Neurolysis

Last updated October 05, 2021

Neurolysis is the application of physical or chemical agents to a nerve in order to cause a temporary degeneration of targeted nerve fibers. When the nerve fibers degenerate, it causes an interruption in the transmission of nerve signals. In the medical field, this is most commonly and advantageously used to alleviate pain in cancer patients.^[1]

Additionally, there is external neurolysis. Peripheral nerves move (glide) across bones and muscles. A peripheral nerve can be trapped by scarring of surrounding tissue which may lead to potential nerve damage or pain. An external neurolysis is when scar tissue is removed from around the nerve without entering the nerve itself.^[2]

Background

Neurolysis is a chemical ablation technique that is used to alleviate pain. Neurolysis is only used when the disease has progressed to a point where no other pain treatments are effective.^[1] A neurolytic agent such as alcohol, phenol, or glycerol is typically injected into the nervous system. Chemical neurolysis causes deconstructive fibrosis which then disrupts the sympathetic ganglia. This results in a reduction of pain signals being transmitted throughout the nerves.^[3] The effects generally last for three to six months.^[1]

Certain neurolysis techniques have been reported to be used in the early 1900s for the treatment of pain by the neurologist Mathieu Jaboulay. Early reported neurolysis helped treat vasospastic disorders such as arterial occlusive disease before the introduction of endovascular procedures.^[3]

Types

Celiac plexus neurolysis

Celiac plexus neurolysis (CPN) is the chemical ablation of the celiac plexus. This type of neurolysis is mainly used to treat pain associated with advanced pancreatic cancer. Traditional opioid medications used to treat pancreatic cancer patients may yield inadequate pain relief in the most advanced stages of pancreatic cancer, so the goal of CPN is to increase the efficiency of the medication. This in turn may lead to a decreased dosage, thereby decreasing the severity of the side effects.^[3] CPN is also used to decrease the chances of a patient developing an addiction for opioid medications due to the large doses commonly used in treatment.^[3]

Traditional CPN approaches and nerve blocks

CPN can be performed by percutaneous injection either anterior or posterior to the celiac plexus.^[4] CPN is generally performed complementary to nerve blocks, due to the severe pain associated with the injection itself. Neurolysis is commonly performed only after a successful celiac plexus block.^[4] CPN and celiac plexus block (CPB) are different in that CPN is permanent ablation whereas CPB is temporal pain inhibition.^[4]

There are multiple posterior percutaneous approaches, but no clinical evidence suggests that any one technique is more efficient than the rest. The posterior approaches generally utilize two needles, one at each side of the L1 vertebral body pointing towards the T12 vertebral body.^[3]

Increasing the spread of the injection may increase the efficacy of the neurolysis.^[3]

Endoscopic ultrasound-guided neurolysis

Endoscopic ultrasound (EUS)-guided neurolysis is a technique that performs neurolysis using a linear-array echoendoscope.^[5] The EUS technique is minimally invasive and is believed to be safer than the traditional percutaneous approaches. EUS-guided neurolysis technique can be used to target the celiac plexus, the celiac ganglion, or the broad plexus in the treatment of pancreatic cancer-associated pain.^[5]

EUS-guided celiac plexus neurolysis (EUS-CPN) is performed with either an oblique-viewing or forward-viewing echoendoscope and is passed through the mouth into the esophagus. From the gastroesophageal junction, EUS imaging allows the doctor to visualize the aorta, which can then be traced to the origin of the celiac artery. The celiac plexus itself cannot be identified, but is located relative to the celiac artery. The neurolysis is then performed with a spray needle that disperses a neurolytic agent, such as alcohol or phenol, into the celiac plexus.^[5]

EUS-CPN can be performed unilaterally (centrally) or bilaterally, however, there is no clinical evidence supporting the superiority of one over the other.^[5]

EUS-guided neurolysis can also be performed on the celiac ganglion and the broad plexus in a similar fashion to the EUS-CPN. The celiac ganglion neurolysis (EUS-CGN) is more effective than EUS-CPN and broad plexus neurolysis (EUS-BPN) is more effective than EUS-CGN.^[5]

Lumbar sympathetic neurolysis

Lumbar sympathetic neurolysis is typically used on patients with ischemic rest pain, generally associated with nonreconstructable arterial occlusive disease. Although the disease is the basis for this type of neurolysis, other diseases such as peripheral neuralgia or vasospastic disorders can receive lumbar sympathetic neurolysis for pain treatment.^[6]

Lumbar sympathetic neurolysis is performed between the L1-L4 vertebrae with separate injections at each vertebra junction. The chemicals used for neurolysis of the nerves cause destructive fibrosis and cause a disruption of the sympathetic ganglia. The vasomotor tone is decreased in the area affected by the neurolysis, which in addition to arteriovenous shunting, create a light pink appearance within the affected area. Lumbar sympathetic neurolysis alters the ischemic rest pain transmission by changing norepinephrine and catecholamine levels or by disturbing afferent fibers. This procedure is mainly used only when other feasible approaches to pain management are unable to be used.^[6]

Lumbar sympathetic neurolysis is performed by using absolute alcohol, but other chemicals such as phenol, or other techniques such as radiofrequency or laser ablation have been studied. To aid in the procedure, fluoroscopy or CT guidance is used. Fluoroscopic guidance is the most frequent, giving better real-time monitoring of the needle. The general technique of administering lumbar sympathetic neurolysis involves using three separate needles rather than one because it allows for better longitudinal spread of the chemicals.^[6]

Complications can arise from this procedure such as nerve root injury, bleeding, paralysis, and more. Complications have been seen to be diminished when using the aforementioned radiofrequency or laser ablation techniques in comparison to the injection of alcohol or phenol. Generally, approximately two-thirds of patients can expect a favorable outcome (pain relief with minimal complications). Overall, the minimally invasive technique of lumbar sympathetic neurolysis is important in the relief of ischemic rest pain.^[6]

Chemodenervation

Chemodenervation is a process used to manage focal muscle overactivity through the use of either phenol, alcohol, or one of the more recently discovered botulinum toxins (BoNTs).^[1] Chemodenervation is used as a complement to neurolysis. The agent of choice is injected into the muscle fibers as opposed to nerve tissue and the two work together to dull the neuronal signaling within the muscles.^[1]

The use of alcohol and phenol injections have different effects than the use of BoNTs. Neurolysis mediates the effects of alcohol and phenol injections but does not mediate the effects of BoNT injections. Phenol and alcohol are less expensive, faster acting, can treat larger areas and can be readministered or boostered in less than three months, however, those injections also require the patient to be sedated cause muscle scarring and can lead to muscle fibrosis.^[1] BoNT injections are easier to inject, better accepted by patients, and have reversible effects on muscles, however, they are more expensive, act very slowly, and the body can develop a resistance to them.^[1]

Related Research Articles

The peripheral nervous system (PNS) is one of two components that make up the nervous system of bilateral animals, with the other part being the central nervous system (CNS). The PNS consists of the nerves and ganglia outside the brain and spinal cord. The main function of the PNS is to connect the CNS to the limbs and organs, essentially serving as a relay between the brain and spinal cord and the rest of the body. Unlike the CNS, the PNS is not protected by the vertebral column and skull, or by the blood–brain barrier, which leaves it exposed to toxins and mechanical injuries.

The autonomic nervous system (ANS), formerly the vegetative nervous system, is a division of the peripheral nervous system that supplies smooth muscle and glands, and thus influences the function of internal organs. The autonomic nervous system is a control system that acts largely unconsciously and regulates bodily functions, such as the heart rate, digestion, respiratory rate, pupillary response, urination, and sexual arousal. This system is the primary mechanism in control of the fight-or-flight response.

Interventional radiology (IR) is a medical subspecialty that performs various minimally-invasive procedures using medical imaging guidance, such as x-ray fluoroscopy, computed tomography, magnetic resonance imaging, or ultrasound. IR performs both diagnostic and therapeutic procedures through very small incisions or body orifices. Diagnostic IR procedures are those intended to help make a diagnosis or guide further medical treatment, and include image-guided biopsy of a tumor or injection of an imaging contrast agent into a hollow structure, such as a blood vessel or a duct. By contrast, therapeutic IR procedures provide direct treatment—they include catheter-based medicine delivery, medical device placement, and angioplasty of narrowed structures.

Celiac plexus Complex network of nerves located in the upper abdomen

The celiac plexus, also known as the solar plexus because of its radiating nerve fibers, is a complex network of nerves located in the abdomen, near where the celiac trunk, superior mesenteric artery, and renal arteries branch from the abdominal aorta. It is behind the stomach and the omental bursa, and in front of the crura of the diaphragm, on the level of the first lumbar vertebra.

Esophagogastroduodenoscopy, also called by various other names, is a diagnostic endoscopic procedure that visualizes the upper part of the gastrointestinal tract down to the duodenum. It is considered a minimally invasive procedure since it does not require an incision into one of the major body cavities and does not require any significant recovery after the procedure. However, a sore throat is common.

The stellate ganglion is a sympathetic ganglion formed by the fusion of the inferior cervical ganglion and the first thoracic ganglion, which exists in 80% of cases. Sometimes, the second and the third thoracic ganglia are included in this fusion. The stellate ganglion is relatively big compared to much smaller thoracic, lumbar and sacral ganglia, and is polygonal in shape. Stellate ganglion is located at the level of C7, anterior to the transverse process of C7 and the neck of the first rib, superior to the cervical pleura and just below the subclavian artery. It is superiorly covered by the prevertebral lamina of the cervical fascia and anteriorly in relation with common carotid artery, subclavian artery and the beginning of vertebral artery which sometimes leaves a groove at the apex of this ganglion.

Occipital neuralgia (ON) is a painful condition affecting the posterior head in the distributions of the greater occipital nerve (GON), lesser occipital nerve (LON), third occipital nerve (TON), or a combination of the three. It is paroxysmal, lasting from seconds to minutes, and often consists of lancinating pain that directly results from the pathology of one of these nerves. It is paramount that physicians understand the differential diagnosis for this condition and specific diagnostic criteria. There are multiple treatment modalities, several of which have well-established efficacy in treating this condition.

A nerve plexus is a plexus of intersecting nerves. A nerve plexus is composed of afferent and efferent fibers that arise from the merging of the anterior rami of spinal nerves and blood vessels. There are five spinal nerve plexuses, except in the thoracic region, as well as other forms of autonomic plexuses, many of which are a part of the enteric nervous system. The nerves that arise from the plexuses have both sensory and motor functions. These functions include muscle contraction, the maintenance of body coordination and control, and the reaction to sensations such as heat, cold, pain, and pressure. There are several plexuses in the body, including:

Radiofrequency ablation (RFA), also called fulguration, is a medical procedure in which part of the electrical conduction system of the heart, tumor or other dysfunctional tissue is ablated using the heat generated from medium frequency alternating current. RFA is generally conducted in the outpatient setting, using either local anesthetics or conscious sedation anesthesia. When it is delivered via catheter, it is called radiofrequency catheter ablation.

Endoscopic ultrasound (EUS) or echo-endoscopy is a medical procedure in which endoscopy is combined with ultrasound to obtain images of the internal organs in the chest, abdomen and colon. It can be used to visualize the walls of these organs, or to look at adjacent structures. Combined with Doppler imaging, nearby blood vessels can also be evaluated.

The lumbar nerves are the five pairs of spinal nerves emerging from the lumbar vertebrae. They are divided into posterior and anterior divisions.

Spinal disc herniation is an injury to the cushioning and connective tissue between vertebrae, usually caused by excessive strain or trauma to the spine. It may result in back pain, pain or sensation in different parts of the body, and physical disability. The most conclusive diagnostic tool for disc herniation is MRI, and treatment may range from painkillers to surgery. Protection from disc herniation is best provided by core strength and an awareness of body mechanics including posture.

The lumbar ganglia are paravertebral ganglia located in the inferior portion of the sympathetic trunk. The lumbar portion of the sympathetic trunk typically has 4 lumbar ganglia. The lumbar splanchnic nerves arise from the ganglia here, and contribute sympathetic efferent fibers to the nearby plexuses. The first two lumbar ganglia have both white and gray rami communicates.

A laminotomy is an orthopaedic neurosurgical procedure that removes part of the lamina of a vertebral arch in order to relieve pressure in the vertebral canal. A laminotomy is less invasive than conventional vertebral column surgery techniques, such as laminectomy because it leaves more ligaments and muscles attached to the vertebral column intact and it requires removing less bone from the vertebra. As a result, laminotomies typically have a faster recovery time and result in fewer postoperative complications. Nevertheless, possible risks can occur during or after the procedure like infection, hematomas, and dural tears. Laminotomies are commonly performed as treatment for lumbar spinal stenosis and herniated disks. MRI and CT scans are often used pre- and post surgery to determine if the procedure was successful.

The TESSYS method is a minimally-invasive, endoscopic spinal procedure for the treatment of a herniated disc. It was a further development of the YESS method by the Dutch Dr Thomas Hoogland in the Alpha Klinik in Munich in 1989 and was first called THESSYS. The procedure involves performing a small foramenotomy and removal of soft tissue compressing the nerve root.

Brachial plexus block is a regional anesthesia technique that is sometimes employed as an alternative or as an adjunct to general anesthesia for surgery of the upper extremity. This technique involves the injection of local anesthetic agents in close proximity to the brachial plexus, temporarily blocking the sensation and ability to move the upper extremity. The subject can remain awake during the ensuing surgical procedure, or they can be sedated or even fully anesthetized if necessary.

Interventional pain management or interventional pain medicine is a medical subspecialty defined by the National Uniforms Claims Committee (NUCC) as, " invasive interventions such as the discipline of medicine devoted to the diagnosis and treatment of pain related disorders principally with the application of interventional techniques in managing sub acute, chronic, persistent, and intractable pain, independently or in conjunction with other modalities of treatment". Medicare Payment Advisory Commission (MedPAC) defined interventional techniques as, "minimally invasive procedures including, percutaneous precision needle placement, with placement of drugs in targeted areas or ablation of targeted nerves; and some surgical techniques such as laser or endoscopic diskectomy, intrathecal infusion pumps and spinal cord stimulators, for the diagnosis and management of chronic, persistent or intractable pain". Minimally invasive interventions such as facet joint injections, nerve blocks, neuroaugmentation, vertebroplasty, kyphoplasty, nucleoplasty, endoscopic discectomy, and implantable drug delivery systems are utilized in managing subacute or chronic pain.

A neurolytic block is a form of nerve block involving the deliberate injury of a nerve by freezing or heating ("neurotomy") or the application of chemicals ("neurolysis"). These interventions cause degeneration of the nerve's fibers and temporary interference with the transmission of nerve signals. In these procedures, the thin protective layer around the nerve fiber, the basal lamina, is preserved so that, as a damaged fiber regrows, it travels within its basal lamina tube and connects with the correct loose end, and function may be restored. Surgical cutting of a nerve (neurectomy), severs these basal lamina tubes, and without them to channel the regrowing fibers to their lost connections, over time a painful neuroma or deafferentation pain may develop. This is why the neurolytic is usually preferred over the surgical block.

The following Diagram is provided as an overview of and topical guide to the human nervous system:

Cancer pain can be caused by pressure on, or chemical stimulation of, specialised pain-signalling nerve endings called nociceptors, or by damage or illness affecting nerve fibers themselves.

References

1 2 3 4 5 6 7 Koyyalagunta, Dhanalakshmi; Burton, Allen W. (2010-08-01). "The Role of Chemical Neurolysis in Cancer Pain". Current Pain and Headache Reports. 14 (4): 261–267. doi:10.1007/s11916-010-0123-9. ISSN 1531-3433. PMID 20524161. S2CID 33263087.
↑ "External Neurolysis (peripheral nerve disorders) | Department of Neurosurgery". med.nyu.edu. Retrieved 2020-04-24.
1 2 3 4 5 6 Bahn, Bret M.; Erdek, Michael A. (2013-02-01). "Celiac Plexus Block and Neurolysis for Pancreatic Cancer". Current Pain and Headache Reports. 17 (2): 310. doi:10.1007/s11916-012-0310-y. ISSN 1531-3433. PMID 23299904. S2CID 28697699.
1 2 3 Gohil, Vishal B.; Klapman, Jason B. (2017-09-01). "Endoscopic Palliation of Pancreatic Cancer". Current Treatment Options in Gastroenterology. 15 (3): 333–348. doi:10.1007/s11938-017-0145-z. ISSN 1092-8472. PMID 28795293. S2CID 29892014.
1 2 3 4 5 Minaga, Kosuke; Takenaka, Mamoru; Kamata, Ken; Yoshikawa, Tomoe; Nakai, Atsushi; Omoto, Shunsuke; Miyata, Takeshi; Yamao, Kentaro; Imai, Hajime (2018-02-15). "Alleviating Pancreatic Cancer-Associated Pain Using Endoscopic Ultrasound-Guided Neurolysis". Cancers. 10 (2): 50. doi: 10.3390/cancers10020050 . PMC 5836082 . PMID 29462851.
1 2 3 4 Zechlinski, Joseph J.; Hieb, Robert A. (2016-06-01). "Lumbar Sympathetic Neurolysis: How to and When to Use?". Techniques in Vascular and Interventional Radiology. 19 (2): 163–168. doi:10.1053/j.tvir.2016.04.008. ISSN 1089-2516. PMID 27423998.

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[:2-1] 1 2 3 4 5 6 7 Koyyalagunta, Dhanalakshmi; Burton, Allen W. (2010-08-01). "The Role of Chemical Neurolysis in Cancer Pain". Current Pain and Headache Reports. 14 (4): 261–267. doi:10.1007/s11916-010-0123-9. ISSN 1531-3433. PMID 20524161. S2CID 33263087.

[2] "External Neurolysis (peripheral nerve disorders) | Department of Neurosurgery". med.nyu.edu. Retrieved 2020-04-24.

[:0-3] 1 2 3 4 5 6 Bahn, Bret M.; Erdek, Michael A. (2013-02-01). "Celiac Plexus Block and Neurolysis for Pancreatic Cancer". Current Pain and Headache Reports. 17 (2): 310. doi:10.1007/s11916-012-0310-y. ISSN 1531-3433. PMID 23299904. S2CID 28697699.

[:1-4] 1 2 3 Gohil, Vishal B.; Klapman, Jason B. (2017-09-01). "Endoscopic Palliation of Pancreatic Cancer". Current Treatment Options in Gastroenterology. 15 (3): 333–348. doi:10.1007/s11938-017-0145-z. ISSN 1092-8472. PMID 28795293. S2CID 29892014.

[:4-5] 1 2 3 4 5 Minaga, Kosuke; Takenaka, Mamoru; Kamata, Ken; Yoshikawa, Tomoe; Nakai, Atsushi; Omoto, Shunsuke; Miyata, Takeshi; Yamao, Kentaro; Imai, Hajime (2018-02-15). "Alleviating Pancreatic Cancer-Associated Pain Using Endoscopic Ultrasound-Guided Neurolysis". Cancers. 10 (2): 50. doi: 10.3390/cancers10020050 . PMC 5836082 . PMID 29462851.

[:3-6] 1 2 3 4 Zechlinski, Joseph J.; Hieb, Robert A. (2016-06-01). "Lumbar Sympathetic Neurolysis: How to and When to Use?". Techniques in Vascular and Interventional Radiology. 19 (2): 163–168. doi:10.1053/j.tvir.2016.04.008. ISSN 1089-2516. PMID 27423998.

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