Prosthetic tissue valves and methods for anchoring same to cardiovascular structures

What is claimed is: 1. A prosthetic atrioventricular tissue valve, comprising: a biodegradable and remodelable tubular member comprising an extracellular matrix (ECM) composition, said ECM composition comprising acellular ECM from a mammalian tissue source selected from the group consisting of small intestine submucosa (SIS), urinary bladder submucosa (UBS), stomach submucosa (SS), mesothelial tissue and cardiac tissue, said tubular member comprising a lumen that extends through said tubular member, a proximal region, a distal end, an outer surface and an inner surface, said inner surface defining said lumen, said tubular member further including integral first and second elongated members that extend from said distal end of said tubular member, said first elongated member comprising a first single continuous looped structure comprising first and second tapered legs that extend to and intersect at a common first end and form a first angle at said first end in the range of 15° to 25°, wherein said first continuous looped structure comprises a tapered shape, said first end being configured to engage a first papillary muscle, said second elongated member comprising a second single continuous looped structure comprising third and fourth tapered legs that extend to and intersect at a common second end and form a second angle at said second end in the range of 15° to 25°, wherein said second continuous looped structure comprises a tapered shape, said second end being configured to engage a second papillary muscle, said first and second elongated members being configured to induce stress-induced hypertrophy of said tubular member when said proximal region of said tubular member is engaged to an annular valve region, said first and second elongated members are engaged to said first and second papillary muscles and said tubular member is subjected to cardiac cycle induced physical stimuli, said stress-induced hypertrophy of said tubular member comprising adaptive remodeling of said tubular member, wherein functioning valve leaflets that are similar to native valve leaflets are formed from a commissure-promoting region.