of-the-art review. Innovations. 2019;14(4):299-310.
Jawad, Khalil, Sven Lehmann, Alex Koziarz, Maja Dieterlen, Stefan Feder, Martin Misfeld, Jens Garbade, Vivek Rao, and Michael Borger. "Midterm results after St Jude Medical Epic porcine xenograft for aortic, mitral, and double valve replacement." Journal of Cardiac Surgery 35, no. 8 (2020): 1769-1777.
Adams DH, Rosenhek R, and Falk V. Degenerative mitral valve regurgitation: best practice revolution. Eur Heart J. 2010;31(16):1958-1967. doi:10.1093/eurheartj/ehq222.
Otto, Catherine M., Rick A. Nishimura, Robert O. Bonow, Blase A. Carabello, John P. Erwin III, Federico Gentile, Hani Jneid et al. "2020 ACC/AHA guideline for the management of patients with valvular heart disease: executive summary: a report of the American College of Cardiology/American Heart Association Joint Committee on Clinical Practice Guidelines." Journal of the American College of Cardiology 77, no. 4 (2021): 450-500.
Nishimura RA, Otto CM, Bonow RO, et al. 2014 AHA/ACC Guideline for the management of patients with valvular heart disease. Circulation. 2014;129(23):2240-2492.
Mick SL, Keshavamurthy S, Gillinov AM. Mitral valve repair vs replacement for the management of valvular heart disease. Eur Heart J. 2017;38:2739-2791.
Tests performed by and data on file at Abbott.
Magna Mitral Ease Instructions for Use.
Medtronic Mosaic Bioprosthesis Aortic and Mitral Brochure. #UC200103933b EN.
Vyavahare, N, Hirsch, D, Lerner, E, et al. Prevention of bioprosthetic heart valve calcification by ethanol preincubation. Circulation. 1997:95;479-488. doi.org/10.1161/01.CIR.95.2.479.
Kelly SJ, Ogle MF, Carlyle WC, et al. Biocompatibility and calcification of bioprosthetic heart valves. Presented at: Society for Biomaterials, Sixth World Biomaterials Congress Transaction. May 2000:1353.
Frater RWM, Seifter E, Liao K, et al. Chapter 8. In: Gabbay, S, Wheatley DJ, eds. Advances in Anticalcific and Antidegenerative Treatment of Heart Valve Bioprostheses. 1st ed. Silent Partners, Inc; 1997:105-113.
Vyavahare NR, Hirsch D, Lerner E, et al. Prevention of calcification of glutaraldehyde-crosslinked porcine aortic cusps by ethanol preincubation: mechanistic studies of protein structure and water-biomaterial relationships. J Biomed Mater Res. 1998;40:577-585. doi.org/10.1177/1556984519858020.

EPIC™ SUPRA AORTIC STENTED TISSUE VALVE FEATURES

SILICONE-FILLED CUFF

FLEXFIT™ POLYMER STENT

UNIQUE PERICARDIAL SHIELD

FLEXIBLE CUFF

LOW STENT POST HEIGHT