Surgical Technique: Brachioradialis to Extensor Carpi Radialis Longus and Brevis Nerve Transfers for Tetraplegia.

Improving upper extremity function in high cervical spinal cord injury (SCI) patients with tetraplegia is a challenging task owing to the limited expendable donor muscles and nerves that are available. Restoring active wrist extension for these patients is critical because it allows for tenodesis grasp. This is classically achieved with brachioradialis (BR) to extensor carpi radialis brevis (ECRB) tendon transfer, but outcomes are suboptimal because BR excursion is insufficient and its origin proximal to the elbow further limits the functionality of the tendon transfer, particularly in the absence of elbow extension. As an alternative approach to restore wrist extension in patients with ICSHT group 1 SCI, we present the first clinical report of the BR to extensor carpi radialis longus (ECRL) and BR to ECRB nerve transfers.

Neurological outcome following delayed traction and fixation in severe tetraparesis consecutive to posterior decompression for Chiari malformation: a case report.

BACKGROUND: Chiari malformation type 1 (CM1) is a congenital hindbrain malformation characterized by herniation of the cerebellar tonsils below the foramen magnum. The term Chiari type 1.5 is used when herniation of the brainstem under the McRae line and anomalies of the craniovertebral junction are also present. These conditions are associated with several symptoms and signs, including headache, neck pain, and spinal cord syndrome. For symptomatic patients, surgical decompression is recommended. When radiographic indicators of craniovertebral junction (CVJ) instability or symptoms related to ventral brainstem compression are present, CVJ fixation should also be considered. CASE DESCRIPTION: We report the case of a 13-year-old girl who presented with severe tetraparesis after posterior decompression for Chiari malformation type 1.5, followed 5 days later by partial C2 laminectomy. Several months after the initial surgery, she underwent two fixations, first without and then with intraoperative cervical traction, leading to significant neurological improvement. DISCUSSION AND CONCLUSION: This case report underscores the importance of meticulous radiological analysis before CM surgery. For CM 1.5 patients with basilar invagination, CVJ fixation is recommended, and C2 laminectomy should be avoided. In the event of significant clinical deterioration due to nonadherence to these guidelines, our findings highlight the importance of traction with increased extension before fixation, even years after initial destabilizing surgery.

Sleeve gastrectomy as a bridge to maternity in a patient with obesity, infertility and tetraplegia. A case report.

Traumatic spinal cord injury (SCI) is a major cause of severe and permanent disability in young adults. Overweight and obesity are commonly observed among patients affected with SCI, with reports of a prevalence of over 60 and 30% respectively. Case report: A 34 year-old woman suffering from tetraplegia after sustaining a traumatic injury to C5-C6 at age 23 as a result of a motor vehicle accident was presented to our hospital's multidisciplinary bariatric team due to class II obesity. At the time of presentation to the team, eleven years after the accident, her BMI was calculated to be 39 Kg/m2 (weight 97 kg, height 1.57 meters). She was diagnosed with infertility while seeking pregnancy, and referred to our bariatric unit for weight loss. In addition, she had overcome the physical limitations of her injury, had a regular job and was engaged in regular physical activities such as swimming. In May 2017, she underwent laparoscopic sleeve gastrectomy (LSG) without complications and was discharged on postoperative day 2. 17 months following LSG, with a normal BMI, she became naturally pregnant. She had emergency cesarean at 35 weeks due to pneumonia but both patient and child recovered without sequelae. Currently, 4 years after surgery she maintains 37.11% total weight loss (weight 61 kg). She reports having a better quality of life with fewer medical intercurrencies. Conclusions: Patients with SCI and obesity, particularly women seeking to conceive, may be benefited by being referred to bariatric teams for assessment and treatment to improve results associated with sustained weight reduction.

[Surgical reconstruction of arm and hand functions in tetraplegia : Current concepts]. / Chirurgische Rekonstruktion der Arm- und Handfunktion bei Tetraplegie : Aktuelle Konzepte.

The reconstruction of arm and hand functions is of enormous importance for tetraplegic patients as it enables at least some degree of independence. Depending on the level of the spinal cord injury, certain residual functions are present in the arms which can be used for surgical reconstruction of upper extremity functions. By utilizing tendon and nerve transfers missing functions can at least be partially reconstructed. Tendon transfers are a proven technique with reliable results that can be performed at any time regardless of the type of accident. Due to the frequent presence of lower motor neuron damage, it is essential to consider the optimal time window for nerve transfer interventions. From the multitude of surgical options, an individual reconstruction plan must be created for each patient, which considers multiple factors. The combination of nerve transfers and later completing the functional reconstruction by tendon transfers is the preferred concept of the authors of this article.

Implications of thumb position and trajectory in tetraplegia grip reconstruction - a cohort study.

STUDY DESIGN: This study represents a retrospective observational cohort study. OBJECTIVES: The objective of this study was to investigate the impact of thumb position on postoperative patient-rated and functional outcomes in grip reconstruction surgery. SETTING: All consecutive adult patients with tetraplegia undergoing grip reconstruction surgery at the Swiss Paraplegic Centre between 06/2008 and 11/2020 were assessed for eligibility. METHODS: Standardized photo or film documentation was used for individually recreating and categorizing thumb position and trajectory during key pinch. Outcome measurements included key pinch strength, Canadian Occupational Performance Measure (COPM) and Grasp Release Test (GRT). RESULTS: Fifty-six hands of 44 patients (mean age 42.2 years, range 18-70 years) with a mean follow-up of 14.8 months (range 6 months to 12 years) were included. There was a significant postoperative improvement of key pinch strength, COPM score and GRT. COPM improvement was more pronounced for hands with more palmar abducted trajectories of the thumb. CONCLUSIONS: Regardless of reconstruction type, pinch strength, patient satisfaction and grasp and release abilities improved significantly after surgery. Thumb position and trajectory are strong determining factors for the selected outcome measurements.

Grasp and Release Test for Tetraplegic Hand Assessment: an update of the Grasp and Release Test.

The Grasp and Release Test (GRT) was originally developed to measure effectiveness of an implanted neuroprosthesis in people with tetraplegia. Its ease of use and lack of floor and ceiling effects culminated in recommendations for inclusion in a battery of tests to measure outcome following upper limb reconstructive surgery. However, the length of time taken to administer the GRT in a clinical setting, lack of instructions of accepted grasp patterns in the upper limb reconstructive surgery population and scoring procedures lead to differences in reporting outcomes using this measure. In order to ensure clinical utility for the upper limb reconstructive surgery population, revisions of the original test instructions have been made and are reported in this article. Further testing of the psychometric properties of the new measure are currently underway.

Improved walking capacity after complementary ankle-foot surgery and gait training in a person with an incomplete tetraplegia; a case report.

INTRODUCTION: The population of people with a spinal cord injury (SCI) is changing to a diverse population with an increasing number of incomplete lesions. Often, these individuals have the capacity to walk, but experience disabling gait impairments. CASE PRESENTATION: The course of a 34-year-old male with a chronic incomplete traumatic cervical SCI who initially could walk no more than a few steps with supervision or a wheeled walker is described. He participated in a clinical trial with Targeted Epidural Spinal Stimulation (TESS). After this trial, he was able to walk with a wheeled walker and bilateral orthosis over a distance of 100 meters. Despite these improvements, his main complaints were (1) difficulty to correctly preposition the feet, and (2) pain in his toe and calf muscles. An interdisciplinary approach and the use of structured gait analysis formed the basis for shared decision-making with the team and the patient to perform ankle-foot surgery followed by 2-month gait training with a body weight support system. After this trajectory his walking distance increased to 250 meters, with a wheeled walker; but now without orthosis and with an increased walking speed compared to pre-surgery. Additionally, there was reduction of pain and he experienced no disturbances during sleeping, washing and clothing anymore. DISCUSSION: This case shows that surgical interventions can improve the gait capacity even in case of chronic incomplete SCI. Furthermore, training with a body weight support system after medical-technical interventions is useful to utilize the full potential of these interventions.

The Surgical Restoration of Arm and Hand Function in Tetraplegic Patients.

BACKGROUND: There are approximately 140 000 people in Germany with spinal cord injury, with approximately 2400 new patients each year. Cervical spinal cord injuries cause, to varying degrees, weakness and impairment of everyday activities of the limbs (tetraparesis, tetraplegia). METHODS: This review is based on relevant publications retrieved by a selective search of the literature. RESULTS: From among 330 initially screened publications, 40 were included and analyzed. Muscle and tendon transfers, tenodeses, and joint stabilizations yielded reliable functional improvement of the upper limb. Tendon transfers improved the strength of elbow extension from M0 to an average of M3.3 (BMRC) and grip strength to approximately 2 kg. In the long term, 17-20% of strength is lost after active tendon transfers and slightly more after passive ones. Nerve transfers improved strength to M3 or M4 in over 80% of cases, with the best results overall in patients under 25 years of age who underwent early surgery (within 6 months of the accident). Combined procedures in a single operation have been found to be advantageous compared to the traditional multistep approach. Nerve transfers from intact fascicles at segmental levels above that of the spinal cord lesion have been found to be a valuable addition to the established varieties of muscle and tendon transfer. The reported long-term patient satisfaction is generally high. CONCLUSION: Modern techniques of hand surgery can help suitably selected tetraparetic and tetraplegic patients regain the use of their upper limbs. Competent interdisciplinary counseling about these surgical options should be offered as early as possible to all affected persons as an integral part of their treatment plan.

Quantifying Tenodesis Hand Function in Cervical Spinal Cord Injury: Implications for Function.

PURPOSE: Cervical spinal cord injury (SCI) has a profound effect on upper-extremity function. Individuals with stiffness and/or spasticity may have more, or less, useful tenodesis function. This study examined the variability present before any reconstructive surgery. METHODS: Tenodesis pinch and grasp were measured with the wrist in maximal active extension. Tenodesis pinch was the contact point of the thumb with the index finger proximal phalanx (T-IF:P1), middle phalanx (T-IF:P2), distal phalanx (T-IF:P3), or absent (T-IF:absent). Tenodesis grasp was the distance from the long finger to the distal palmar crease (LF-DPC). Activities of daily living function was assessed using the Spinal Cord Independence Measure (SCIM). RESULTS: The study included 27 individuals (4 females, 23 males; mean age 36 years, mean time since SCI 6.8 years). The mean International Classification for Surgery of the Hand in Tetraplegia (ICSHT) group classification was 3. In the dominant hand, individuals with a T-IF tenodesis pinch to P1 or P2 had significantly higher total SCIM scores (43.7 and 34.2, respectively) compared to those with absent T-IF tenodesis pinch (SCIM 17.8). Shorter LF-DPC distance with tenodesis grasp (improved finger closing) also correlated with improved SCIM mobility and total scores. No association was found between the ICSHT group and SCIM score or tenodesis measures. CONCLUSIONS: Quantifying tenodesis with pinch (T-IF) and grasp (LF-DPC) is a simple method to characterize hand movement in individuals with cervical SCI. Better tenodesis pinch and grasp were associated with improved activities of daily living performance. CLINICAL RELEVANCE: Differences in grasp function have implications for mobility, and differences in pinch function have implications for all functions, particularly self-care. These physical measurements could be used to assess movement changes after nonsurgical and surgical treatment in tetraplegia.

Spinal Cord Injury: Epidemiology, Spontaneous Recovery, and Hand Therapy for the Reconstructive Hand Surgeon.

People with spinal cord injury (SCI) prioritize hand function above all else as a reconstructive goal, yet remain a markedly undertreated population by hand surgeons. This review article provides an overview of the epidemiology of SCI and the unmet clinical need of these patients. Further, this article outlines the natural history of SCI, including the expected spontaneous recovery over time and the expectations of hand function when treated with hand therapy alone. This review aims to equip reconstructive hand surgeons with a sound understanding of the basic principles of SCI and recovery and provide a rationale for when to intervene with surgery. In the last decade, this field has changed dramatically with the advent of reliable nerve transfers, making referral and surgical intervention time-sensitive. Therefore this review aims to highlight the expectations from hand therapy alone in this group, the urgent need for early referral to allow nerve transfer options to be viable, and the strategies for overcoming the barriers to these referrals. This offers the opportunity for surgeons to expand their tetraplegia practices while maximizing the considerable contributions to the hand function and quality of life of these patients.

Current Concepts in Elbow Extension Reconstruction for the Tetraplegic Patient.

Individuals with C5 or C6 spinal cord injury (SCI) have paralysis of the triceps brachii, and the subsequent loss of elbow extension makes it impossible to reliably use their hands above shoulder level because of the inability to hold the elbow extended against gravity. For persons with cervical SCI, elbow extension can be restored with both tendon and nerve transfers. Elbow extension is necessary for dressing, eating, wheelchair locomotion, pressure relief maneuvers, independent transfers, and reaching objects above shoulder level. Deltoid-to-triceps and biceps-to-triceps tendon transfers have established efficacy and a longer history of use. Transfer of motor branches from the axillary nerve to triceps motor branches is new with no current published prospective studies but shows early promise. This review aims to highlight the amazing potential these procedures can have on the independence and quality of life for people with quadriplegia. Despite the immense benefit possible, fewer than 14% of eligible people with cervical SCI in the United States receive upper limb reconstructive surgery. Surgical timing is critical. A broader understanding and raised awareness of reconstructive options for elbow extension in people with quadriplegia will increase recognition of eligible patients and speed referral time to the appropriate practitioner.

Single-session repair of multiple pressure ulcers in non-ambulatory patients.

OBJECTIVE: Pressure ulcers (PUs) are highly prevalent and challenging wounds. In this study, patients with either tetraplegia or paraplegia, all of whom had multiple grade 4 PUs and who underwent single-session surgical treatment were included. In order to increase the mobility of the musculocutaneous flap, the gluteus maximus muscle, which cannot be used by immobile patients, was detached and inserted into the flap. METHOD: This was a retrospective case series and all PUs were reconstructed within the same surgical session. RESULTS: A total of nine patients participated in the study, all of whom were male. Mean age was 33 years (range: 20-42 years). Mean follow-up period was 14.3 months (range: 9-24 months). All patients had a successful single-session repair of all PUs. Total or partial flap losses were not observed. Mean and total number of reconstructed PUs were 2.55 and 23, respectively. The mean area of reconstructed open wounds per patient was 174.6cm2 and the mean operation duration was 253 minutes. The level of blood loss was acceptable as the decrease in haemoglobin levels was not more than 2g/dl for each patient. CONCLUSION: Multiple PUs can be repaired in one session using gluteus maximus musculocutaneous flaps in immobile patients. Based on the fact that the gluteus maximus is an essential muscle for ambulation, our approach can only be used in the treatment of patients with irreversible paraplegia or tetraplegia. When all prerequsities are met, the amount of blood loss and operation duration are acceptable, and returning the patient to a wound-free state can be achieved more quickly compared to multi-session repairs. Air-fluidised beds are vital tools for accomplishing single session repairs of multiple PUs. The data shows that the approach is safe and can be used in patients with multiple PUs.

Force-amplifying implant to improve key pinch strength in tendon transfer surgery: Cadaver model proof-of-concept.

The brachioradialis (BR) to flexor pollicis longus (FPL) tendon transfer surgery is a common procedure used to restore key pinch grip for incomplete spinal cord injury patients. However, the procedure only restores 22% of the physiological grip strength, which is important for successfully grasping objects and minimizing fatigue. The purpose of this study was to evaluate the efficacy of using a novel force-amplifying pulley implant to modify the standard BR to FPL tendon transfer surgery to improve key pinch grip strength in a human cadaver forearm model. A total of eight cadaveric specimens were mounted onto a custom testbed where a torque-controlled motor actuated the BR tendon to produce key pinch grip. In each cadaver, two experimental groups were examined: a standard and an implant-modified BR to FPL tendon transfer surgery. A force sensor mounted to the thumb recorded isometric key pinch grip forces over a range of input BR forces (2 N-25 N) applied in a ramp-and-hold protocol. Across the range of input BR forces, the average improvement in key pinch grip strength in the implant-modified surgery compared to the standard surgery was 58 ± 7.1% (ranging from 41% to 64% improvement). Throughout the experiments, we observed that the implant did not hinder the movement of the BR or FPL tendons. These results suggest that a BR to FPL tendon transfer surgery utilizing a force-amplifying pulley implant to augment force transmission can provide additional functional strength restoration over the standard procedure that directly sutures two tendons together.

How did intraoperative neuromonitorization prevent tetraplegia?

PURPOSE: Patients with mucopolysaccharidosis type IVA (MPS IVA) have many risk factors for myelopathy and paresis. These are spinal cord compression, bone stenosis, and soft tissue thickening with ligament laxity, deformity, odontoid hypoplasia, and atlantoaxial instability. Although most patients with MPS IVA appear generally healthy at birth, patients often show skeletal deformities within a few years. Surgical indications are difficult to determine. Historically, many physicians have used prophylactic decompression and fusion in young, asymptomatic MPS IVA patients to prevent cord compression. Although spinal cord decompression is usually required at the craniocervical junction in patients with MPS IVA, decompression may be required at other spinal cord levels as well. There is a risk of developing neurological damage during surgery. The most common causes are ischemia secondary to cardiac output deteriorated in the prone position or due to artery damage, and local trauma due to neck movements or traction while bringing the patient to the prone position. Neurophysiological monitoring is very important during surgery to reduce the risk of neurological damage in spinal cord surgery. In this case report, a case with loss of lower extremity neuromonitorization motor evoked potential (MEP) responses in the early period of surgery without any intervention to the craniocervical junction after prone positioning will be presented.

Restoration of elbow extension and construction of a "key grip" in people with tetraplegia. Comparative study of a surgical plan in one or two stages.

AIM: We report the comparative results of functional upper extremity surgery plans in patients with tetraplegia, including restoration of elbow extension and construction of a key grip in a "one-stage" or "two-stage" operation. MATERIALS AND METHODS: A series of 36 patients with tetraplegia, with a total of 45 operated upper limbs, was analyzed retrospectively with a mean follow-up of 23 months (13-39 months). We evaluated the analytical strength of elbow extension using the MRC (Medical Research Council) score, the strength of the key grip (kg/F) as well as the autonomy of the patients using functional scores; Lamb (/100) and QIF (Quadriplegia Index of Function) (/100). RESULTS: Sixteen upper limbs were included in the "one-stage" group and 29 in the "two-stage" group. The groups were comparable preoperatively. Elbow extension strength was 3.6/5 in the one-stage group versus 3.7/5, p=0.74. Grip strength was 1.8kg/F in the one-stage group versus 1.3kg/F, p=0.22. Regarding the functional scores, there was no statistically significant difference between the two groups for the Lamb score (p=0.46) and the QIF (p=0.42). There was no statistically significant difference in terms of the frequency of complications for the elbow (p=0.49) and for the hand (p=0.17). The total duration of the one-stage surgery plan averaged 7.5 months compared to 24.7 months for the two-stage plan, p<0.01. The mean follow-up for the one-stage group was 21 months versus 24 months for the two-stage group. CONCLUSION: The results of both plans are similar and indicate that the "one-stage" plan is a reliable option. This all-in-one surgical option reduces postoperative follow-up and dropout rates for patients during the plan timeframe. LEVEL OF EVIDENCE: IV; retrospective clinical series.

Upper Limb Nerve Transfer Surgery in Patients With Tetraplegia.

Importance: Cervical spinal cord injury (SCI) causes devastating loss of upper extremity function and independence. Nerve transfers are a promising approach to reanimate upper limbs; however, there remains a paucity of high-quality evidence supporting a clinical benefit for patients with tetraplegia. Objective: To evaluate the clinical utility of nerve transfers for reanimation of upper limb function in tetraplegia. Design, Setting, and Participants: In this prospective case series, adults with cervical SCI and upper extremity paralysis whose recovery plateaued were enrolled between September 1, 2015, and January 31, 2019. Data analysis was performed from August 2021 to February 2022. Interventions: Nerve transfers to reanimate upper extremity motor function with target reinnervation of elbow extension and hand grasp, pinch, and/or release. Main Outcomes and Measures: The primary outcome was motor strength measured by Medical Research Council (MRC) grades 0 to 5. Secondary outcomes included Sollerman Hand Function Test (SHFT); Michigan Hand Outcome Questionnaire (MHQ); Disabilities of Arm, Shoulder, and Hand (DASH); and 36-Item Short Form Health Survey (SF-36) physical component summary (PCS) and mental component summary (MCS) scores. Outcomes were assessed up to 48 months postoperatively. Results: Twenty-two patients with tetraplegia (median age, 36 years [range, 18-76 years]; 21 male [95%]) underwent 60 nerve transfers on 35 upper limbs at a median time of 21 months (range, 6-142 months) after SCI. At final follow-up, upper limb motor strength improved significantly: median MRC grades were 3 (IQR, 2.5-4; P = .01) for triceps, with 70% of upper limbs gaining an MRC grade of 3 or higher for elbow extension; 4 (IQR, 2-4; P < .001) for finger extensors, with 79% of hands gaining an MRC grade of 3 or higher for finger extension; and 2 (IQR, 1-3; P < .001) for finger flexors, with 52% of hands gaining an MRC grade of 3 or higher for finger flexion. The secondary outcomes of SHFT, MHQ, DASH, and SF36-PCS scores improved beyond the established minimal clinically important difference. Both early (<12 months) and delayed (≥12 months) nerve transfers after SCI achieved comparable motor outcomes. Continual improvement in motor strength was observed in the finger flexors and extensors across the entire duration of follow-up. Conclusions and Relevance: In this prospective case series, nerve transfer surgery was associated with improvement of upper limb motor strength and functional independence in patients with tetraplegia. Nerve transfer is a promising intervention feasible in both subacute and chronic SCI.

[Skiing Accident with Temporary Tetraparesis]. / Skisturz mit temporärer Tetraparese.

Skiing Accident with Temporary Tetraparesis Abstract. Summary: We present the case of a 74-year-old patient who initially suffered transient tetraplegia after a skiing accident. On presentation to the general practitioner, pyramidal tract signs as well as disturbances of fine motor function in both hands could be observed. MRI examinations of the cervical spine revealed high-grade spinal stenosis at level C5 with myelon compression. Surgical decompression of the spial cord, followed by fusion of the corresponding cervical vertebral bodies, was performed. After surgery and three weeks of neurological rehabilitation, the patient feels well and has recovered except for still existing hypesthesia of the fingertips.

Quantifying Donor Deficits Following Nerve Transfer Surgery in Tetraplegia.

PURPOSE: Nerve transfer (NT) surgery can improve function in people with cervical spinal cord injury (SCI). However, the impact of donor nerve deficits remains unclear. The purpose of this study was to quantify donor deficits experienced by individuals with cervical SCI following NT. METHODS: This prospective single-arm, comparative study included people with SCI undergoing upper extremity NTs. Myometry was used to assess muscle strength at baseline and follow-up. The Spinal Cord Independence Measure was used to measure the ability to perform activities of daily living. RESULTS: Ten individuals underwent 20 NTs to restore elbow extension (donor, posterior deltoid; n = 2), hand opening (donor, supinator; n = 7), and hand closing (donor, brachialis; n = 11). Shoulder abduction strength decreased (-5.6% at early and -4.5% late follow-up) in the elbow extension NT. Wrist extension strength decreased at early (-46.9% ± 30.3) and increased by late (76.4% ± 154.0) follow-up in the hand opening NT. No statistically significant change in elbow flexion strength was noted in the hand closing NT. Spinal Cord Independence Measure scores did not change significantly between baseline and early postoperative follow-up; they improved at late follow-up. CONCLUSIONS: Use of expendable donor nerves with redundant function to perform NT surgery has relatively little impact on strength or capacity to perform activities of daily living, even in the unique and highly vulnerable SCI population. Early, temporary loss in wrist extension strength can be seen after the supinator to posterior interosseous nerve transfer. This study offers quantitative data about possible diminution of donor function after NT, enabling hand surgeons to better counsel individuals contemplating upper extremity reconstruction. TYPE OF STUDY/LEVEL OF EVIDENCE: Prognostic I.

Predicting strength outcomes for upper limb nerve transfer surgery in tetraplegia.

We report a retrospective study of 112 nerve transfers in 39 participants to investigate predictors of strength outcomes after nerve transfer surgery for upper limb reanimation in tetraplegia. We measured clinical and pre- and intraoperative neurophysiological assessment variables and compared them with strength outcomes 2 years after nerve transfer surgery. We found statistically significant improvement in Medical Research Council strength grades after nerve transfer surgery with lower cervical spine injuries (between one and two grades), lower donor nerve stimulation thresholds (half of a grade), greater motor evoked potential activity in recipient nerves (half of a grade) and greater muscle responses to intraoperative stimulation of donor (half of a grade) and recipient nerves (half of a grade).Level of evidence: III.

Rare case of real-time observation of paralytic deterioration after cervical dislocation in the hyperacute phase.

BACKGROUND: There have been no prior reports of real-time detailed records leading to complete quadriplegia immediately after fracture dislocation in high-energy trauma. Here, we report a case of cervical dislocation in which the deterioration to complete motor paralysis (modified Frankel B1) and complete recovery (Frankel E) could be monitored in real time after reduction in the hyperacute phase. CASE PRESENTATION: A 65-year-old man was involved in a car accident and sustained a dislocation at the C5/6 level (Allen-Ferguson classification: distractive flexion injury stage IV). His paralysis gradually deteriorated from Frankel D to C 2 hours after the injury and from Frankl C to B 5 hours after the injury. His final neurological status immediately before reduction was Frankel B1 (complete motor paralysis with sensation only in the perianal region). Reduction was completed within 6 h and 5 min after injury, and spinal fusion was subsequently performed. The patient exhibited rapid motor recovery immediately after surgery, and was able to walk independently on postoperative day 14. CONCLUSIONS: This case suggests that there is a mixture of cases in which the spinal cord has not been catastrophically damaged, even if the patient has complete motor paralysis. Prompt reduction has the potential to improve neurological function in such cases.