Tissue valves and conduits

Hancock™ II bioprosthesis

Tissue valves and conduits

Hancock™ II bioprosthesis

The Hancock^TM II bioprostheses are for patients who require replacement of their native or prosthetic aortic and/or mitral valves.

Ordering information

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Indications, Safety, and Warnings

Description

The Hancock™ II valve has stood the test of time. First introduced in the 1980s, it has been tested and studied, and earned the trust of cardiac surgeons around the world. After dozens of years of clinical experience and improvements along the way, Hancock II has demonstrated strong performance and durability in both aortic and mitral valve patients.^1,2

Product details

More than 40 years of delivering consistent performance and results

With Hancock™ II, you can feel confident procedure after procedure.

A large, prospective study enrolling 1,134 SAVR patients (mean age of 67) from 1982 to 2004 showed:^†,1
- Freedom from reoperation due to structural valve deterioration (SVD) in the full cohort at 20 years was 68.2%
- Freedom from SVD at 20 years in patients over the age of 65 was 97.8%
- The authors conclude: “Hancock™ II bioprosthesis is a very durable valve in patients 60 years and older and is probably the gold standard of bioprosthetic valve durability in this patient population.”
A 3-center study including 484 mitral valve replacement patients (mean age 65.8) from 1983 to 2002 with Hancock™ II showed:²
- 71% Freedom from reoperation at 15 years
- Freedom from SVD in patients 60 years and older was 88% at 15 years
- The authors conclude: “Optimal 15-year durability can be expected... in male patients 65 years and older who have undergone mitral valve replacement.”²

Durability

Published clinical experience demonstrates impressive long-term performance in many SAVR age groups for both the aortic and mitral valve.^1–3 Additional factors that may contribute to durability are:

T6 (sodium dodecyl sulfate) anti-calcification treatment applied to reduce the absorption of calcium in the leaflets^4–6
Two-step, low-pressure fixation process

Ease of implant

Our innovative Cinch™ implant system further capitalizes on the valve’s flexible stent to facilitate valve implantation, particularly through a tight sinotubular space. It also:

Improves overall visualization
Has stent posts that deflect to allow for easier knot tying near the posts in aortic replacements
Helps prevent suture looping
Facilitates minimally invasive procedures
Protects tissue from inadvertent damage

The innovative Cinch™ implant system further capitalized on the Hancock™ II valve's flexible stent to facilitate valve implantation.

Improved flow

The Hancock™ II valve is designed to allow the maximum amount of blood to flow through it.⁷

The sewing ring is mounted flush with the inflow edge of the scalloped stent allowing the bioprosthesis to be positioned completely superior to the annulus.
The internal diameter of the valve aligns with the patient’s annulus allowing for a larger available flow area.
The valve design allows blood to flow through the annulus — encountering only tissue, not obstructive components such as the stent and sewing ring.

See how the Hancock™ II valve is designed to allow the maximum amount of blood to flow through it.

Suitable for future interventions

Valve dimensions and geometry enable future valve-in-valve (ViV) replacements.

Radiopaque annulus ring and stent post markers provide visible, distinct guidelines during ViV procedures.
Enabled MR Conditional, with nonmetallic frame that mitigates risk of corrosion between SAV and TAV stent materials.
Interior-mounted leaflets mitigate potential risk of coronary obstruction.⁸

Adverse events potentially associated with the use of bioprosthetic heart valves include: allergic reaction, angina, aortic tissue damage, cardiac dysrhythmias, embolism, endocarditis, heart failure, hemolysis, hemolytic anemia, hemorrhage, anticoag/antiplatelet related; inflammatory reaction; infection other than endocarditis; leak, transvalvular or paravalvular; mitral tissue damage; MI; NSVD; pleural effusion; prosthesis regurg; prosthesis stenosis; stroke; SVD; tamponade; valve thrombosis.

Ordering information

Hancock™ II aortic valve, Model T505

Item number	Valve size (stent OD^‡) (± 0.5 mm)	Orifice diameter (stent ID) (± 0.5 mm)	Suture ring diameter (± 1 mm)	Valve height (± 0.5 mm)	Aortic protrusion (± 0.5 mm)
	(A)	(B)	(C)	(D)	(E)
T505C221	21	18.5	27.0	15.0	12.0
T505C223	23	20.5	30.0	16.0	13.5
T505C225	25	22.5	33.0	17.5	15.0
T505C227	27	24.0	36.0	18.5	15.5
T505C229	29	26.0	39.0	20.0	16.0

‡ Equivalent to annulus diameter.

Hancock™ II mitral valve, Model T510

Item number	Valve size (stent OD^‡) (± 0.5 mm)	Orifice diameter (stent ID) (± 0.5 mm)	Suture ring diameter (± 1 mm)	Valve height (± 0.5 mm)	Aortic protrusion (± 0.5 mm)
	(A)	(B)	(C)	(D)	(E)
T510C25	25	22.5	33.0	18.0	13.5
T510C27	27	24.0	35.0	19.0	14.0
T510C29	29	26.0	38.0	20.5	15.5
T510C31	31	28.0	41.0	22.0	17.0
T510C33	33	30.0	43.0	23.0	17.5

‡ Equivalent to annulus diameter.

Hancock II Ultra™ aortic valve, Model T505

Item number	Valve size (stent OD^‡) (± 0.5 mm)	Orifice diameter (stent ID) (± 0.5 mm)	Suture ring diameter (± 1 mm)	Valve height (± 0.5 mm)	Aortic protrusion (± 0.5 mm)
	(A)	(B)	(C)	(D)	(E)
T505U221	21	18.5	26.0	15.0	12.0
T505U223	23	20.5	28.0	16.0	13.5
T505U225	25	22.5	30.0	17.5	15.0
T505U227	27	24.0	32.0	18.5	15.5
T505U229	29	26.0	34.0	20.0	16.0

‡ Equivalent to annulus diameter.