Pain and brachial plexus lesions: evaluation of initial outcomes after reconstructive microsurgery and validation of a new pain severity scale (original) (raw)

Related papers

Treatment of Neuropathic Pain in Brachial Plexus Injuries

Treatment of Brachial Plexus Injuries [Working Title]

Brachial plexus injuries are commonly followed by chronic pain, mostly with neuropathic characteristics. This is due to peripheral nerve lesions, particularly nerve root avulsions, as well as upper limb amputations, and complex regional pain syndrome (CRPS). The differential diagnosis between CRPS and neuropathic pain is essential as the treatment is different for each of them. Medical treatments are the first step, but for refractory cases there are two main types of surgical alternatives: ablative techniques and neuromodulation. The first group involves destruction of the posterior horn deafferented neurons and usually provides a better pain control but has a 10% complication rate. The second group provides pain control with function preservation but with limited effectiveness. Each case has to be thoroughly evaluated to apply the treatment modality best suited for it. due to iatrogenia [8][9][10][11][12][13][14][15][16], particularly during lymph node biopsy [17, 18] or treatment of some malignancies [19]. The pain is chronic [20], persistent [7], constant [21], burning [22] and throbbing [17], with paroxysmal discharges [3, 6, 23], particularly upon gentle rubbing the affected area [4].

The effects of operative delay on the relief of neuropathic pain after injury to the brachial plexus

The journal of bone and joint surgery, 2006

We investigated the effect of delay before nerve repair on neuropathic pain after injury to the brachial plexus. We studied 148 patients, 85 prospectively and 63 retrospectively. The mean number of avulsed spinal nerves was 3.2 (1 to 5). Pain was measured by a linear visual analogue scale and by the peripheral nerve injury scale. Early repair was more effective than delayed repair in the relief from pain and there was a strong correlation between functional recovery and relief from pain.

Occurrence and Treatment of Pain After Brachial Plexus Injury

Clinical Orthopaedics and Related Research, 1988

The occurrence of pain was investigated in 118 patients with posttraumatic brachial plexus injuries (BPI). Ninety-five patients were operated upon by the same surgeon. Three to 14 years after BPI and reconstructive surgery, 91% of the patients experienced permanent pain that was severe in 40% and mild in 51% of cases. When early reconstructive surgery was successful, a significant decrease in pain occurred more frequently. For 57% of patients with pain, a plurimodal medical treatment with tricyclic antidepressants, antiepileptic drugs, and behavioral therapy efficiently reduced pain. For the patients with unbearable paroxystic pain, when medical treatment failed, the destruction of deafferented dorsal horns at the level of avulsion (Nashold procedure) could produce pain relief. In all cases psychosocial management produced early rehabilitation.

Outcome after brachial plexus injury surgery and impact on quality of life

Acta neurochirurgica, 2017

The aim of this study was to investigate outcomes after surgery for brachial plexus injury (BPI), not only motor outcomes but also the quality of life of the patients. We operated on 128 consecutive patients with BPI from 1992 to 2012. We documented the information on the injured nerve, level of injury, type of treatment used, timing of surgery, patient age, and preoperative and postoperative motor deficits. In 69 patients who agreed to participate in a quality of life study, additional assessments included functionality, pain, quality of life, patient satisfaction, and psychosocial health. Of patients who underwent only exploration and neurolysis, 35.3% showed a good quality of recovery. Patients who underwent nerve reconstruction using nerve grafting showed a better rate of good quality recovery (56.7%), and the results following nerve transfer depended on the type of transfer used. After surgery, 82.6% of patients showed significant improvement, 82.6% were satisfied, and 81.2% re...

Pain phenomena and sensory recovery following brachial plexus avulsion injury and surgical repairs

The Journal of Hand Surgery: Journal of the British Society for Surgery of the Hand, 2006

Seventy-six patients with severe brachial plexus avulsion injuries were studied using pain questionnaires and quantitative sensory testing. There was significant correlation between pain intensity and the number of roots avulsed prior to surgery (P ¼ 0.0004) and surgical repairs were associated with pain relief. Sensory recovery to thermal stimuli was observed, mainly in the C5 dermatome. Allodynia to mechanical and thermal stimuli was observed in the border zone of affected and unaffected dermatomes in 18% of patients assessed early (o6 months) and 37% patients at later stages. Pain and sensations referred to the original source of afferents occurred at a later stage (46 months) in 12% of patients and were related to nerve regeneration. By contrast, ''wrong-way'' referred sensations (e.g. down the affected arm while shaving or drinking cold fluids) were reported by 44% of patients and often occurred early, suggesting CNS plasticity. Understanding sensory mechanisms will help develop new treatments for severe brachial plexus injuries.

Nerve transfer to relieve pain in upper brachial plexus injuries: Does it work?

Clinical neurology and neurosurgery, 2017

Patients with C5 and C6 nerve root avulsion may complain from pain. For these patients, end-to-side nerve transfer of the superficial radial nerve into the median nerve is suggested to relieve pain. Eleven patients (with a primary brachial plexus reconstruction) undergoing end-to-side nerve transfer of the superficial radial nerve into the ulnovolar part of the median nerve were assessed. Pain before surgery was compared to that at 6-month follow-up using visual analog scale (VAS) scores. A significant difference was seen between the mean VAS before (8.5) and after surgery (0.7) (P=0.0). After the six-month follow-up, 6 patients felt no pain according to VAS, notwithstanding 5 patients with a mild pain. The evidence from the present study suggests that end-to-side nerve transfer of the superficial radial nerve into the ulnovolar part of the median nerve is an effective technique in reducing pain in patients with C5 and C6 nerve root avulsion.

Journal of Brachial Plexus and Peripheral Nerve Injury

2000

Rationale Carpal tunnel syndrome (CTS) is the most frequently encountered compressive neuropathy of the upper limb. The treatment of CTS ranges from conservative management to carpal tunnel release. Many patients with misconception about the potential morbidity and with the hope of successful conservative treatment delay the surgical release of carpal tunnel. This delay results in reduced recovery of sensory and motor median nerve function. Objective The aim of this study was to evaluate the influence of preoperative duration and severity of symptom on the outcome of carpal tunnel surgery. Method It included 45 cases of CTS, all treated with limited access open carpal tunnel release. The duration of symptoms (i.e., pain, numbness, tingling, waking up at night because of pain/numbness, difficulty in grasping small objects, and their preoperative severity) was noted using Boston CTS questionnaire. To investigate the outcome, patients were divided into three groups based on their duration of symptoms. Result Group1: The severity of symptoms was reduced to normal in a short period of time in patients who presented with duration of symptoms less than 6 months. Group 2: Patients in whom symptoms lasted for 6 to 12 months had reduced or delayed recovery of hand function as compared with first group. Group 3: Patients who had symptoms for more than 12 months had incomplete recovery of grip strength. Return to normal function took the longest time (median: 16 weeks) in this group. Conclusion This study suggests that patients who present late have delayed/incomplete relief of symptoms after carpal tunnel release.

Functional Outcomes after Treatment of Traumatic Brachial Plexus Injuries: Clinical Study

Turkish journal of trauma & emergency surgery, 2013

BACKGROUND: The aim of this study is to evaluate functional outcome and quality of life using statistically validated tools. METHODS: Participating patients were called and asked questions from the Short Form 36 (SF-36), the Disability of the Arm, Shoulder and Hand (DASH) questionnaire, a pain scale and an additional question on their satisfaction with surgery. RESULTS: A total of 33 patients were operated by a single surgeon (MI) between 1997 and 2010 at the Neurosurgery Department of Istanbul School of Medicine. Three of these patients refused to participate and three other patients were excluded, leaving 27 patients, with an average follow-up of 79,6 months, for review. The most common cause of traumatic brachial plexus injuries (TBPI) was motor vehicle accidents. Fourteen patients had isolated supraclavicular injuries and three patients had infraclavicular injuries. The remaining 10 patients' injuries were both supra-and infraclavicular. Avulsion was encountered in three patients. The patients who were operated within the first six months after trauma represented significantly better scores in DASH, SF-36 and pain scale. CONCLUSION: Statistically validated tests like DASH and SF-36 questionnaires are valuable tools for evaluating TBPI patients. Centers specialized in treating TBPI with surgery may use these tests pre-and postoperatively which lead to objective personalized evaluation of patients' subjective symptoms.

Priorities of Treatment and Rationale in Adult Brachial Plexus Injuries

Operative Brachial Plexus Surgery, 2021

In most adult brachial plexus injuries, a high-energy mechanism results in extensive longitudinal axonotmetic damage, frequently with multiple nerve root avulsions. Resources for restoring function are limited by the resulting absence of most or all proximal plexal nerves. When extradural injury permits nerve grafting, limited autogenous sources of nerve graft often prove insufficient. Delay in surgical management, slow rates of nerve regeneration, and long distances required for axon growth to reach a target muscle often prevent a successful outcome. These factors require prioritization of desired functions to make best use of limited available resources. Best options for restoring elbow, shoulder, and grasp function are discussed based upon pattern of injury, with an analysis of published results to aid the reader in evaluation and treatment of these complex and challenging injuries.