Apparatus and method for advancing catheters or other medical devices through a lumen

The invention claimed is: 1. A method for intravascular treatment using a transporter catheter in an intravascular treatment system, comprising: a) assembling the intravascular treatment system comprising the transporter catheter and an outer catheter, the transporter catheter comprising a shaft having at least one internal channel for a guidewire, the outer catheter comprising a lumen, a proximal region and a distal region; b) anchoring the transporter catheter inside the lumen of the outer catheter, the anchoring of the transporter catheter being performed at least in the distal region of the outer catheter; c) extending the guidewire along the at least one internal channel of the transporter catheter with a proximal end of the guidewire extending beyond a proximal end of the of the transporter catheter and a distal end of the guidewire extending beyond a distal end of the transporter catheter; d) advancing the distal end of the guidewire towards a desired location proximal to a treatment site in a vessel of interest; e) inflating an orienting balloon formed on the transporter catheter proximal to the distal end of the transporter; f) pushing and torqueing the transporter catheter to advance the outer catheter, wherein the pushing and torqueing of the transporter catheter results in the orienting balloon slidably engaging a vasculature of a patient and the pulling of the outer catheter such that the other catheter slidably engages the vasculature of the patient; g) reducing a possibility of kinking of the outer catheter by applying a pull force on the outer catheter in the distal region of the outer catheter; and h) advancing the intravascular treatment system to the desired location proximal to the treatment site in the vessel of interest. 2. The method of claim 1 , wherein the intravascular treatment system is steerable using a steering mechanism, said steering mechanism formed on the transporter catheter and/or the outer catheter. 3. The method of claim 1 , wherein the transporter catheter has at least one radiopaque marker on at least a distal region of the transporter catheter. 4. The method of claim 1 , wherein the anchoring the transporter catheter comprises inflating at least one anchoring balloon formed on the shaft of the transporter catheter. 5. The method of claim 4 , wherein the transporter catheter comprises a proximal region and a distal region, and the at least one anchoring balloon is located on the distal region of the transporter catheter, and upon inflation the at least one anchoring balloon anchors to the outer catheter by pressing against an inner surface of the lumen of the outer catheter in the distal region of the outer catheter. 6. The method of claim 4 , wherein at least a first part of the orienting balloon upon inflation protruding outside a distal end of the outer catheter. 7. The method of claim 6 , further comprising advancing a prosthetic heart valve, said prosthetic heart valve positioned in the intravascular treatment system at a location selected from a group of locations including (a) a second part of the orienting balloon that is located inside the outer catheter, and (b) a third balloon formed on the shaft between the orienting balloon and the at least one anchoring balloon. 8. The method of claim 7 , further comprising advancing the prosthetic heart valve proximal to a native diseased valve, disengaging the transporter catheter from the outer catheter by deflating the anchoring balloon, and advancing the transporter catheter distally relative to the outer catheter to position the prosthetic valve proximal to the treatment site. 9. The method of claim 7 , wherein the prosthetic heart valve is expandable. 10. The method of claim 9 , wherein the prosthetic heart valve is crimped. 11. A method for intravascular treatment using a transporter catheter in an intravascular treatment system, comprising: a) assembling the intravascular treatment system comprising the transporter catheter and an outer catheter, the transporter catheter comprising a shaft having at least one internal channel for a guidewire, the outer catheter comprising a lumen, a proximal region and a distal region; b) anchoring the transporter catheter inside the lumen of the outer catheter, the anchoring of the transporter catheter being performed at least in the distal region of the outer catheter; c) extending the guidewire along the at least one internal channel of the transporter catheter with a proximal end of the guidewire extending beyond a proximal end of the of the transporter catheter and a distal end of the guidewire extending beyond a distal end of the transporter catheter; d) advancing the distal end of the guidewire towards a desired location proximal to a treatment site in a vessel of interest; e) pushing and torqueing the transporter catheter to advance the outer catheter through a patient's vasculature, wherein the pushing and torqueing of the transporter catheter results in applying a pull force on the outer catheter, and a component of the pull force pulling a wall of the outer catheter away from a wall of the patient's vasculature; f) advancing the intravascular treatment system to the desired location in the vessel of interest proximal to the treatment site. 12. The method of claim 11 , wherein the intravascular treatment system is steerable using a steering mechanism, said steering mechanism formed on the transporter catheter and/or the outer catheter. 13. The method of claim 11 , wherein the transporter catheter has at least one radiopaque marker on at least a distal region of the transporter catheter. 14. The method of claim 11 , wherein the anchoring the transporter catheter comprises inflating at least one anchoring balloon formed on the shaft of the transporter catheter. 15. The method of claim 14 , wherein the transporter catheter comprises a proximal region and a distal region, and the at least one anchoring balloon is located on the distal region of the transporter catheter, and upon inflation the at least one anchoring balloon anchors to the outer catheter by pressing against an inner surface of the lumen of the outer catheter in the distal region of the outer catheter. 16. The method of claim 14 , further comprising: inflating an orienting balloon formed on the transporter catheter near the distal end of the transporter catheter, at least a first part of the orienting balloon upon inflation protruding outside a distal end of the outer catheter. 17. The method of claim 16 , further comprising advancing a prosthetic heart valve, said prosthetic heart valve positioned in the intravascular treatment system at a location selected from a group of locations including (a) a second part of the orienting balloon that is located inside the outer catheter, and (b) a third balloon formed on the shaft between the orienting balloon and the at least one anchoring balloon. 18. The method of claim 17 , further comprising advancing the prosthetic heart valve proximal to a native diseased valve, disengaging the transporter catheter from the outer catheter by deflating the anchoring balloon, and advancing the transporter catheter distally relative to the outer catheter to position the prosthetic valve proximal to the treatment site. 19. The method of claim 17 , wherein the prosthetic heart valve is expandable. 20. The method of claim 19 , wherein the prosthetic heart valve is crimped.