Rotate-to-advance catheterization system

1. A method for visualizing the interior of a bodily passageway at a remote location, the method comprising the steps of:

• providing a visualization system for deployment in the bodily passageway, the visualization system comprising;
  
  a tube having a distal portion and a proximal portion, the tube sized to receive visualization apparatus disposed within the lumen of the tube, the tube being configured to form upraised portions on an exterior surface of the tube, wherein the upraised portions are disposed from the distal portion of the tube to the proximal portion of the tube;
  
  an outer jacket having at least one passageway configured to extend through the outer jacket, the outer jacket disposed along the external surface of the tube, wherein the outer jacket is configured to extend from a distal portion of the tube to a proximal portion of the tube;
  
  visualization apparatus disposed within the lumen of the tube;
  
  a deformable helical thread disposed on a distal portion of the outer jacket, the deformable helical thread being transformable between a first configuration wherein the deformable helical thread comprises a reduced profile and/or a reduced rigidity, and a second configuration wherein the deformable helical thread comprises an expanded profile and/or increased rigidity, the deformable helical thread, when in its second configuration, having a sufficient structural integrity, and a sufficient surface profile, such that when the tube is disposed in the bodily passageway so that the deformable helical thread engages the interior side wall of the bodily passageway, rotation of the tube will induce a relative movement between the tube and the side wall of the bodily passageway, wherein the at least one passageway permits a fluid to pass from the upraised portions of the tube to an interior of the helical thread;
  
  a fluid line having a distal end and a proximal end, the distal end of the fluid line being configured to connect with the proximal portion of the outer jacket, wherein the fluid line is configured to permit fluid to pass through the fluid line; and
  
  a thread varying element configured to receive the proximal end of the fluid line, the thread varying element further configured to dynamically vary at least one of the height of the deformable helical thread and the rigidity of the deformable helical thread;
  
  inserting the visualization system into the bodily passageway at a location remote from the site which is to be visualized, with the deformable helical thread being in its second configuration while the thread varying element automatically adjusts at least one of the height of the deformable helical thread and the rigidity of the deformable helical thread;
  
  rotating the tube so as to induce relative movement between the bodily passageway and the tube while the thread varying element maintains the pressure of the fluid in the deformable helical thread at a constant level in accordance with the amount of force encountered by the deformable helical thread, whereby to move the visualization apparatus and the site which is to be visualized closer together; and
  
  using the visualization apparatus to visualize the interior of the bodily passageway.