Lenses and lighting devices including same

What is claimed is: 1. A lens, comprising: a body comprising a light source facing side and a room facing side, the room facing side being substantially opposite the light source facing side and comprising a first optically active region and a second optically active region formed therein, wherein: the first optically active region comprises first optically active structures configured to redirect, via refraction, a portion of light received through the light source facing side and incident thereon; the second optically active region comprises second optically active structures configured to redirect, in part via total internal reflection, a portion of light received through the light source facing side and incident thereon; and the lens produces a light output having an off-axis light distribution; and wherein the body comprises a top, a bottom, a first side, and a second side; the first optically active region is positioned in the room facing side such that at least a first side of the first optically active region is offset from the top; and the second optically active region is positioned in the room facing side at a location proximate the first optically active region such that at least one edge of the second optically active region is located proximate a second edge of the first optically active region that is substantially opposite the first side of the first optically active region; and wherein the lens further comprises an optically inactive region between the first optically active region and the top. 2. The lens of claim 1 , wherein the first optically active structures redirect, via refraction, a portion of the light incident thereon towards the top of the body at an output angle θ 1 relative to a horizontal plane of the body; wherein the second optically active structures redirect, in part via total internal reflection, a portion of the light incident thereon towards the top of the body at an output angle θ 2 relative to the horizontal plane of the body; and wherein the output angle θ 2 is less than the output angle θ 1 . 3. The lens of claim 1 , wherein the first optically active structures comprise first teeth, each of the first teeth comprising a first surface and a second surface, wherein the first surface of each of the first teeth is oriented toward the body in a first direction at an angle A 1 , and the second surface of each of the first teeth is oriented toward the body in a second direction at an angle Q 1 , the second direction being substantially opposite the first direction. 4. The lens of claim 3 , wherein the second optically active structures comprise second teeth, the second teeth comprising first and second surfaces, wherein the first surface of each of the second teeth is oriented toward the body in the first direction and at an angle A 2 , and the second surface of each of the second teeth is oriented toward the body in the second direction and at an angle Q 2 , wherein the angle A 1 differs from the angle A 2 and the angle Q 1 differs from the angle Q 2 . 5. The lens of claim 1 , wherein the top comprises a coupling member configured to be reversibly engaged with a receiving member of a lighting device. 6. The lens of claim 1 , wherein the room facing side further comprises a third optically active region formed therein, the third optically active region comprising third optically active structures configured to redirect, in part via total internal reflection, at least a portion of light incident thereon and received through the light source facing side. 7. The lens of claim 6 , wherein: the first optically active structures redirect, via refraction, a portion of the light incident thereon towards the top of the body at an output angle θ 1 relative to a horizontal plane of the body; the second optically active structures redirect, in part via total internal reflection, a portion of the light incident thereon towards the top of the body at an output angle θ 2 relative to the horizontal plane; the third optically active structures redirect, in part via total internal reflection, a portion of the light incident thereon towards the top of the body at an output angle θ 3 relative to the horizontal plane; and the output angle θ 3 is less than the output angle θ 2 , and the output angle θ 2 is less than the output angle θ 1 . 8. The lens of claim 6 , wherein: the first optically active structures comprise first teeth, each of the first teeth comprising a first surface and a second surface, wherein the first surface of each of the first teeth is oriented toward the body in a first direction at an angle A 1 and the second surface of each of the first teeth is oriented toward the body in a second direction at an angle Q 1 , the second direction being substantially opposite the first direction; the second optically active structures comprise second teeth, each of the second teeth comprising first and second surfaces, wherein the first surface of each of the second teeth is oriented toward the body in the first direction and at an angle A 2 , and the second surface of each of the second teeth is oriented toward the body in the second direction and at an angle Q 2 , wherein the angle A 1 differs from the angle A 2 and the angle Q 1 differs from the angle Q 2 ; and the third optically active structures comprise third teeth. 9. The lens of claim 8 , wherein the third teeth comprise multi-angle teeth. 10. The lens of claim 9 , wherein each of the multi-angle teeth comprise a plurality of first surfaces and at least one second surface, wherein the plurality of first surfaces are oriented toward the body in the first direction and are configured to redirect, in part via total internal reflection, a portion of the light received through the light source facing side and incident thereon, and wherein the at least one second surface is oriented toward the body in the second direction. 11. A lighting device, comprising: a housing comprising a base and an aperture; a light source installed in the housing and configured to emit light toward the aperture; and a lens configured to be installed within the housing, the lens comprising a body comprising a light source facing side and a room facing side, the room facing side being substantially opposite the light source facing side and comprising a first optically active region and a second optically active region formed therein, wherein: the light source facing side is oriented toward the light source; the first optically active region comprises first optically active structures configured to redirect, via refraction, a portion of the light emitted by the light source that is received through the light source facing side and is incident on the first optically active region; the second optically active region comprises second optically active structures configured to redirect, in part via total internal reflection, a portion of the light emitted by the light source that is received through the light source facing side and is incident on the second optically active region; and the lighting device produces a light output with a light distribution that is off-axis with respect to an axis of the aperture; and the body of the lens comprises a top, a bottom, a first side, and a second side; the first optically active region is positioned in the room facing side such that at least a first side of the first optically active region is offset from the top; and the second optically active region is positioned in the room facing side at a location proximate the first optically active region, such that at least one edge of the second optically active region is located proximate a second edge of the first optically active