Skip to main content
Reviews in Obstetrics and Gynecology logoLink to Reviews in Obstetrics and Gynecology
. 2008 Spring;1(2):49–55.

Why Epidurals Do Not Always Work

Katherine Arendt *, Scott Segal
PMCID: PMC2505163  PMID: 18769661

Abstract

The overwhelming majority of epidural catheters placed for labor provide satisfactory analgesia. There are, however, times when the catheter is not sited within the epidural space correctly, the patient’s neuraxial anatomy is problematic, or a patient’s labor progresses more quickly than expected by the anesthesiologist, and the epidural block does not set up on time. In this article, the basics of neuraxial labor analgesia, the causes of its failure, and the strategies anesthesiologists employ to rescue poorly functioning catheters are reviewed.

Key words: Neuraxial labor analgesia, Combined spinal epidural technique, Dural puncture, Epidural failure


A 28-year-old term primigravida presents in painful labor. At 3-cm cervical dilation an epidural catheter is placed after multiple attempts by an experienced anesthesiologist. Upon returning 2 hours later for a cervical examination, the obstetrician observes a parturient in extremis, panting and groaning in pain, and refusing vaginal examination. The anesthesiologist is notified.

Fortunately, the overwhelming majority of epidural catheters placed for labor provide satisfactory analgesia. In large series, the overall success rate is approximately 98% to 99%.1,2 There are, however, times when the catheter is not sited within the epidural space correctly, the patient’s neuraxial anatomy is problematic, or a patient’s labor progresses more quickly than expected by the anesthesiologist, and the epidural block does not set up on time. In this article, we review the basics of neuraxial labor analgesia, the causes of its failures, and the strategies anesthesiologists employ to rescue poorly functioning catheters.

Neuraxial Anatomy and Epidural Technique

The epidural space is a potential space in the neuraxis deep (anterior) to the ligamentum flavum and shallow (posterior) to the dura mater. Anesthesiologists use a loss-of-resistance technique to determine when the tip of a hollow epidural needle is sited just anterior to the thick ligamentum flavum and in the epidural space (Figure 1). When the tip of the epidural needle lies within a ligament, injection of air or saline is difficult. Upon entry into the epidural space, this resistance to injection is lost. An epidural catheter is then threaded 3 to 5 cm into the epidural space (Figure 2). After the catheter is sited, epidural drugs are injected and slowly soak into the nerve roots of the low thoracic, lumbar, and sacral spine, providing analgesia within about 20 minutes.

Figure 1.

Figure 1

Epidural needle in epidural space. From Eltzschig HK, Lieberman ES, Camann WR. Regional anesthesia and analgesia for labor and delivery. N Engl J Med. 2003;348:319–332. Copyright © Massachusetts Medical Society. All rights reserved.

Figure 2.

Figure 2

Catheter placement into epidural space. From Eltzschig HK, Lieberman ES, Camann WR. Regional anesthesia and analgesia for labor and delivery. N Engl J Med. 2003;348:319–332. Copyright © 2003 Massachusetts Medical Society. All rights reserved.

In the combined spinal epidural (CSE) technique, after the epidural needle is properly sited, a small-gauged spinal needle is passed through the bore of the epidural needle, through the dura mater, and into the intrathecal space (Figure 3). Flow of cerebral spinal fluid (CSF) back through the spinal needle confirms its location. After drug is deposited into the CSF, the spinal needle is removed, and an epidural catheter is threaded through the epidural needle into the epidural space. The intrathecal drug provides a faster onset of analgesia than an epidural alone—usually within 5 minutes.3

Figure 3.

Figure 3

Combined spinal epidural technique. From Eltzschig HK, Lieberman ES, Camann WR. Regional anesthesia and analgesia for labor and delivery. N Engl J Med. 2003;348:319–332. Copyright © 2003 Massachusetts Medical Society. All rights reserved.

Neuraxial Drugs

Both opioids and local anesthetics are typically used in neuraxial labor analgesia. Fentanyl is generally the opioid of choice because its lipophilicity results in excellent immediate muopioid receptor agonism in the neuraxis and minimal central side effects. Bupivacaine is the local anesthetic of choice because, in comparison with other local anesthetics, it preferentially blocks sensory over motor nerves, preserving lower extremity and abdominal muscle strength. Volume and drug concentration need to be considered in epidural dosing, whereas the drug’s baricity (density compared to CSF) within the CSF and overall dose (milligrams of drug) need to be considered in the intrathecal space. The dose required in the epidural versus the intrathecal space differs by approximately a factor of 10. An epidural catheter unknowingly placed in the intrathecal space could result in a massive overdose, potentially resulting in a “high spinal.” When this occurs, respiratory distress, hypotension, and fetal distress can ensue. Therefore, anesthesiologists take care and time in dosing, even if women are in significant pain. As a result, parturients may progress rapidly through labor or even deliver prior to the onset of effective analgesia.

Incidence of Epidural Failure

The most comprehensive review of obstetric neuraxial failures is a retrospective analysis of 19,259 deliveries that demonstrated an overall failure rate of 12%.2 Of these neuraxial techniques, 46% became functional with simple manipulations (described later in this article). Overall, 7.1% of patients receiving neuraxial analgesia had their catheters replaced and 1.9% had multiple replacements. In the end, 98.8% of patients reported adequate labor analgesia. This rate compares favorably with that observed in an earlier study of 4240 obstetric regional blocks, which found a 13.1% replacement rate but 98% overall satisfaction.1 Somewhat outdated equipment and drug dosages were used in this older investigation.

Causes of Neuraxial Analgesia Failure

In general, a continuous and even distribution of local anesthetic within the epidural space bathing the appropriate nerve roots leads to successful labor analgesia. The causes of neuraxial labor analgesia failure include inadequate initial epidural needle placement, suboptimal catheter siting upon threading, catheter migration within the epidural space during labor, problematic neuraxial anatomy of the parturient, or an unpredictably fast labor. Further considerations that may contribute to epidural failure include the type of catheter used (multi-orifice vs single-orifice vs newer single orifice, soft-tipped, wire-reinforced catheters),4,5 the distance the catheter is threaded into the epidural space,6 the experience of the individual placing the epidural,1 whether a CSE or epidural technique is performed,1,2 and differences in patient expectations. A debatable consideration is whether air or saline is used in the loss-of-resistance technique.7,8

The anesthesiologist may or may not detect misplacement of the epidural needle at the time of placement. Aside from the epidural space, the needle may be in the subcutaneous or other paravertebral tissue, past the dura mater and into the intrathecal space, in the subdural space (between the dura and arachnoid), or in an epidural vein. An intrathecal or intravenous placement will be heralded by the flow of CSF or blood from the hub of the needle. This may not always occur, however, and thus the standard of care is aspiration on the catheter after it is threaded and slow dosing of the medication divided into small aliquots. During administration of each epidural dose, the anesthesiologist watches for signs of an inappropriately dense or high level of anesthesia (intrathecal placement) or symptoms of systemic local anesthetic toxicity (intravascular placement).

Subcutaneous Placement

A false loss-of-resistance, in which the tip of the epidural needle lies within subcutaneous tissue, is the likely cause of most complete epidural failures (ie, no block). Local anesthetic and the low concentration of opioid in epidural infusions provide little to no analgesia for the parturient when deposited in subcutaneous tissue. Such a failure is usually detected in less than 30 minutes after the initial placement when no level of sensory blockade can be detected in the legs or lower abdomen and the patient remains in pain. However, in some cases the parturient may report analgesic relief that the anesthesiologist may inappropriately attribute to a successful epidural. This may delay the replacement of this misplaced epidural, and may occur if contractions transiently decrease (eg, from pre-epidural fluid loading or discontinuation of oxytocin during placement), if systemic opioid absorption causes analgesic effects, or even if the placement has a placebo effect for the parturient.

Some anesthesiologists perform a CSE to assure that the needle is in the epidural space. By placing a spinal needle through the epidural needle and obtaining CSF at the time of placement, they assure themselves that the dura mater and intrathecal space is just beyond the tip of the epidural needle, which must be, therefore, in the epidural space. At this time, the anesthesiologist may inject an intrathecal medication such as an opioid and/or local anesthetic. Advocates for this technique cite the fact that epidurals placed after a CSE technique have been found to be more successful than conventional epidurals.2 Opponents may cite anecdotal evidence of a spinal dose masking an inadequately sited epidural catheter that subsequently fails upon bolusing for urgent cesarean delivery, risking an unexpected general anesthetic.

An alternative method is to perform a dural puncture without drug administration, solely to confirm proper position of the epidural needle. Aside from the confirmation that the needle is in the epidural space, enhanced sacral spread of the block results, likely because of drug passing through the dural hole into the CSF.9 The downside of this technique includes theoretically greater risks of post-dural puncture headache, infection, and respiratory depression. In general, we advocate this CSE confirmation technique in patients who are obese or in whom loss of resistance is unclear.

Intrathecal Placement

If the epidural needle penetrates the dura mater and enters the intrathecal space and the misplacement is recognized by the free flow of CSF from the needle, the catheter may be threaded into the spinal space and may still be safely used for labor analgesia or surgical anesthesia. Such spinal catheters are usually not used intentionally due to a high risk (> 50%) of a post-dural puncture headache, as well as a theoretically increased risk of infection.

Subdural Placement

Rarely, catheters can be sited in the subdural space. This is a potential space between the dura mater and the pia-arachnoid membrane. If a catheter is threaded into this location and a large dose of medication intended for the epidural space is injected here, an unusually patchy and potentially dangerous block can occur that will likely result in inadequate analgesia as well as the signs and symptoms of a high spinal. Because no CSF will be aspirated and the onset of the block is slow, it is often difficult to detect. Recent investigations have suggested this phenomenon may occur more frequently than previously suspected.10

Intravascular Placement

The epidural catheter can also be threaded into a vein. This occurs in 5% to 7% of placements.2 Intravenous placement is more common in parturients than in nonpregnant patients because inferior vena cava compression by the enlarged uterus results in dilation of collateral veins in the epidural space. Intravenous local anesthetic produces little to no analgesia. More importantly, however, it can result in systemic toxicity. This is manifest by cerebral stimulation (tinnitus, metallic taste, restlessness, and convulsions) as well as cerebral depression (unconsciousness), cardiovascular toxicity (bradycardia, vasodilation, hypotension, and ventricular fibrillation), and uterine vasoconstriction and hypertonus. Treatment of local anesthetic toxicity is an extensive topic that has been reviewed in detail.11 Hemodynamic and respiratory support are the mainstays of treatment, but recent advances in aborting cardiac arrest with lipid emulsion therapy are promising.12

Analgesic Failure With a True Epidural Catheter

For those who have studied the epidural space, it may seem amazing that epidurals ever work. The epidural space is filled with fat, connective tissue, and an extensive venous plexus. It behaves less like a collapsed Penrose drain and more like a container filled with sand and variously sized pebbles, such that drugs must traverse a maze of obstacles to reach the nerves. This anatomic labyrinth may result in the initial placement of the catheter tip in an unfavorable microenvironment. When the initial epidural placement and infusion does not result in an adequate block, anesthesiologists often perform 2 different maneuvers to salvage the catheter: partial withdrawal of the catheter or infusion of additional medication. Both of these maneuvers have proven successful13 and are employed if the epidural failure is from a unilateral or asymmetric block or a block that does not extend to sacral dermatomes (sacral sparing).

Asymmetric Block

Asymmetric blocks can either be completely unilateral or be manifest as windows in an otherwise complete block, in which one or more dermatomes are spared. Despite apparently proper placement, approximately 5% to 8% of epidural blocks may provide incomplete analgesia of this sort.2 Although the cause of any particular failure is usually unknown, it is generally believed that either an anatomic barrier to free flow of local anesthetic or unfavorable positioning of the tip of the catheter is responsible for asymmetric block.

Multiple and extensive studies evaluating epidural anatomy have been done including injecting cadaveric epidural spaces with resin,14 cadaveric epiduroscopy,15 computed tomography epidurography,16 and anatomic dissection with cryomicrotome section.17 The presence of a dorsal median connective tissue band (DMCTB) in some individuals has also been described but is generally thought to be rare and incomplete when present. This DMCTB has been attributed to an artifact of how the epidural space was studied.17 The existence of unilaterally functioning epidurals is not controversial, and remains a challenge for anesthesiologists.

Radiographic studies have shown that when a catheter is threaded beyond the tip of the needle in the epidural space it rarely stays midline, and it may also be directed caudally rather than the preferred cranial direction.18 Anesthesiologists compensate for this by providing a large volume of a dilute solution of a local anesthetic and opioid in order to ensure spread of the medication to both sides of the epidural space as well as up and down the spine. In addition, studies show that when catheters are threaded no more than 5 cm into the epidural space, fewer insufficient blocks occur.19 Perhaps this is because these catheters are less likely to site laterally or, even worse, to exit the epidural space along the course of a nerve root. When these events occur, the spread of the local anesthetic may be limited to either a specific side or a specific dermatome. This provides additional rationale for partially withdrawing an epidural catheter producing an asymmetric block.

Sacral Sparing

Even with a large volume of dilute local anesthetic and with an appropriate length of catheter in the epidural space, analgesia may still be inadequate. Typically, anesthesiologists place epidurals in the innerspaces between the L2-3, L3-4, or L4-5 vertebral bodies. For the first stage of labor, the pain is largely visceral and carried by the T10 through L1 nerve roots, which innervate the cervix, uterus, and upper portion of the vagina. For the second stage of labor, the pain is somatic and carried by the S2–S4 nerve roots, innervating the perineum. Not only is the pain of second-stage labor more intense, but these nerve roots are further from the tip of the epidural catheter, larger in diameter, and surrounded by thicker dura mater, and therefore more difficult for local anesthetic to penetrate. Moreover, epidural infusions tend to traverse upward within the epidural space more readily than downward. Therefore, the local anesthetic from even a well-placed epidural catheter may fail to adequately bathe and penetrate the sacral nerve roots and provide relief for the more intense pain of second-stage labor. This sacral sparing phenomenon leads some anesthesiologists to prefer a CSE technique when delivery is imminent. The intrathecal local anesthetic directly bathes the sacral nerve roots in the cauda equina and the opioid directly binds the mu-opioid receptors of the substantia gelatinosa in the spinal cord. The onset of relief is faster and the sacral coverage is superior.3

Migration

An epidural that works well initially may not continue to work well throughout the entire labor and delivery. The position of epidural catheters is not static, and catheters may migrate completely out of the epidural space (resulting in cessation of analgesia), laterally (resulting in a unilateral block), or even intrathecally or intravascularly (resulting in toxicity). The migration of epidural catheters is not rare; in large retrospective series, 6.8% of patients with initially adequate blocks subsequently developed insufficient analgesia.2

Chronic Back Pain and Prior Back Surgery

Patients with a history of chronic low back pain have increased rates of failure. In patients with unilateral back pain or sciatica, the affected nerve roots become blocked 10 to 70 minutes later than the contralateral side purportedly because the local anesthetic has difficulty diffusing into the injured area.20 Likewise, disk herniation may cause scarring and epidural adhesions that slow the diffusion of local anesthetic past the injured area or inhibit it altogether.21 Uncorrected scoliosis can lead to difficulty in finding the epidural space, poor spread of local anesthetic, and an increase in dural puncture and other complications.

Patients with a history of back surgery, especially those who have had spinal instrumentation and fusion to correct scoliosis, also have increased rates of epidural failure. In patients who have had corrective scoliosis surgery, the epidural space may be impossible to find because of instrumentation, bone graft material, or scar tissue in the area of the fusion and degenerative changes in the area below the fusion. If epidural placement is possible, patchy spread of local anesthetic may occur from intraoperative trauma to the ligamentum flavum leading to scarring and obliteration of the epidural space. These patients also may have a high rate of unintentional dural puncture with the subsequent inability to perform a blood patch for fear of repeat dural puncture or infection of their spinal hardware. Some anesthesiologists consider epidural analgesia to be relatively contraindicated in these patients.

To some extent, epidural scarring may occur even after more limited forms of back surgery, as demonstrated in animal models.22 Fortunately, in patients with a history of back surgery, epidural analgesia is often successful. Success was reported in 91% of patients who had previous back surgery, compared with 98.7% of patients who had not in a series of 1381 nonpregnant patients.23 The authors attributed this result to the routine use of large volumes of epidural anesthetic and operator skill.

Conclusions

Anatomic, functional, technical, and random variations may seem to conspire against the anesthesiologist in the attempt to provide epidural analgesia to the parturient. Fortunately, with proper technique nearly 99% of women can expect satisfactory analgesia.1,2 Large volumes of dilute anesthetic, manipulation of the catheter, use of the CSE technique, and willingness to replace a poorly functioning catheter can rescue the overwhelming majority of imperfect epidurals.

Main Points.

  • The causes of neuraxial labor analgesia failure include inadequate initial epidural needle placement, suboptimal catheter siting upon threading, catheter migration within the epidural space during labor, problematic neuraxial anatomy of the parturient, or an unpredictably fast labor.

  • A false loss-of-resistance, in which the tip of the epidural needle lies within subcutaneous tissue, is the likely cause of most complete epidural failures.

  • Intravascular placement of the epidural catheter is more common in parturients. Intravenous local anesthetic produces little or no analgesia and can result in systemic toxicity.

  • The position of epidural catheters is not static, and catheters may migrate completely out of the epidural space (resulting in cessation of analgesia), laterally (resulting in a unilateral block), or even intrathecally or intravascularly (resulting in toxicity).

  • Patients with a history of chronic low back pain or back surgery have increased rates of epidural failure.

  • Large volumes of dilute anesthetic, manipulation of the catheter, use of the combined spinal epidural technique, and willingness to replace a poorly functioning catheter can rescue the overwhelming majority of imperfect epidurals.

References

  • 1.Eappen S, Blinn A, Segal S. Incidence of epidural catheter replacement in parturients: a retrospective chart review. Int J Obstet Anesth. 1998;7:220–225. doi: 10.1016/s0959-289x(98)80042-3. [DOI] [PubMed] [Google Scholar]
  • 2.Pan PH, Bogard TD, Owen MD. Incidence and characteristics of failures in obstetric neuraxial analgesia and anesthesia: a retrospective analysis of 19,259 deliveries. Int J Obstet Anesth. 2004;13:227–233. doi: 10.1016/j.ijoa.2004.04.008. [DOI] [PubMed] [Google Scholar]
  • 3.Collis RE, Davies DW, Aveling W. Randomised comparison of combined spinal-epidural and standard epidural analgesia in labour. Lancet. 1995;345:1413–1416. doi: 10.1016/s0140-6736(95)92602-x. [DOI] [PubMed] [Google Scholar]
  • 4.Segal S, Eappen S, Datta S. Superiority of multi-orifice over single-orifice epidural catheters for labor analgesia and cesarean delivery. J Clin Anesth. 1997;9:109–112. doi: 10.1016/S0952-8180(97)00232-8. [DOI] [PubMed] [Google Scholar]
  • 5.Jaime F, Mandell GL, Vallejo MC, Ramanathan S. Uniport soft-tip, open-ended catheters versus multiport firm-tipped close-ended catheters for epidural labor analgesia: a quality assurance study. J Clin Anesth. 2000;12:89–93. doi: 10.1016/s0952-8180(00)00116-1. [DOI] [PubMed] [Google Scholar]
  • 6.D’Angelo R, Berkebile BL, Gerancher JC. Prospective examination of epidural catheter insertion. Anesthesiology. 1996;84:88–93. doi: 10.1097/00000542-199601000-00011. [DOI] [PubMed] [Google Scholar]
  • 7.Arendt K, Segal S. An effectiveness study of air versus saline is used for identification of the epidural space by loss of resistance. Anesth Analg. 2008;106:A-1–A-221. doi: 10.1213/ANE.0b013e3181c84e4e. Abstract A-104. [DOI] [PubMed] [Google Scholar]
  • 8.Beilin Y, Arnold I, Telfeyan C, et al. Quality of analgesia when air versus saline is used for identification of the epidural space in the parturient. Reg Anesth Pain Med. 2000;25:596–599. doi: 10.1053/rapm.2000.9535. [DOI] [PubMed] [Google Scholar]
  • 9.Suzuki N, Koganemaru M, Onizuka S, Takasaki M. Dural puncture with a 26-gauge spinal needle affects spread of epidural anesthesia. Anesth Analg. 1996;82:1040–1042. doi: 10.1097/00000539-199605000-00028. [DOI] [PubMed] [Google Scholar]
  • 10.Collier CB. Accidental subdural injection during attempted lumbar epidural block may present as a failed or inadequate block: radiographic evidence. Reg Anesth Pain Med. 2004;29:45–51. doi: 10.1016/j.rapm.2003.10.012. [DOI] [PubMed] [Google Scholar]
  • 11.Weinberg GL. Current concepts in resuscitation of patients with local anesthetic cardiac toxicity. Reg Anesth Pain Med. 2002;27:568–575. doi: 10.1053/rapm.2002.37126. [DOI] [PubMed] [Google Scholar]
  • 12.Corman SL, Skledar SJ. Use of lipid emulsion to reverse local anesthetic-induced toxicity. Ann Pharmacother. 2007;41:1873–1877. doi: 10.1345/aph.1K244. [DOI] [PubMed] [Google Scholar]
  • 13.Beilin Y, Zahn J, Bernstein HH, et al. Treatment of incomplete analgesia after placement of an epidural catheter and administration of local anesthetic for women in labor. Anesthesiology. 1998;88:1502–1506. doi: 10.1097/00000542-199806000-00013. [DOI] [PubMed] [Google Scholar]
  • 14.Harrison GR, Parkin IG, Shah JL. Resin injection studies of the lumbar extradural space. Br J Anaesth. 1985;57:333–336. doi: 10.1093/bja/57.3.333. [DOI] [PubMed] [Google Scholar]
  • 15.Blomberg R. The dorsomedian connective tissue band in the lumbar epidural space of humans: an anatomical study using epiduroscopy in autopsy cases. Anesth Analg. 1986;65:747–752. [PubMed] [Google Scholar]
  • 16.Savolaine ER, Pandya JB, Greenblatt SH, Conover SR. Anatomy of the human lumbar epidural space: new insights using CT-epidurography. Anesthesiology. 1988;68:217–220. doi: 10.1097/00000542-198802000-00007. [DOI] [PubMed] [Google Scholar]
  • 17.Hogan QH. Lumbar epidural anatomy. A new look by cryomicrotome section. Anesthesiology. 1991;75:767–775. doi: 10.1097/00000542-199111000-00007. [DOI] [PubMed] [Google Scholar]
  • 18.Hogan Q. Epidural catheter tip position and distribution of injectate evaluated by computed tomography. Anesthesiology. 1999;90:964–970. doi: 10.1097/00000542-199904000-00006. [DOI] [PubMed] [Google Scholar]
  • 19.Beilin Y, Bernstein HH, Zucker-Pinchoff B. The optimal distance that a multiorifice epidural catheter should be threaded into the epidural space. Anesth Analg. 1995;81:301–304. doi: 10.1097/00000539-199508000-00016. [DOI] [PubMed] [Google Scholar]
  • 20.Benzon HT, Braunschweig R, Molloy RE. Delayed onset of epidural anesthesia in patients with back pain. Anesth Analg. 1981;60:874–877. [PubMed] [Google Scholar]
  • 21.Luyendijk W, van Voorthuisen AE. Contrast examination of the spinal epidural space. Acta Radiol Diagn (Stockh) 1966;5:1051–1066. doi: 10.1177/02841851660050p250. [DOI] [PubMed] [Google Scholar]
  • 22.LaRocca H, Macnab I. The laminectomy membrane. Studies in its evolution, characteristics, effects and prophylaxis in dogs. J Bone Joint Surg Br. 1974;56B:545–550. [PubMed] [Google Scholar]
  • 23.Sharrock NE, Urquhart B, Mineo R. Extradural anaesthesia in patients with previous lumbar spine surgery. Br J Anaesth. 1990;65:237–239. doi: 10.1093/bja/65.2.237. [DOI] [PubMed] [Google Scholar]

Articles from Reviews in Obstetrics and Gynecology are provided here courtesy of MedReviews, LLC

RESOURCES