Contraindications

Absolute contraindications include patient refusal, cardiovascular diseases such as severe aortic–mitral stenosis and asymmetric septal hypertrophy, severe uncorrected hypovolemia, documented allergy to local anesthetic, increased intracranial pressure, infection at the site of injection, sepsis or bacteremia, and coagulopathy.^1,5,7 Coagulation-altering medications (such as antiplatelet medications, heparin, warfarin, and other factor inhibitors) should be reviewed and current recommendations should be followed in order to avoid potentially catastrophic complications that can occur such as a neuraxial hematoma.^9,10 Relative contraindications include preexisting neurologic disease, musculoskeletal abnormalities, prior back surgery, and untreated hypertension.^1,5,7 Placing a neuraxial block through a tattoo has been controversial. However, a recent review over 18 years found that no convincing complication had been reported after an epidural anesthesia through a tattoo.¹¹ The perianesthesia nurse should alert the anesthesia provider to potential contraindications.

Spinal Anesthesia

Universal protocol should be followed, and medications should be labeled before the procedure.12 An initial set of vital signs should be documented. Patients may be positioned in a lateral decubitus or sitting position with the back flexed to maximize the intervertebral opening (Figs. 25.3 and 25.4). Tuffier’s line is generally used to identify the third and fourth lumbar spaces but may not always be reliable.¹³ After the anesthesia provider has identified the desired interspace, he or she will follow sterile technique (mask, sterile gloves, hat) and proceed with preparing and placing sterile drapes. The perianesthesia nurse should assist with positioning and maintain verbal contact with the patient to reassure and inform him or her of what to expect. A local anesthetic is used to anesthetize the skin and underlying tissue. A 25-gauge or smaller spinal needle is used in patients at risk for a postdural puncture headache (PDPH): patients younger than 50 years, females, those who are pregnant, and those with a prior history of PDPH. Needle design is an important consideration in at-risk groups. Pencil-point needles are less likely to cause a PDPH.^1,14 The spinal needle will transverse the supraspinous and interspinous ligaments, ligamentum flavum, and dura; this is noted by a change in the resistance. The stylet is removed and CSF is noted at the hub of the needle. Procaine, bupivacaine, or tetracaine is commonly used for spinal anesthesia. Epinephrine (0.1 to 0.2 mg) or phenylephrine (2 to 5 mg) can be added to increase duration of action. Small doses of opiates are commonly used to augment analgesia.⁷ A local anesthetic is administered, and the patient is repositioned (usually supine) on the operating room table. Vital signs should be monitored at 1-minute intervals for the first 10 minutes and then, if stable, every 5 minutes. Blood pressure decreases of 20% or more should be treated with fluids and vasopressors (ephedrine or phenylephrine).^1,5,7

Back of patient with spinal cord extended shows labels for L 1, end of cord, L 4, and S 2. A vertical dashed line passes through L 4. A healthcare professional holds the patient from neck and back of knees while positioning them close to each other, indicated by two arrows pointing in the opposite directions.

Posterior view of patient seated with head downward and spine extended. A health care professional holds the patient from his shoulders. Spine shows associated labels as follows: L 1, end of cord, S 2, and end of Dural sac.

Progression of block onset is noted by loss of autonomic or sympathetic function, and the absence of the senses of temperature, pain, touch, movement, and proprioception. During recovery, function will return in the opposite order (Box 25.1). Spinal anesthetics are dosed for specific surgical procedures (Table 25.3). Level of anesthesia is monitored by dermatome level (Fig. 25.5). Monitoring regression of spinal anesthetic is aided with the knowledge of the dermatome level and can be assessed by the use of an alcohol wipe, a blunt needle that does not break the skin, something cold such as a small piece of ice, or a light pinch.^5,6

Anterior view of body shows dermatomes as follows: Cranial nerve 5 (trigeminal nerve) V 1 through V 3: face, C 2 and C 3: neck region, C 4 and C 5: shoulder, C 6 through C 8: palm, T 2 and T 1: one side of arm, T 2 through T 12: chest, abdomen, and pelvis region, L 1: lower part of pelvis, L 2, L 3, L 4, L 5: legs, and S 1: outer side of foot. Posterior view of body shows dermatomes as follows: V 1: head, C 2 and C 3: back of head and neck, C 4 and C 5: shoulder, T 2 and T 1: inner side of arm, C 6: forearm, C 7 and C 8: hand, T 2 through T 12: thoracic region, L 1 through L 5: lumbar region, S 3 and S 4: pelvis, S 2: back of thigh, L 3: inner side of knee, L 5 and L 4: lower leg, S 1: back of foot.

Epidural Anesthesia

Epidural anesthesia or analgesia is similar to spinal anesthesia with regard to positioning, sterile technique, monitoring, progression, and assessment. Epidural anesthesia can be a single-shot technique (i.e., caudal anesthesia) or more commonly as an intermittent or continuous technique for anesthesia or analgesia. Anesthesia may be administered for the same types of surgical procedures as spinal anesthetics (see Table 25.3) but may be less effective for procedures of the perineum because of sacral sparing. Epidurals provide analgesia and may be used for labor and delivery or postoperative analgesia after surgical procedures ranging from the thorax to lower extremities. Epidural needles are larger than spinal needles to allow for the insertion of a catheter. The average needle is 9 cm and marked to indicate the depth of insertion. An epidural needle transverses the supraspinous and intraspinous ligament and is seated in the ligamentum flavum. A special loss-of-resistance syringe with preservative-free saline is attached to the hub, and the needle is advanced until a loss of resistance is noted upon entering the epidural space. An epidural catheter is then inserted to a desired depth. Epidural catheters are marked to indicate the depth of insertion.^1,5,7 A 3-mL test dose of 1.5% lidocaine with 1:200,000 epinephrine is administered to help detect intravascular, subarachnoid, or subdural placement. If positive, the heart rate and systolic blood pressure will increase by at least 20 bpm and 15 mm Hg but may not be reliable in the presence of beta blockers, advanced age, and general anesthesia.⁷ A subarachnoid injection will result in a high spinal anesthetic, whereas a subdural injection can result in an extensive block relative to a small dose of local anesthetic.¹⁵ Common local anesthetics used for epidural anesthesia include 2-chloroprocaine, lidocaine, bupivacaine, and ropivacaine. Epidurals are dosed based on the number of dermatomes to be blocked (1 to 2 mL per dermatome). Dosing occurs slowly, with no more than 5 mL of local anesthetic administered at a time to limit the risk of local anesthetic toxicity. Epinephrine (1:200,000) can be used to decrease absorption and prolong duration. Epidural catheters should be monitored for signs of drainage or dislodgment. The site is covered with a sterile dressing, and connections should be tight. The American Society of PeriAnesthesia Nurses’ position statement on safe medication administration¹⁶ and local institutional policy should be followed for the administration of medications. When initiating a continuous infusion, check the dose and concentration of the local anesthetic solution, and confirm the infusion rate.

Combined spinal-epidural is a versatile technique that allows for the administration of a spinal anesthetic for immediate anesthesia followed by an epidural catheter (which can be dosed later) to extend the duration of the anesthetic or provide postoperative analgesia. It is similar to spinal-epidural anesthesia with regard to positioning, sterile technique, monitoring, progression, and assessment.

High Spinal Block

Excessive spread of local anesthetic that occurs with spinal or epidural anesthesia is a high spinal block. Signs and symptoms include high sensory block resulting in upper extremity sensory and motor changes, nausea and vomiting, loss of consciousness, anxiety, hypotension, bradycardia or asystole, respiratory distress, or apnea.17 Treatment is dependent on extent of spread. Airway, breathing, and circulation are primary considerations. Supplemental oxygen, assistance with a bag-mask-valve device, or intubation may be required. The patient may be aware of the surrounding environment, and verbal reassurance is important to reduce anxiety. Hypotension is caused by an extensive sympathectomy and treated with fluid bolus, elevation of the legs to improve venous return, and vasopressors (see Chapter 11), which may include phenylephrine, norepinephrine, ephedrine, or epinephrine. Bradycardia is treated with ephedrine or atropine. Phenylephrine and norepinephrine administration can cause reflex bradycardia and should be used with caution in the setting of significant bradycardia. Asystole is treated with established advanced cardiovascular life support protocols. High spinal blocks are generally self-limiting, and the patient will improve as the concentration of local anesthetic declines; however, in some instances airway management is required.^1,5,7

Local Anesthetic Systemic Toxicity

See Chapter 24.

Hypotension

Postoperative hypotension can be caused by sympathectomy and can occur with spinal or epidural anesthesia. Treatment consists of raising the legs, fluid bolus, and vasopressors (i.e., ephedrine or phenylephrine). Refractory hypotension can be treated with a continuous infusion of phenylephrine, norepinephrine, or low-dose epinephrine. It is important to rule out other causes of hypotension during stabilization including hemorrhage or cardiovascular complications (see Chapter 29).^1,5,7

Nausea and Vomiting

When associated with neuraxial blockade, the precipitating factor of nausea and vomiting is often hypotension. Supplemental oxygen should be applied, and blood pressure should be measured. Treat hypotension and seek other causes if nausea does not resolve.^1,5,7

Urinary Retention

Urinary retention is often caused by autonomic blockade of the sacral nerves that results in a hypotonic bladder. Other causes such as surgical genitourinary trauma, pain, opioids, and renal failure should be ruled out. Patients may exhibit restlessness and incoherence. A neurologic insult, electrolyte disorders, hypoxia, pain, and abnormal glucose levels should also be considered and ruled out. A bladder scan can help to confirm retention, and insertion of a urinary catheter is the treatment.^2,7,17,18

Hypothermia

Regional anesthesia results in centrally mediated vasodilatation and inhibits peripheral vasoconstriction, transferring body heat from the core to the periphery through radiation, convection, conduction, and evaporation. Recognition of hypothermia and initiation of measures to return the patient to a normal temperature are important considerations19 (see Chapter 53).

Postdural Puncture Headache (PDPH)

PDPH is caused by leaking CSF through the dura, which can occur with spinal anesthesia or inadvertent dural puncture with an epidural. The occurrence of PDPH can lead to increased patient morbidity, delayed discharge, and increased readmission.^14,20 Symptoms usually occur 24 to 48 hours after dural puncture and typically resolve in one week.²⁰ Symptoms include a headache in the occipital-frontal region that intensifies when upright and declines when supine, nuchal rigidity, visual and auditory disturbances, and nausea and vomiting. Significant neurologic complications such as meningitis, intracranial tumors, and hemorrhage should be ruled out. Treatment is initially symptomatic and includes bed rest, fluids, caffeine, and analgesics. If persistent, an epidural blood patch is the definitive treatment and is highly successful (95% success rate). The anesthesia provider accesses the epidural space at one space below the dural puncture; 15 to 20 mL of the patient’s blood is drawn aseptically and administered through the epidural needle. The patient remains on bed rest for 30 to 60 minutes before ambulation. Complications include back pain, fever, meningitis, and arachnoiditis.^5,7,14,20

Neurologic Complications

The overall incidence of neurologic complications after neuraxial blockade is uncommon and permanent injury is rare.2 Palsies, paralysis, or pain should be reported immediately to the anesthesia provider and surgeon. This complication may be related to traumatic needle placement, bleeding or hematoma formation, surgical trauma, or injury related to a portion of the body being insensate. A neurologic consultation may be required to help diagnose and manage the patient’s condition.^5,7,21 Possible causes of postoperative neurologic deficits are given in Box 25.2.

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