Methods and apparatus for an adjustable stiffness catheter

What is claimed is: 1. A catheter apparatus comprising: a tubular body having a distal end, a proximal end, and a lumen defined therein, the tubular body having a first state, wherein the tubular body has a first value of a stiffness metric, and a second state, wherein the tubular body has a second value of the stiffness metric that is greater than the first value, the tubular body including: at least two fluid impermeable layers defining a pressure-responsive chamber, and an interstitial structure provided within the pressure-responsive chamber and comprising a plurality of layers including a first cylindrical layer of wrapped tape and a second cylindrical layer of wrapped tape coaxial with the first cylindrical layer of wrapped tape, the first and second cylindrical layers extending along an entire length of the pressure-responsive chamber, the pressure responsive chamber configured to increase radial compression of the plurality of layers in response to negative internal pressure in the pressure-responsive chamber and to decrease radial compression of the plurality of layers in response to non-negative internal pressure in the pressure-responsive chamber, the decrease in radial compression corresponding to a decrease in friction between the plurality of layers along of the interstitial structure and a decrease in the stiffness metric and the increase in radial compression of the plurality of layers of the interstitial structure corresponding to an increase in friction between the plurality of layers of the interstitial structure and an increase in the stiffness metric; and a controller operatively coupled to the tubular body and configured to cause a change in the internal pressure within the pressure-responsive chamber to actuate the tubular body between the first state and second state. 2. The catheter apparatus of claim 1 , wherein the plurality of layers of the interstitial structure are configured to be substantially slideable with respect to each other during the first state, and be substantially non-slideable with respect to each other during the second state. 3. The catheter apparatus of claim 2 , wherein the plurality of layers of the interstitial structure each define a substantially cylindrical, helically-wrapped layer. 4. The catheter apparatus of claim 1 , wherein the first layer of wrapped tape is a helically-wrapped ePTFE tape layer and the second layer of wrapped tape is a helically-wrapped ePTFE layer. 5. A catheter apparatus comprising: a tubular body having a distal end, a proximal end, and a lumen defined therein, the tubular body including at least two fluid impermeable layers defining a pressure-responsive chamber and an interstitial structure provided within the pressure-responsive chamber, the interstitial structure comprising a first layer of wrapped tape and a second layer of wrapped tape, the first and second layers of wrapped tape extending along an entire length of the pressure-response chamber; and activation means for selectably causing the tubular body to enter a first state and a second state; wherein, in the first state, the tubular body has a first value of a stiffness metric that is equal to or less than a predetermined navigatibility threshold; wherein, in the second state, the tubular body has a second value of the stiffness metric that is greater than the first value and that is greater than or equal to a predetermined rigidity threshold value; and wherein the activation means includes a controller communicatively coupled to the tubular body and adapted to place the tubular body in the second state by subjecting at least a portion of the tubular body to an increase in radial compression by causing negative pressure within the pressure-responsive chamber thereby causing the collapse of the pressure-responsive chamber. 6. The catheter apparatus of claim 5 , wherein the interstitial structure is adapted to exhibit radial compression in response to a change in internal pressure within the pressure responsive chamber caused by the controller. 7. The catheter apparatus of claim 6 , wherein the interstitial structure includes a layered structure having a plurality of layers configured to be substantially slideable with respect to each other during the first state, and be substantially nonslideable with respect to each other during the second state. 8. The catheter apparatus of claim 5 , wherein the pressure-responsive chamber is placed under negative pressure in the second state. 9. The catheter apparatus of claim 5 , wherein the controller is configured to cause the change of state by pneumatic activation. 10. The catheter apparatus of claim 5 , wherein the controller is a syringe. 11. The catheter apparatus of claim 5 , further comprising multiple discrete pressure-responsive chambers distributed along a length of catheter, and further wherein the activation means is configured to independently pressurize each of the discrete pressure-responsive chambers. 12. The catheter apparatus of claim 5 , wherein the first layer of wrapped tape is a helically-wrapped ePTFE tape layer and the second layer of wrapped tape is a helically-wrapped ePTFE layer.