Surgical instruments, systems and methods of use

That which is claimed is: 1. A surgical instrument comprising: a mount body having a top portion, a distal end, a proximal end and a bottom portion wherein the bottom portion comprises a mounting mechanism configured to reversibly clamp the surgical instrument to a retractor system; an actuator mounted to the mount body at a proximal end region of the mount body; a joint member pivotally mounted at a distal end portion of the mount body to allow positioning of a proximal portion of an arm extending distally from the joint member from a left distal region of the mount body to a right distal region of the mount body and vice versa without causing movement of the actuator, the joint member configured to at least partially constrain movement of the proximal portion of the arm to a plane, wherein a proximal link of the arm immediately adjacent to the joint member is pivotable to a substantially perpendicular position with respect to the mount body; and a working end mounted to a distal end portion of the arm, wherein the actuator is rotatably mounted to the mount body at the proximal end of the mount body, wherein the actuator is configured to change a state of the arm from a flexible state to a rigid state by rotation of the actuator in a first rotational direction, and from the rigid state to the flexible state by rotation of the actuator in a counter-rotational direction. 2. The instrument of claim 1 , wherein the joint member comprises a disk member that is received within a cavity of the mount body, and a slotted ball connected to the disk member. 3. The instrument of claim 2 , wherein the slotted ball forms a joint with the proximal portion of the arm. 4. The instrument of claim 2 , wherein upper and lower surfaces of the disk member are substantially parallel with the top portion of the mount body, and wherein the proximal portion of the arm is attached to the slotted ball and capable of pivoting to a position substantially perpendicular to the upper and lower surfaces of the disk member. 5. The instrument of claim 1 , further comprising a vacuum tube in fluid communication with the working end, and the working end is configured to reversibly attach to the exterior surface of a human's heart. 6. The instrument of claim 1 , further comprising a suction tube in fluid communication with the working end, and a clip configured to receive and temporarily hold the suction tube to maintain the suction tube in a low profile with the instrument, wherein the clip is formed with or connected to the mount body, the actuator, or both the mount body and the actuator. 7. The instrument of claim 1 , wherein the instrument is an organ stabilizer and the working end comprises at least one contact member configured to be exerted against a tissue surface to stabilize the tissue surface. 8. The instrument of claim 1 , wherein the instrument is an organ positioner and the working end comprises a suction member defining a vacuum space therein, wherein the suction member is configured to receive the apex of a human heart. 9. The instrument of claim 1 , wherein the arm comprises an intermediate link disposed between a distal portion of the arm and a proximal portion of the arm, the intermediate link is capable of adjusting one of the distal and proximal portions of the arm to assume a flexible configuration in a first configuration, and to assume a rigid configuration in a second configuration, while allowing a portion of the arm proximal of the intermediate link to remain flexible during both the first configuration and the second configuration, and wherein the actuator is capable of adjusting the proximal portion or distal portion of the arm that is not capable of being adjusted by the intermediate link. 10. The instrument of claim 1 , wherein a portion of the joint member constrains movement of the proximal portion of the arm to a single plane when the joint member is movably mounted to the mount body. 11. The instrument of claim 1 , wherein the substantially perpendicular position is a position in which the proximal link is at an angle of about 80 degrees to about 90 degrees to the mount body. 12. The instrument of claim 1 , wherein the top portion of the mount body extending from a central body portion to a distal end portion is smooth and comprises a flat portion with no obstructions thereon. 13. A surgical instrument comprising: a flexible arm comprising a distal end, a proximal end, and a plurality of joint members located therebetween whereby at least a portion of adjoining joint members can form articulating joints; a working end configured to engage a surface of a human's heart, wherein the working end is connected to the distal end of the flexible arm; a mount body having a central body portion, a distal end portion located distal to the central body portion, and a proximal portion located proximal to the central body portion; and a mount body joint operatively associated with the mount body to constrain movement of the mount body joint to a single plane, wherein the mount body joint comprises a first joint and a second joint, and wherein the first joint is moveable about an axis that is different from an axis of movement of the second joint, and the first joint is disposed within the mount body at the distal end portion of the mount body, and the second joint is in proximity to the first joint and at a constant distance with respect thereto, and wherein the proximal end of the flexible arm is connected to the mount body through the mount body joint. 14. The instrument of claim 13 , wherein the actuator is rotatably mounted to the mount body at the proximal end of the mount body, the actuator being configured to change a state of the arm from a flexible state to a rigid state by rotation of the actuator in a first rotational direction, and from the rigid state to the flexible state by rotation of the actuator in a counter-rotational direction. 15. The surgical instrument of claim 13 , wherein the minimum mount body angle is substantially perpendicular, and wherein a top surface of the mount body along the central body portion is smooth and flat with no obstructions thereon. 16. The surgical instrument of claim 13 , wherein the first joint is configured for controlled planar translation or pivoting along a first plane, and the second joint is configured for controlled movement along a second plane that is substantially perpendicular to the first plane. 17. The instrument of claim 13 , wherein the mount body joint forms a mount body angle between the proximal end of the flexible arm and a lower surface of the mount body, wherein a minimum mount body angle is at most 120 degrees, wherein a reference angle is defined as 180 degrees between any two unstressed articulating joint members. 18. The instrument of claim 13 , wherein the first joint is a swivel joint having a sweep of about 150°. 19. The instrument of claim 13 , wherein a portion of the first joint in contact with the second joint is positionable so as to be flush with respect to a distal portion of the mount body. 20. A surgical instrument comprising: a flexible arm comprising a distal end, a proximal end, and a plurality of articulating links located therebetween whereby at least a portion of adjoining articulating links form articulating joints, the articulating joints capable of establishing a plurality of arm joint angles each having a minimum achievable angle value, the angle being defined as 180 degrees between any two unstressed articulating joints, wherein the plurality of a