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LETTERS TO THE EDITOR

New Avenues of Epidural Research

University of Calgary, Department of Anesthesia, Foothills Hospital, Calgary, Alberta, Canada Department of Anesthesiology and Pain Medicine, University of Alberta Hospital, Edmonton, Alberta, Canada University of Heidelberg, Department of Anaesthesiology, Heidelberg, Germany

To the Editor:

The case report by Kasai et al. (1) and the accompanying editorial by Rose (2) remind us that the potential for serious risk is inherent with every neuraxial procedure performed. Rose (2) has provided us with some commonsense guidelines to help us prevent such complications. We personally concur with his conclusions but wish to bring attention to two new avenues of research.

Techniques are being developed to help make neuraxial procedures safer, particularly in heavily sedated or anesthetized patients. Entry into the epidural or intrathecal space can be reliably demonstrated electrically (3,4). Previous studies (5–7) have demonstrated that a motor response evoked by 1 mA or less indicates the catheter is either in the subarachnoid space (SA) or close to a nerve root (subdural, 0.3 mA; SA, 0.4 mA; immediate proximity to a nerve root, 0.5 mA). These observations support the potential application of electrical epidural stimulation or Tsui test (3–8) as an adjunct method to identify the precise location of a needle or catheter in the epidural space.

A modification of the Tsui test can be used to help guide an insulated needle into the caudal or epidural space (9–10). In a porcine model, Tsui et al. (10) have demonstrated that the test can be used to reliably detect entry of an insulated Tuohy needle into the epidural space. By using supramaximal delivered currents and ensuring the subject has not been paralyzed, proximity to any motor neuron (nerve, nerve root, or spinal cord) can be reliably detected. This is done by sequentially reducing the current to a level where the motor response just disappears, while advancing the Tuohy needle using a continuous loss-of-resistance (LOR) technique. Entry into the epidural space will be signaled by a LOR and the simultaneous recurrence of the motor response (at an appropriate myotomal level) with a delivered current well above 1 mA. If, at any time, a motor response occurs at a current below 1 mA, proximity to a nerve structure is assured and further advancement of the needle is not advised as it may risk injury. The use of a nerve stimulator to perform peripheral nerve blocks in anesthetized patients has not been demonstrated to enhance safety (11). However, epidural stimulation, unlike peripheral nerve localization, uses a supramaximal current sufficient to stimulate any motor nerve structure within several centimeters. The principle goal when performing a peripheral nerve block is to seek the minimal current sufficient to stimulate a motor nerve (generally <0.5 mA) (11,12). Although there is only a single published laboratory study examining this application, the test has the potential to monitor a motor response in clinical settings where paresthesia cannot be reported. This technique has potential to make neuraxial procedures safer and should not be overlooked.

Investigators in Europe have developed expertise in visualizing the epidural space with ultrasound (13,14). Real-time imaging with ultrasound may further enhance the safety of neuraxial procedures (15).

While we agree with Dr. Rose (2) that further research is necessary to verify the "broadly held belief that epidural analgesia is associated with better postoperative analgesia," we feel we also need to address more philosophical issues. For example, what is a reasonable risk? Furthermore, as Dr. Rose implies (2), how can we acquire a fully informed consent when we do not fully understand the nature of the risk? Research into the pathogenesis of spinal epidural hematoma formation, evolution, and incidence is desperately needed.

References

1. Kasai T, Yaegashi K, Hirose M, Tanaka Y. Spinal cord injury in a child caused by an accidentally dural puncture with a single shot thoracic epidural needle. Anesth Analg 2003; 96: 65–7.[Abstract/Free Full Text]
2. Rose JB. Spinal cord injury in a child after single-shot epidural anesthesia. Anesth Analg 2003; 96: 3–6.[Free Full Text]
3. Tsui BC, Gupta S, Finucane B. Confirmation of epidural catheter placement using nerve stimulation. Can J Anaesth 1998; 45: 640–4.[Abstract/Free Full Text]
4. Hayatsu K, Tomita M, Fujihara H, et al. The placement of the epidural catheter at the predicted site by electrical stimulation test. Anesth Analg 2001; 93: 1035–9.[Abstract/Free Full Text]
5. Tsui BCH, Gupta S, Finucane B. Detection of subdural placement of epidural catheter using nerve stimulation Can J Anaesth 2000; 47: 471–3.[Abstract/Free Full Text]
6. Tsui BCH, Gupta S, Finucane B. Detection of subarachnoid and intravascular epidural catheter placement. Can J Anaesth 1999; 46:7: 675–8.[Abstract/Free Full Text]
7. Tsui BCH, Guenther C, Emery D, Finucane B. Determination epidural catheter location using nerve stimulation with radiological confirmation. Reg Anesth Pain Med 2000; 25: 306–9.[ISI][Medline]
8. Lang SA, Korzeniewski P, Buie D, et al. Repeated failure of epidural analgesia: an association with epidural fat? Reg Anesth Pain Med 2002; 27: 494–500.[ISI][Medline]
9. Tsui BCH, Tarkkila P, Gupta S, Kearney R. Confirmation of caudal needle using nerve stimulation. Anesthesiology 1999; 91: 374–8.[ISI][Medline]
10. Tsui BCH, Uwiera R, Emery D, Finucane B. Epidural needle using electrical guidance in a porcine model [abstract]. Anesthesiology 2002; 96: A723.
11. Benumof JL. Permanent loss of cervical spinal cord function associated with interscalene block performed under general anesthesia. Anesthesiology 2000; 93: 1541–4.[ISI][Medline]
12. Lang SA. The art and science of using a peripheral nerve stimulator: how close is close enough [letter]? Reg Anesth Pain Med 2002; 27: 330–2.[ISI][Medline]
13. Grau T, Leipold R, Conradi R, et al. Ultrasound imaging facilitates localization of the epidural space during combined spinal-epidural anesthesia. Reg Anesth Pain Med 2001; 26: 64–7.[ISI][Medline]
14. Grau T, Leipold RW, Delorme S, et al. Ultrasound imaging of the thoracic epidural space. Reg Anesth Pain Med 2002; 27: 200–6.[ISI][Medline]
15. Grau T, Leipold RW, Conradi R, et al. Die Darstellung von Duraperforationen und Bloodpatches mit Ultraschall. Anasthesiol Intensivmed Notfallmed Schmerzther 2002; 37: 149–53.[ISI][Medline]

Response

Department of Anesthesiology, Kyoto Prefectural University of Medicine, Kyoto, Japan

In Response:

We wish to thank Dr. Lang for his correspondence. We think epidural techniques will be safer if such new methods of epidural approach develop and gain popularity.

This article has been cited by other articles:

				S. A. Lang Asleep at the Wheel? Anesth. Analg., April 1, 2005; 100(4): 1214 - 1214. [Full Text] [PDF]

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Anesthesia & Analgesia® is published for the International Anesthesia Research Society® by Lippincott Williams & Wilkins with the assistance of Stanford University Libraries' HighWire Press®. Copyright 2006 by the International Anesthesia Research Society. Online ISSN: 1526-7598   Print ISSN: 0003-2999