A New Technique for Superselective Catheterization of Arteries: Preshaping of a Micro-Guide Wire into a Shepherd's Hook Form

Superselective catheterization of a target artery is prerequisite for achieving effective transcatheter arterial chemoembolization (TACE) in hepatocellular carcinoma patients and for performing transcatheter arterial embolization (TAE) in patients who are experiencing gastrointestinal bleeding. There have been remarkable advances in the low-profile coaxial catheter system, including the introduction of a hydrophilic coating. We can now select small target vessels more easily without inducing spasms and then selectively embolize them.

Yet sometimes, when a target branch vessel arises at a steep acute angle from a wide parent artery, it can be technically difficult to advance a micro-guide wire into the branch vessel or to advance a microcatheter over the inserted micro-guide wire.

Consequently, the patient and the operator may be exposed to more radiation, and the patient may be given more contrast media; repetitive manipulation of devices in the vessel can result in damage to the blood vessels or failure of catheterization.

We developed a useful superselective catheterization technique by using preshaping of micro-guide wire into a shepherd's hook form to overcome this challenging situation. Herein, we report on our experience with employing this technique during chemoembolization of hepatocellular carcinomas when conventional techniques failed to superselectively catheterize a tumor-feeding artery that branched at an acute angle.

Selective catheterizations of the targeted arteries were achieved in all six patients. Satisfactory TACE procedures were performed for all the patients. In one case in which the approach to the proper hepatic artery was done through the pancreaticoduodenal artery, multiple tumor stainings were noted on the angiography, so superselection of the feeding arteries was not possible. For the other five cases, the feeding arteries, which included four right inferior phrenic arteries and one left hepatic artery, were properly selected and satisfactory chemoembolizations were achieved. There were no significant complications such as arterial dissection.

The recent development of better coaxial microcatheters, guide wires and digital angiographic equipment have enabled more peripheral superselective catheterization of distal vessels, and so this permits more selective vascular intervention. Yet radiologists are now faced with more challenging situations for performing superselective catheterization with the growing demand for superselective catheterization using microcatheters.

One of these challenging situations is to catheterize branch vessels that originate from a large parent artery at an acute angle.

For chemoembolization of hepatic tumors, it has become a routine procedure to superselect multiple tumor feeding arteries with microcatheters, including aberrant hepatic arteries and extrahepatic collateral vessels. Among the extrahepatic collaterals, the right inferior phrenic artery most frequently supplies hepatic tumors (4). The most common site of origin of the right inferior phrenic artery is the proximal segment of the celiac axis. Unfortunately, the origin of the celiac axis is frequently compressed by the median arcuate ligament of the diaphragm and the celiac axis shows steep downward angulation and poststenotic dilatation, and occasionally complete occlusion (5). In the case of significant celiac axis stenosis by median arcuate ligament compression and poststenotic dilatation, it is rather challenging to perform superselective catheterization of the right inferior phrenic artery and the left gastric artery originating from the ascending part of the dilated celiac axis in the posterosuperior direction.

Several techniques have been developed that are useful to selectively catheterize those arteries originating at acute angles. Miyayama et al. developed a catheter with a large side hole for selective catheterization of the inferior phrenic artery that originated from the proximal portion of the celiac trunk (6). Won et al. also developed a side-hole technique with using a 5-Fr catheter and microcatheters to select bronchial arteries of an anomalous origin or a nonbronchial systemic artery originating from the proximal subclavian arteries (7).

Still, these methods require structural modification of angiographic catheters and a side-hole should be created in the proper position. Kwon et al. developed a microcatheter loop technique for accessing the proper hepatic artery through the pancreaticoduodenal arcade when selective catheterization of the proper hepatic artery through the common hepatic artery was not possible due to complete occlusion of the celiac axis (8). Kiyosue et al. developed a turn-back technique for catheterizing arteries that originate at acute angles (9). With using this technique, the microcatheter forms a turn in the parent artery and the tip of the microcatheter and the micro-guide wire access the target artery in a retrograde manner. But these methods cannot be easily used in the case of accompanying celiac stenosis because they need enough space to 'turn back' the microcatheters and guide wires. Also, the length of the microcatheter and micro-guide wire forms an unpredictable shape and so it difficult to control the torque. For the inexperienced angiographer, there is increased risk of arterial dissection as a result of repeated attempts at catheterizing the celiac axis when the trunk is significantly compressed or occluded. It's been recommended to use appropriate catheterization techniques to minimize arterial injury (8). With using our technique, the risk of intimal injury caused by the catheter will be reduced because the catheter does not have a sharp angled tip. It is not so technically difficult to preshape the micro-guide wire like a shepherd's hook via manual manipulation. However, the lumen of the parent artery should be large enough for the micro-guide wire to recover its preshaped form, although this does not matter in the case of celiac artery stenosis because the stenosis usually results in post-stenotic dilatation. For all the patients in our study, their targeted arteries were successfully catheterized and satisfactory TACEs were performed.

There are some limitations in our study. First, a relatively small number of patients were included in our study, and we did not test the diverse kinds of shapeable micro-guide wires and microcatheters. Therefore, technical failures and complications that were not encountered in our study may occur in a larger series. Second, it was an uncontrolled study, and randomized comparison with other techniques was not performed.

In conclusion, we have developed an effective technique for the superselection of vessels with use of preshaping of a micro-guide wire into a shepherd's hook form, and we successfully applied it for chemoembolization of hepatocellular carcinoma. This technique can be useful for superselection of small arteries that branch at acute angles from a large parent artery during the treatment of tumors and hemorrhages.