Surgical frame facilitating articulatable support for a patient during surgery and method for use thereof

We claim: 1 . A method for manipulating a patient by a surgical frame supporting the patient, the method comprising: supporting a first portion of a single main beam of the surgical frame at a first main-beam end by a first support structure provided at a first end of the surgical frame; supporting a second portion of the single main beam of the surgical frame at a second main-beam end by a second support structure provided at a second end of the surgical frame; supporting a third portion of the single main beam between the first portion and the second portion, the third portion including a first side; spacing the single main beam from the ground via support of the single main beam between the first support structure and the second support structure; supporting a portion of a chest of the patient on the single main beam by supporting the portion of the chest on a torso support attached to the first side portion of the single main beam; supporting a portion of legs of the patient on the single main beam by supporting the portion of the legs on a pelvic support attached to the first side of the single main beam; and rotating the patient supported by rotating the single main beam about an axis of rotation extending through portions of the first portion of the single main beam, the second portion of the single main beam, the first support structure, and the second support structure; wherein the first portion of the single main beam extends at least in part in a first direction transverse to the axis of rotation, the second portion of the single main beam extends at least in part in a second direction transverse to the axis of rotation, and the third portion of the single main beam is offset from the axis of rotation of the single main beam by the first portion and the second portion of the single main beam; wherein a first relational plane extends perpendicular to the axis of rotation and between the torso support and the pelvic support, and a second relational plane is parallel to the axis of rotation and perpendicular to the first relational plane, the second relational plane extending along portions of the single main beam and being proximate the first side of the third portion lying within the first relational plane, the second relational plane being on a first side of a cranial-caudal axis of the patient by the torso support and the pelvic support; and wherein no portion of the positioning frame being used to support the patient that is rotatable about the axis of rotation and located within the first relational plane being on a second side of the cranial-caudal axis of the patient opposite the first side. 2 . The method of claim 1 , wherein the torso support includes a chest support being configured to support the chest of the patient, and the chest support is pivotally moveable with respect to the single main beam; and further comprising pivoting the chest support to move the chest of the patient between a first unlifted position and a second lifted position. 3 . The method of claim 2 , further comprising a head support and arm supports connected to the chest support, the head support and the arm supports being configured to support a head and arms of the patient during pivotal movement of the chest support. 4 . The method of claim 1 , wherein the pelvic support includes a thigh cradle and a lower leg cradle, the thigh cradle is configured to support thighs of the patient, the lower leg cradle is configured to support lower legs of the patient, and the thigh cradle and the lower leg cradle are pivotal with respect to one another to facilitate adjustment of hips of the patient; and further comprising pivoting one of the lower leg cradle and the upper leg cradle to move the hips between a first adjusted position and a second adjusted position. 5 . The method of claim 4 , wherein the pelvic support is configured to manipulate the patient to open at least one space between adjacent vertebral bodies of the patient to facilitate placement of an interbody device in the at least one space. 6 . The method of claim 1 , further comprising at least one actuator for articulating at least one of the single main beam, the torso support, and the pelvic support. 7 . The method of claim 1 , wherein the third portion of the single main beam includes a portion substantially parallel to the axis of rotation of the single main beam. 8 . The method of claim 1 , wherein, during rotation of the single main beam, the single main beam is configured to support the patient in a prone position in a first rotational position thereof, and is configured to support the patient in a lateral position in a second rotational position thereof. 9 . A method for manipulating a patient by a surgical frame supporting the patient, the method comprising: supporting a first portion of a single main beam of the surgical frame at a first main-beam end by a first support structure provided at a first end of the surgical frame; supporting a second portion of the single main beam of the surgical frame at a second main-beam end by a second support structure provided at a second end of the surgical frame; supporting a third portion of the single main beam between the first portion and the second portion, the third portion including a first side; spacing the single main beam from the ground via support of the single main beam between the first support structure and the second support structure; supporting a portion of a chest of the patient on the single main beam by supporting the portion of the chest on a torso support attached to the first side portion of the single main beam; supporting a portion of legs of the patient on the single main beam by supporting the portion of the legs on a pelvic support attached to the first side of the single main beam; and rotating the patient supported by rotating the single main beam about an axis of rotation between at least a first rotational position of the single main beam with the patient in a prone position, and a second rotational position of the single main with the patient in a lateral position, the axis of rotational extending through portions of the first portion of the single main beam, the second portion of the single main beam, the first support structure, and the second support structure; wherein the third portion of the single main beam is offset from the axis of rotation of the single main beam by the first portion and the second portion of the single main beam; wherein a first relational plane extends perpendicular to the axis of rotation and between the torso support and the pelvic support, and a second relational plane is parallel to the axis of rotation and perpendicular to the first relational plane, the second relational plane extending along portions of the single main beam and being proximate the first side of the third portion lying within the first relational plane, the second relational plane being on a first side of a cranial-caudal axis of the patient by the torso support and the pelvic support; and wherein no portion of the positioning frame being used to support the patient that is rotatable about the axis of rotation and located within the first relational plane being on a second side of the cranial-caudal axis of the patient opposite the first side. 10 . The method of claim 9 , wherein the torso support includes a chest support being configured to support the chest of the patient, and the chest support is pivotally moveable with respect to the single main beam; and further comprising pivoting the chest support to move the chest of the patient between a first unlifted position and a second lifted position. 11 . The method of claim 10 , fur