Medical support arm apparatus

The invention claimed is: 1. A medical support arm apparatus, comprising: an arm unit having a plurality of joint units, each joint unit being provided with a torque sensor detecting a value of torque acting on each joint; a retractor configured to hold an organ of a patient during surgery, the retractor being located on a distal end of the arm unit and being provided with a force sensor at contacting point to the organ; and circuitry including a non-transitory computer readable storage, the non-transitory storage device including computer readable instructions that when executed by a processor cause the processor to: drive at least one of the plurality of joint units of the arm unit by force control; determine a value of force acting on the retractor based on a value of force imparted at the contacting point to the organ as detected by the force sensor of the retractor in addition to the value of torque corresponding to at least one of the plurality of joint units; control the arm unit so that the determined value of force that acts on the retractor by the organ does not exceed a predetermined threshold so as to prevent the organ from being subjected to excessive force by the retractor; and determine an additional value of force acting on the retractor with respect to a weight of the organ, and to control the arm unit so as to cancel the additional value of force acting on the retractor. 2. The medical support arm apparatus according to claim 1 , wherein the circuitry is configured to further determine a slippage of the organ with respect to the retractor based on at least one of the value of torque corresponding to the plurality of joint units or the value of force detected by the force sensor of the retractor. 3. The medical support arm apparatus according to claim 2 , wherein in a case in which the slippage of the organ with respect to the retractor is determined, the circuitry is configured to output a warning to a user. 4. The medical support arm apparatus according to claim 1 , wherein the circuitry is configured to control the arm unit so as to support a movement of the arm unit in a direction of a force instructed from outside in accordance with an operation performed by a user. 5. The medical support arm apparatus according to claim 1 , wherein during abdominal surgery, the retractor is configured to hold a body wall opened at an abdominal incision so as to spread the body wall outward and secure an opening at the abdominal incision. 6. The medical support arm apparatus according to claim 1 , wherein during abdominal surgery, the retractor is configured to be inserted into a body cavity of the patient from an abdominal incision, and is configured to hold the organ inside the body cavity. 7. The medical support arm apparatus according to claim 1 , wherein during endoscopic surgery, the retractor is configured to be inserted into a body cavity from an insertion opening made in a body wall of the patient, and is configured to hold the organ inside the body cavity. 8. The medical support arm apparatus according to claim 1 , wherein the force sensor is a pressure sensor detecting contact pressure to the organ against the force sensor. 9. The medical support arm apparatus according to claim 1 , wherein the force sensor is a strain sensor detecting stress corresponding to an amount of deformation of the retractor. 10. The medical support arm apparatus according to claim 2 , wherein in a case in which the slippage of the organ with respect to the retractor is determined, the circuitry is configured to control the arm unit so as to keep holding the organ. 11. The medical support arm apparatus according to claim 10 , wherein in a case in which the slippage of the organ with respect to the retractor is determined, the circuitry is configured to control the arm unit so that the arm unit is configured to press the organ against another organ by the retractor.