Acute and long-term clinical, neuropsychological and return-to-work sequelae following electrical injury: a retrospective cohort study

OBJECTIVE

To determine acute and long-term clinical, neuropsychological, and return-to-work (RTW) effects of electrical injuries (EIs). This study aims to further contrast sequelae between low-voltage and high-voltage injuries (LVIs and HVIs). We hypothesise that all EIs will result in substantial adverse effects during both phases of management, with HVIs contributing to greater rates of sequelae.

DESIGN

Retrospective cohort study evaluating EI admissions between 1998 and 2015.

SETTING

Provincial burn centre and rehabilitation hospital specialising in EI management.

PARTICIPANTS

All EI admissions were reviewed for acute clinical outcomes (n=207). For long-term outcomes, rehabilitation patients, who were referred from the burn centre (n=63) or other burn units across the province (n=65), were screened for inclusion. Six patients were excluded due to pre-existing psychiatric conditions. This cohort (n=122) was assessed for long-term outcomes. Median time to first and last follow-up were 201 (68-766) and 980 (391-1409) days, respectively.

OUTCOME MEASURES

Acute and long-term clinical, neuropsychological and RTW sequelae.

RESULTS

Acute clinical complications included infections (14%) and amputations (13%). HVIs resulted in greater rates of these complications, including compartment syndrome (16% vs 4%, p=0.007) and rhabdomyolysis (12% vs 0%, p<0.001). Rates of acute neuropsychological sequelae were similar between voltage groups. Long-term outcomes were dominated by insomnia (68%), anxiety (62%), post-traumatic stress disorder (33%) and major depressive disorder (25%). Sleep difficulties (67%) were common following HVIs, while the LVI group most frequently experienced sleep difficulties (70%) and anxiety (70%). Ninety work-related EIs were available for RTW analysis. Sixty-one per cent returned to their preinjury employment and 19% were unable to return to any form of work. RTW rates were similar when compared between voltage groups.

CONCLUSIONS

This is the first investigation to determine acute and long-term patient outcomes post-EI as a continuum. Findings highlight substantial rates of neuropsychological and social sequelae, regardless of voltage. Specialised and individualised early interventions, including screening for mental health concerns, are imperative to improvingoutcomes of EI patients.

Electrical injuries in the emergency department: an evidence-based review

Electrical injuries can be caused by exposure to current from low-voltage and high-voltage sources as well as lightning strikes, and the circumstances of the exposure will dictate management strategies. Human tissues have varying resistance characteristics and susceptibility to damage, so injuries may be thermal, electrical, and/or mechanical, potentially causing burns, thrombosis, tetany, falls, and blast injury. This issue reviews the types of trauma seen with electrical injury and how body systems can be affected by occult or delayed effects, and the optimal evidence-based resuscitation and management strategies associated with each.

Pediatric Emergency Medicine Simulation Curriculum: Electrical Injury

Introduction

Electrical injuries are rare but potentially life-threatening medical emergencies that require providers to manage a critically ill patient while recognizing and treating the unique sequelae associated with the diagnosis. This simulation case is designed to give pediatric and emergency medicine residents, fellows, attendings, and nurses the opportunity to practice these skills in a realistic setting.

Methods

This simulation-based curriculum was designed for a high-fidelity mannequin in an emergency department resuscitation room but can be adapted to fit a variety of learning environments. The case featured a 16-year-old boy presenting to the emergency department after arresting in the field after sustaining an electrical injury. He developed ventricular tachycardia during the simulation and had significant hyperkalemia, requiring emergent management. The included debriefing tools assisted instructors in providing formative feedback to learners.

Results

A total of 40 residents, medical students, and fellows participated in this scenario and provided overwhelmingly positive feedback about the learning experience. Mean Likert scores for participant confidence related to learning objectives after the simulation were 4 or greater on a 5-point scale.

Discussion

This case was developed to help learners at various levels of training recognize and manage a low-frequency, high-acuity scenario in a standardized environment. Participants specifically had the opportunity to perform airway management, cardiopulmonary resuscitation, defibrillation, and management of hyperkalemia, which may present in real life from a multitude of etiologies. The included materials helped prepare and assist facilitators with debriefing, supplemental education, and bidirectional feedback.

Electrical injuries. Biological values measurements as a prediction factor of local evolution in electrocutions lesions

RATIONALE

Taking into account the incidence and the severity of electrocutions, we consider it extremely necessary to find effective, appropriate and particularized therapeutic solutions aimed at improving the survival, decreasing the mortality, ensuring a superior functional and aesthetic effect and facilitating the social reintegration. Given the severity of the general condition of the electrically injured patient and the fact that any worsening of the lesions has a systemic echo, the selection of the timing for re-excision is very important. The postponement of the surgical timing can break the precarious metabolic equilibrium and can hasten the installation of the multisystem organ failure (MSOF).

OBJECTIVE

The study is intended to establish a possible connection between the clinical evolution of the electrically injured patient and the dynamics of three important biological parameters, able to provide data concerning the therapeutic attitude to be followed. The patients with a diagnostic of high-voltage electrocution, who will be admitted to the Clinic, will be followed for a period of 2 years. The parameters to be followed daily will be: - Creatin-kinase, as a marker of muscular damage. - Hemoglobin, as a marker of tissue oxygenation. - Leukocytes, as an indicator of a possible septic evolution. The therapeutic alternatives, including the administration of antiplatelet drugs will be studied.

METHODS AND RESULTS

In the period October 2010-June 2013 a total of 12 cases of high-voltage electrocution were admitted in our clinic. Among these, some could be placed in the study of 7 cases, as the remaining patients died within the first 24 hours of hospitalization due to the endured lesions. All the patients were admitted to the ICU ward that supported the treatment and monitoring until their stabilization, at which time they were transferred to the ward. All the patients received anti-thromboxane treatment from their admission (injectable NSAIDs associated with antisecretory drugs). By mutual agreement with ICU service, Dipyridamole was not introduced because of the "steal effect" in the viable areas to the detriment of the already ischemic areas, the drug effect being obvious in vitro, but hard to be proven in the clinical case. The relationship between the CK level and the clinical appearance of the ischemic areas is relative. We cannot conclude that an increased level of CK is equivalent to an enlarged ischemic area and even less it does not provide us direct information concerning the best time for re-excision. The presence of a viable blood supply around the necrotic tissue will lead to an important resorption of degradation products in that area, a quasinormal level of CK having no value. The sealing of the necrosis areas and the lack of immediate resorption does not have a positive prognostic value. Taking into account that the electrocutions are mostly multiple injuries, the CK level can increase even after some muscular damages, fractures, independent of the actual electrocution lesion. In one case, the patient suffered from electrocution at both thoracic limbs. With the carbonization of the hands and grifa installed up to the level of the elbow fold, he stayed for 6 hours at the accident site until he had been recovered. At the moment of presentation to the hospital, his consciousness condition was satisfactory but the CK level was of over 20000 IU, becoming rapidly non-detectable, in combination with black urine. The patient's condition deteriorated quickly, and, although the bilateral shoulder disarticulation has been carried out, he died in the next 12 hours.

DISCUSSION

As a conclusion, the CK level did not prove itself a prognostic for the surgical timing or the actual surgical attitude and could be influenced by a whole series of factors, dependent or not on the electrocution lesion. A radical attitude is to be preferred in cases with established ischemia; the prognostic being the more reserved the larger the damage and the longer the period of time from the event. The established treatment is of renal support and treatment of acute renal injury (AKI) subsequently installed. An increased level of leukocytes is always present as in any severe trauma, even if there are no immediate signs of infection of the electrocution lesions. Taking into account that the electrocution lesion as well as the one caused by burning destroys the natural defense barrier represented by the skin, the infection risk is major and that is why the therapeutic protocol stipulates the immediate establishment of a treatment with broad-spectrum antibiotics or with an association of antibiotics. The increase of the leukocytes level under antibiotics treatment involves either the contamination with a germ that is not sensitive to the respective antibiotic or the persistence of necrosis areas which secondarily infect, and where antibiotic penetration is very low. Therefore, the excision of the compromised tissues is an absolute necessity. In terms of prognostic, the increase of the leukocytes number signified an insufficient excision and indicated the resuming and deepening of the excisions. Taking into account that the patient has been admitted through the ICU service, the risk of contracting severe infections with selected germs is real. Another risk is that of infection with Clostridium difficile following the prolonged utilization of broad-spectrum antibiotics, especially in patients with associated diseases and reduced immunity per primam. The existence of completely separate circuits should solve the problem of contamination with bacteria of selected species; unfortunately, in our cases, we have faced this problem and the utilization of last choice antibiotics (Imipenem, Vancomycin, Targocid, etc.) as well as the association of immunoglobulins was necessary. All the patients admitted in the study received anti-thromboxane drugs in order to limit the ischemic process at tissue level. Despite the efforts we have made, the lack of blood and its derivatives or simply the negligence in patient monitoring, allowed the decrease, even transient of the Hb level, sometimes only for a few hours, but enough to allow the deepening of the ischemic lesions. Excisions were carried out in all the patients in emergency or even amputations of the extremities, with the wish to limit the extension of the ischemic lesions and the resorption of cell degradation products. The amputations performed in emergency did not always represent a saving solution; however, they remained the most effective measures when they were carried out immediately after the accident and obviously in viable tissue. The increase of CK is not an indicative factor itself in making re-excisions but orients the therapeutic approach, the utilization of the dialysis when the values do not decrease by treatment for renal support and the forcing of diuresis is required. The normalization of CK indicates the time when we can start the covering of the defects resulted as a consequence of the excisions. The level of the leukocytes represents both a prognostic factor and an indicative factor for the re-excision of the ischemic areas. An increased level under antibiotic therapy signifies either an incomplete excision or the contamination with flora resisting to the antibiotic that has been used. In the light of findings in the caring of the patients with electrocutions, I propose several caring/assessment protocols for the severe electrically injured patient.

Effect of electromagnetic radiation on the coils used in aneurysm embolization

This study evaluated the effects of electromagnetic radiation in our daily lives on the coils used in aneurysm embolization. Faraday's electromagnetic induction principle was applied to analyze the effects of electromagnetic radiation on the coils used in aneurysm embolization. To induce a current of 0.5mA in less than 5 mm platinum coils required to stimulate peripheral nerves, the minimum magnetic field will be 0.86 μT. To induce a current of 0.5 mA in platinum coils by a hair dryer, the minimum aneurysm radius is 2.5 mm (5 mm aneurysm). To induce a current of 0.5 mA in platinum coils by a computer or TV, the minimum aneurysm radius is 8.6 mm (approximate 17 mm aneurysm). The minimum magnetic field is much larger than the flux densities produced by computer and TV, while the minimum aneurysm radius is much larger than most aneurysm sizes to levels produced by computer and TV. At present, the effects of electromagnetic radiation in our daily lives on intracranial coils do not produce a harmful reaction. Patients with coiled aneurysm are advised to avoid using hair dryers. This theory needs to be proved by further detailed complex investigations. Doctors should give patients additional instructions before the procedure, depending on this study.

Bilateral ultrasound-guided supraclavicular block in a patient with severe electrocution injuries of the upper extremities

The performance of bilateral supraclavicular brachial plexus nerve blocks is controversial. We present the challenging case of a 29-year-old male who suffered bilateral high-voltage electrocution injuries to the upper extremities, resulting in severe tissue damage, sensory and motor deficits, and wounds in both axillae. This injury necessitated bilateral below-elbow amputations. His postoperative course was complicated by pain refractory to intravenous narcotics. The decision was made to attempt bilateral supraclavicular brachial plexus blocks. Our concerns with this approach included the risks of pneumothorax and respiratory failure due to phrenic nerve block. Initial attempts at brachial plexus blockade using nerve stimulation were unsuccessful; therefore, ultrasound guidance was employed. With vigilant monitoring in an intensive care unit setting, we were able to safely perform bilateral continuous supraclavicular brachial plexus nerve blocks with an excellent analgesic response and no noted complications.

Long-term sequelae of electrical injury

OBJECTIVE

To summarize the current evidence-based knowledge about the long-term sequelae of injuries from electrical current.

QUALITY OF EVIDENCE

MEDLINE was searched for English-language articles published in the past 20 years using the following search terms: electrical, injuries, wound, trauma, accident, sequelae, long-term, follow-up, and aftereffects. For obvious reasons, it is unethical to randomly study electrical injury in controlled clinical trials. By necessity, this topic is addressed in less-rigorous observational and retrospective work and case studies. Therefore, the strength of the literature pertaining to the long-term sequelae of electrical injury is impaired by the necessity of retrospective methods and case studies that typically describe small cohorts.

MAIN MESSAGE

There are 2 possible consequences of electrical injury: the person either survives or dies. For those who survive electrical injury, the immediate consequences are usually obvious and often require extensive medical intervention. The long-term sequelae of the electrical injury might be more subtle, pervasive, and less well defined, but can include neurologic, psychological, and physical symptoms. In the field of compensation medicine, determining causation and attributing outcome to an injury that might not result in objective clinical findings becomes a considerable challenge.

CONCLUSION

The appearance of these consequences of electrical injury might be substantially delayed, with onset 1 to 5 or more years after the electrical injury. This poses a problem for patients and health care workers, making it hard to ascribe symptoms to a remote injury when they might not arise until well after the incident event.

Bilateral four-part anterior fracture dislocation of the shoulder--a case report and review of literature

Although bilateral anterior dislocation of shoulder is not that uncommon, there have been only 12 published reports on bilateral anterior fracture dislocation of shoulder. The associated fractures have mostly been greater tuberosity fractures with bilateral three part fractures being reported in only two cases. To our knowledge, a bilateral four part anterior fracture dislocation of the shoulder has not yet been reported in the English literature. We here report a case of bilateral anterior fracture dislocation with four part fracture of both proximal humeri in a 60-year-old male due to electrocution. Considering the comparatively old age of the patient and excessive comminution of both the fractures, a bilateral hemiarthroplasty was done. At the last follow-up after more than 2 years, the patient was pain free with ability to comfortably carry out most of the activities of daily life. Through our case report, we highlight the rarity of the condition and review the available literature on the subject. We also emphasize the importance of meticulous perioperative planning when dealing with such cases to ensure a satisfactory long-term outcome.

Intensity and localization of trauma in non-fatal electrical injuries

BACKGROUND

Electrical injuries currently remain a worldwide problem. In Turkey, burns are relatively small in number among injuries overall, but they continue to be a major public health problem. Electrical injuries may occur due to high- or low-voltage contact. Injuries due to low voltage usually occur at home. High-voltage injuries are usually work-related and result from a shorter contact, but may cause serious tissue destruction and secondary injuries.

METHODS

The objective of this study was to review a medical institution's experience with electrical injuries between 1997-2005. The institution admitted 55 electrical injury cases throughout this period. A computerized burns registry was used for data collection and analysis.

RESULTS

The burn causes differed among age groups and between the sexes, with males constituting 89.1% of the electrical burn patients. Forty-one of the injuries were due to high voltage whereas 14 injuries were due to low voltage. Complications were most common in the high-voltage group. Mean length of stay was longest in this group, at 33.69+/-21.13 days, and the patients in this group also required the most operations.

CONCLUSION

Work-related activity was responsible for the majority of these high-voltage injuries, with the most common occupations being linemen and electricians. These patients tended to be younger men in the prime of their working lives. Our study underlines the need for stronger efforts aimed at prevention, such as better public education and strict regulations regarding the distribution and use of electricity.

Effect of an electronic control device exposure on a methamphetamine-intoxicated animal model

OBJECTIVES

Because of the prevalence of methamphetamine abuse worldwide, it is not uncommon for subjects in law enforcement encounters to be methamphetamine-intoxicated. Methamphetamine has been present in arrest-related death cases in which an electronic control device (ECD) was used. The primary purpose of this study was to determine the cardiac effects of an ECD in a methamphetamine intoxication model.

METHODS

Sixteen anesthetized Dorset sheep (26-78 kg) received 0.0 mg/kg (control animals, n = 4), 0.5 mg/kg (n = 4), 1.0 mg/kg (n = 4), or 1.5 mg/kg (n = 4) of methamphetamine hydrochloride as a slow intravenous (IV) bolus during continuous cardiac monitoring. The animals received the following exposures in sequence from a TASER X26 ECD beginning at 30 minutes after the administration of the drug: 1) 5-second continuous exposure, 2) 15-second intermittent exposure, 3) 30-second intermittent exposure, and 4) 40-second intermittent exposure. Darts were inserted at the sternal notch and the cardiac apex, to a depth of 9 mm. Cardiac motion was determined by thoracotomy (smaller animals, < or = 32 kg) or echocardiography (larger animals, > 68 kg). Data were analyzed using descriptive statistics and chi-square tests.

RESULTS

Animals given methamphetamine demonstrated signs of methamphetamine toxicity with tachycardia, hypertension, and atrial and ventricular ectopy in the 30-minute period immediately after administration of the drug. Smaller animals (n = 8, < or = 32 kg, mean = 29.4 kg) had supraventricular dysrhythmias immediately after the ECD exposures. Larger animals (n = 8, > 68 kg, mean = 72.4) had only sinus tachycardia after the exposures. One of the smaller animals had frequent episodes of ventricular ectopy after two exposures, including runs of delayed onset, nonsustained six- to eight-beat unifocal and multifocal ventricular tachycardia that spontaneously resolved. This animal had significant ectopy prior to the exposures as well. Thoracotomy performed on three smaller animals demonstrated cardiac capture during ECD exposure consistent with previous animal studies. In the larger animals, none of the methamphetamine-intoxicated animals demonstrated cardiac capture. Two control sheep showed evidence of capture similar to the smaller animals. No ventricular fibrillation occurred after the exposure in any animal.

CONCLUSIONS

In smaller animals (32 kg or less), ECD exposure exacerbated atrial and ventricular irritability induced by methamphetamine intoxication, but this effect was not seen in larger, adult-sized animals. There were no episodes of ventricular fibrillation after exposure associated with ECD exposure in methamphetamine-intoxicated sheep.

II.2. Electrical safety

Correct use of medical equipment within the clinical environment is of prime importance. This includes awareness of the safety issues regarding equipment, particular when it is an electrically powered device. Incidents can occur in the clinic in which a medical device is suspected of contributing to patient or staff injury. It is important that one can identify in advance any potential hazards which may arise with electrical equipment due to technical or environmental factors. This paper gives an overview of electrical safety.

II.1. Elementary electrodynamics

The paper describes the physical phenomena involved in the conduction of electricity, with particular reference to living tissue. The conduction of electricity depends on the flow of charge carriers in the material, while the dielectric properties are due to the rotation of dipoles that can align along an applied electric field. The relation between the electric variables in a conducting medium and their physical meanings are explained. The phenomena responsible for the electric and dielectric properties of living tissues are described. The presence of cells limits the flow of charge carriers, in particular at low frequency, and the membranes are responsible for dielectric relaxation. The passive response of cell membranes to weak applied signals enables bioelectrical tissue characterisation. Practical tools for electrical impedance spectroscopy are given with an overview of the most recent applications.

The diagnosis and management of electrical injuries

Electrical injuries to the extremity can result in significant local tissue damage and systemic problems. An understanding of the pathophysiology of electrical injuries is critical to the medical and surgical management of patients who sustain these injuries.

Echocardiographic evaluation of a TASER-X26 application in the ideal human cardiac axis

OBJECTIVES

TASER electronic control devices (ECDs) are used by law enforcement to subdue aggressive persons. Some deaths temporally proximate to their use have occurred. There is speculation that these devices can cause dangerous cardiac rhythms. Swine research supports this hypothesis and has reported significant tachyarrhythmias. It is not known if this occurs in humans. The objective of this study was to determine the occurrence of tachyarrhythmias in human subjects subjected to an ECD application.

METHODS

This was a prospective, nonblinded study. Human volunteers underwent limited echocardiography before, during, and after a 10-second TASER X26 ECD application with preplaced thoracic electrodes positioned in the upper right sternal border and the cardiac apex. Images were analyzed using M-mode through the anterior leaflet of the mitral valve for evidence of arrhythmia. Heart rate (HR) and the presence of sinus rhythm were determined. Data were analyzed using descriptive statistics.

RESULTS

A total of 34 subjects were enrolled. There were no adverse events reported. The mean HR prior to starting the event was 108.7 beats/min (range 65 to 146 beats/min, 95% CI = 101.0 to 116.4 beats/min). During the ECD exposure, the mean HR was 120.1 beats/min (range 70 to 158 beats/min, 95% CI = 112.2 to 128.0 beats/min) and a mean of 94.1 beats/min (range 55 to 121 beats/min, 95% CI = 88.4 to 99.7 beats/min) at 1 minute after ECD exposure. Sinus rhythm was clearly demonstrated in 21 (61.7%) subjects during ECD exposure (mean HR 121.4 beats/min; range 75 to 158 beats/min, 95% CI = 111.5 to 131.4). Sinus rhythm was not clearly demonstrated in 12 subjects due to movement artifact (mean HR 117.8 beats/min, range 70 to 152 beats/min, 95% CI = 102.8 to 132.8 beats/min).

CONCLUSIONS

A 10-second ECD exposure in an ideal cardiac axis application did not demonstrate concerning tachyarrhythmias using human models. The swine model may have limitations when evaluating ECD technology.

Motoneuron disease after electric injury: a case report

Several cases of motor neuron disease (MND) after electric injury have been reported in the last number of years, but the relationship between electric injury and MND remains controversial. Herein we report the case of a 60-year-old man who developed a MND following an electrical trauma. In the case presented here, the onset of disease at the site of lightning strike and the short interval of time between the electrical injury and the clinical onset of MND raise the possibility of considering electrical shock as a trigger factor for MND.

Cardiac Monitoring of Human Subjects Exposed to the Taser®

The Taser (TASER International, Scottsdale, AZ) is a high-voltage, low-amperage device used by many law enforcement agencies. Our objective in this study was to evaluate for rhythm changes utilizing cardiac monitoring during deployment of the Taser on volunteers. A prospective, observational study evaluated law enforcement personnel who had continuous electrocardiographic monitoring immediately before, during, and after having a voluntary exposure to the Taser X-26. Changes in cardiac rate, rhythm, ectopy, morphology, and conduction intervals were measured. A total of 105 subjects were evaluated. The mean shock duration was 3.0 s (range 0.9-5 s). Mean heart rate increased 15 beats/min (95% CI 12.6-18.3), from 122 beats/min before shock to 137 beats/min immediately after shock. One subject had a single premature ventricular contraction both before and after the shock, but no other subject developed ectopy or dysrhythmia. Poor inter-rater agreement prevented determination of the overall effect of shock on conduction intervals. However, several interpretable tracings demonstrated change in QT duration-either shortening or prolongation after shock. Human subjects exposed to a brief shock from the Taser developed significant increases in heart rate, but there were no cardiac dysrhythmias or morphologic changes. Alterations in the QT interval were observed in some subjects but their true incidence and clinical significance are unknown.

[The changes in blood flow in sciatic nerve after electrical injury in rabbit]

OBJECTIVE

To study the changes in sciatic nerve blood flow and the expression of collagen type I after electric injury of rabbit nerve with different voltages.

METHODS

Thirty-six healty rabbits were randomized into 3 groups before receiving injury with electricity in voltages, i.e. 50 v, 75 v, and 100 v groups. The changes in blood flow of sciatic nerve were observed with Laser Doppler Flowmeter immediately after injury and 1, 4, 8 weeks after injury. The changes in the expression of collagen type I was observed by immunohistochemical method, and the positive expression rate was calculated.

RESULTS

The sciatic nerve blood flow increased in all groups immediately after electric injury. In the 75 v and 100v groups, the nerve blood flow [(53 +/- 3 ), (48 +/- 5) PU] was obviously lower than that of normal value [(62 +/- 4) PU, P < 0.05]. There was little collagen type I deposition in 50 v group, while brown collagenous fibers in epineurium and perineurium were observed in 75 v and 100v groups 4 and 8 weeks after injury. The expression of collagen type I in all groups were obviously higher than that of normal value, and that in 75v and 100 v groups were higher than that in 50 v group at bachl time-point (P < 0.01).

CONCLUSION

The restoration of sciatic nerve blood flow is postponed following by the injury with increase of the electrical voltage. The collagen deposition after electrical injury may be one of the reasons for nerve blood flow decrease.

Bilateral shoulder fracture dislocations and radiculopathies secondary to electrical injury (a case report)

INTRODUCTION

In this report a case of bilateral shoulder fracture dislocations and C5 radiculopathy developed after an electrical injury is presented.

CASE

A 29 year-old male patient referred to our hospital with complaints of inability to raise his hands overhead starting 3 months ago after an electrical injury. The first physical examination revealed loss of strength (3/5) in deltoid muscles bilaterally, bilateral shoulder fracture dislocations and C5 radiculopathies. An open reduction and internal fixation (using K wire, cortical screw) procedure was applied for the right side in the Department of Orthopedics. Postoperatively active (A) and passive (P) ranges of motion (ROMs) were restricted extremely in the right and left shoulder respectively. Since applications of 15 sessions of electrical stimulation for deltoid muscle and physical treatment for both shoulders failed to achieve satisfactory ROMs, K wire extraction was instituted with resultant increase in the right shoulder A/P ROMs after 10 sessions of physical therapy postoperatively. At the last examination which was 18 months after the injury, ROMs of the right shoulder were increased, but not normal.

CONCLUSION

It must be remembered that in electrical injury, fractures and dislocations might occur in affected sites without any evidence of trauma with associated neurologic complications, and that these cases must be promptly detected and managed without any delay.

Electric field-induced changes in membrane proteins charge movement currents

Our previous study showed that thermal effects induced by Joule heating did not play the pivotal role in damage of membrane proteins when cell membranes were shocked by a pulsed membrane potential up to 500 mV. Our analytical study of ion channel currents further indicated that a brief electric shock may cause protein conformational damage in the channel gating system, resulting in a reduction in the number of limiting gating charge particles. In this paper, we present the results of our study into electric shock-induced changes in the intramembrane charge movement currents. We found that a brief electric shock may significantly alter the characteristics of the charge movement currents of the membrane proteins, including reducing the magnitudes of two components Q(beta) and Q(gamma), broadening the hump shape of Q(gamma), and increasing its time delay. This study suggests that a brief intensive electric shock may cause proteins to structurally alter, reducing the amount of movable charge particles and therefore decreasing the protein functions. These results indicate that electro-coupled structural damage in membrane proteins is an important mechanism involved in electrical injury, especially in a field range not sufficient to cause thermal damage.

Narrative review: Electrocution and life-threatening electrical injuries

The authors reviewed the mechanisms and pathophysiology of typically encountered electrical injuries by searching English-language publications listed in MEDLINE and reference lists from identified articles. They included relevant retrospective studies, case reports, and review articles published between 1966 and 2005. The authors also searched the Internet for information related to electrocution and life-threatening electrical injuries. They found that familiarity with basic principles of physics elucidates the typical injuries sustained by patients who experience electrical shock. Death due to electrocution occurs frequently. However, patients successfully resuscitated after cardiopulmonary arrest often have a favorable prognosis. Approximately 3000 patients who survive electrical shock are admitted to specialized burn units annually. Patients with serious electrical burns admitted to the intensive care unit are trauma patients and should be treated accordingly. Initial prediction of outcome for patients who have experienced electrical shock is difficult, as the full degree of injury is often not apparent.

Cardiovascular and physiologic effects of conducted electrical weapon discharge in resting adults

OBJECTIVES

The TASER is a conducted electrical weapon (CEW) that has been used on people in custody. Individuals occasionally die unexpectedly while in custody, proximal to the application of a CEW. In this study, the authors sought to examine the effects of CEW application in resting adult volunteers to determine if there was evidence of induced electrical dysrhythmia or direct cellular damage that would indicate a causal relationship between application of the device and in-custody death.

METHODS

Human subjects (N = 66) underwent 24-hour monitoring after a standard CEW application. Blood samples were collected before and after exposure and again at 16 and 24 hours after exposure. A subpopulation (n = 32) had 12-lead electrocardiography performed at similar time intervals. Blood samples were analyzed for markers of skeletal and cardiac muscle injury and renal impairment. The electrocardiograms were read by a cardiologist blinded to the study. Data were analyzed using descriptive statistics.

RESULTS

There was no significant change from baseline at any of the four time points for serum electrolyte levels and the blood urea nitrogen/creatinine ratio. An increase in serum bicarbonate and creatine kinase levels was noted at 16 and 24 hours. An increase in serum lactate level was noted immediately after exposure that decreased at 16 and 24 hours. Serum myoglobin level was increased from baseline at all three time points. All troponin levels measured were < 0.3 ng/mL, except for a single value of 0.6 ng/mL in a single subject. This subject was evaluated, and no evidence of acute myocardial infarction or disability was identified. At baseline, 30 of 32 electrocardiograms were interpreted as normal. The two abnormal electrocardiograms were abnormal at baseline and remained the same at all four time points.

CONCLUSIONS

In this resting adult population, the TASER X26 CEW did not affect the recordable cardiac electrical activity within a 24-hour period following a standard five-second application. The authors were unable to detect any induced electrical dysrhythmias or significant direct cardiac cellular damage that may be related to sudden and unexpected death proximal to CEW exposure. Additionally, no evidence of dangerous hyperkalemia or induced acidosis was found. Further study in the area of the in-custody death phenomenon to better understand its causes is recommended.

Damage of the medial preoptic area impairs peripheral pilocarpine-induced salivary secretion

The existence of neural connections between the medial preoptic area (MPOA) and the salivary glands and the increase in salivation by thermal or electrical stimulation of the MPOA have suggested an important role of MPOA in the control of salivary gland function. Although direct cholinergic activation of the salivary glands induces salivation, recent studies have suggested that salivation produced by i.p. pilocarpine may also depend on the activation of central mechanisms. Therefore, in the present study, we investigated the effects of bilateral electrolytic lesions of the MPOA on the salivation induced by i.p. pilocarpine. Adult male Holtzman rats (n = 11-12/group) with bilateral sham or electrolytic lesions of the MPOA were used. One, five, and fifteen days after the brain surgery, under ketamine anesthesia, the salivation was induced by i.p. pilocarpine (1 mg/kg of body weight), and saliva was collected using pre-weighed small cotton balls inserted into the animal's mouth. Pilocarpine-induced salivation was reduced 1 and 5 days after MPOA lesion (341 +/- 41 and 310 +/- 35 mg/7 min, respectively, vs. sham lesions: 428 +/- 32 and 495 +/- 36 mg/7 min, respectively), but it was fully recovered at the 15th day post-lesion (561 +/- 49 vs. sham lesion: 618 +/- 27 mg/7 min). Lesions of the MPOA did not affect baseline non-stimulated salivary secretion. The results confirm the importance of MPOA in the control of salivation and suggest that its integrity is necessary for the full sialogogue effect of pilocarpine. However, alternative mechanisms probably involving other central nuclei can replace MPOA function in chronically lesioned rats allowing the complete recovery of the effects of pilocarpine.

Notfallmedizinische Versorgung von Blitz- und Stromschlagverletzungen

The pattern of injuries following electrical accidents and the treatment by emergency teams differ depending on whether exposure was to a low-voltage or high-voltage power source or to a lightning bolt. Tissue damage results from the direct effect of current on cell membranes and from conversion of electrical energy into heat. Depending on the magnitude of electrical energy and the duration of exposure, cardiac dysrhythmia, damage to nerve tissue, extensive burns and shock may occur. Multi-system injury is frequently observed, either directly related to electrical shock or secondary to concurrent trauma. Extrication of victims from the energy field must be performed under strict observance of self-protection measures for the rescuers. In high-voltage incidents the rescuers must wait at a distance until the power supply has been turned off and demonstrably grounded. Analgesia, anxiolysis and administration of crystalloid fluids are needed, especially for injuries from high-voltage power sources. Severe burns of the face and neck call for early intubation and ventilation. Monitoring is performed with pulsoximetry, blood pressure measurement and ECG, giving highest priority to the unconscious patient with cardiac and respiratory arrest. Cardio-pulmonary resuscitation (CPR) follows the international guidelines for resuscitation and may be effective after delayed onset and even after prolonged resuscitation attempts.

Role of Na+,K+ pumps in restoring contractility following loss of cell membrane integrity in rat skeletal muscle

BACKGROUND AND AIM

In skeletal muscles, electrical shocks may elicit acute loss of force, possibly related to increased plasma membrane permeability, induced by electroporation (EP). We explore the role of the Na(+),K(+) pumps in force recovery after EP.

METHODS

Isolated rat soleus or extensor digitorum longus (EDL) muscles were exposed to EP paradigms in the range 100-800 V cm(-1), and changes in tetanic force, Na(+),K(+) contents, membrane potential, (14)C-sucrose space and the release of the intracellular enzyme lactic acid dehydrogenase (LDH) were characterized. The effects of Na(+),K(+) pump stimulation or inhibition were followed.

RESULTS

Electroporation caused voltage-dependent loss of force, followed by varying rates and degrees of recovery. EP induced a reversible loss of K(+) and gain of Na(+), which was not suppressed by tetrodotoxin, but associated with increased (14)C-sucrose space and release of LDH. In soleus, EP at 500 V cm(-1) induced complete loss of force, followed by a spontaneous, partial recovery. Stimulation of active Na(+),K(+) transport by adrenaline, the beta(2)-agonist salbutamol, calcitonin gene-related peptide (CGRP) and dibutyryl cyclic AMP increased initial rate of force recovery by 183-433% and steady-state force level by 104-143%. These effects were blocked by ouabain (10(-3) m), which also completely suppressed spontaneous force recovery. EP caused rapid and marked depolarization, followed by a repolarization, which was accelerated by salbutamol. Also in EDL, EP caused complete loss of force, followed by a spontaneous partial recovery, which was markedly stimulated by salbutamol.

CONCLUSION

Electroporation induces reversible depolarization, partial rundown of Na(+),K(+) gradients, cell membrane leakage and loss of force. This may explain the paralysis elicited by electrical shocks. Na(+),K(+) pump stimulation promotes restoration of contractility, possibly via its electrogenic action. The major new information is that the Na(+),K(+) pumps are sufficient to compensate a simple mechanical leakage. This may be important for force recovery in leaky muscle fibres.

Diffuse electrical injury: comparison of physical and neuropsychological symptom presentation in males and females

OBJECTIVE

Electrical injuries can produce physical, neurological, and neuropsychological sequelae that exist even in the total absence of a theoretical current path that includes the brain. Diffuse electrical injury (DEI) is a rarely occurring class of electrical injury (EI) that can occur even after low-voltage contact. The objective of the study was to compare the occurrence rate of symptoms reported retrospectively by a female DEI group with a male DEI group.

METHODS

A Web-based interactive survey was completed by survivors of low-voltage injuries (<1000 V) regarding symptoms present six months or more following electrical shock. Chi square analysis of the occurrence of 65 symptoms was performed.

RESULTS

The only significant differences were that unexplained moodiness, dizziness, and short-term memory loss were reported more often by the male group, and the diagnosis of chronic pain was more common in the female group. For the majority of symptoms, no significant difference between the two groups was revealed.

CONCLUSIONS

Results suggest that DEI may present with certain differences in men compared with women. The results also confirm previous reports that patients may present with broad symptomatology after low-voltage contact.

The Clinical Value of the ECG in Noncardiac Conditions

The ECG is an indispensable tool in the ICU for the detection and diagnosis of heart disease. ECG abnormalities however can be present in a wide variety of noncardiac conditions, complicating the differential diagnosis with primary cardiac pathology. This overview discusses the ECG abnormalities and their pathophysiologic basis in the most frequently encountered noncardiac conditions, such as electrolyte abnormalities, pulmonary embolism, CNS diseases, esophageal disorders, hypothermia, and drug-related and other conditions. Knowledge of the characteristic ECG changes may provide early clues to the presence of these disorders, the prompt recognition of which can be life saving.

Effect of electrolytic lesion of the dorsal raphe nucleus on water intake and sodium appetite

The present study determined the effect of an electrolytic lesion of the dorsal raphe nucleus (DRN) on water intake and sodium appetite. Male Wistar rats weighing 290-320 g with a lesion of the DRN (L-DRN), performed two days before experiments and confirmed by histology at the end of the experiments, presented increased sensitivity to the dehydration induced by fluid deprivation. The cumulative water intake of L-DRN rats reached 23.3 1.9 ml (a 79% increase, N = 9) while sham-lesioned rats (SL-DRN) did not exceed 13.0 1.0 ml (N = 11, P < 0.0001) after 5 h. The L-DRN rats treated with isoproterenol (300 g kg-1 ml-1, sc) exhibited an increase in water intake that persisted throughout the experimental period (L-DRN, 15.7 1.47 ml, N = 9 vs SL-DRN, 9.3 1.8 ml, N = 11, P < 0.05). The L-DRN rats also showed an increased spontaneous sodium appetite during the entire period of assessment. The intake of 0.3 M NaCl after 12, 24, 36 and 72 h by the L-DRN rats was always higher than 20.2 4.45 ml (N = 10), while the intake by SL-DRN was always lower than 2.45 0.86 ml (N = 10, P < 0.00001). Sodium- and water-depleted L-DRN rats also exhibited an increased sodium appetite (13.9 2.0 ml, N = 11) compared to SL-DRN (4.6 0.64 ml, N = 11) after 120 min of observation (P < 0.02). The sodium preference of L-DRN rats in both conditions was always higher than that of SL-DRN rats. These results suggest that electrolytic lesion of the DRN overcomes a tonic inhibitory component of sodium appetite.

Coronary vascular dysfunction associated with direct current shock injury

OBJECTIVE

To determine if cardiac injury following DC shocks includes impairment of coronary vascular reactivity.

METHODS

36 dogs (18-32 kg) were anesthetized and a thoracotomy was performed. Either antioxidant enzymes, superoxide dismutase (SOD, 15,000 U/kg) plus catalase (55,000 U/kg) or the NO synthase inhibitor N(G)-nitro-L-arginine (L-NNA, 5 mg/kg) was administered IV prior to sham (no shocks) or DC shock treatment, and the results were compared to dogs which did not receive SOD/catalase or L-NNA. In sham dogs, electrodes cradled the heart, but no shocks were delivered. In shock dogs, three 20 Joule DC shocks were delivered to the epicardium using hand-held paddles. Other dogs were allowed a 3-hour recovery period after the shocks. Epicardial microvessels and conduit rings were studied in vitro. Antagonists were not added to the bath of the study vessel. Internal diameter was measured in microvessels after constriction with endothelin. Tension of conduit arteries was measured after constriction with PGF(2alpha). Responses to acetylcholine (Ach, 10(-10)-10(-4) M), bradykinin (10(-14)-10(-6) M), the calcium ionophore A23187 (A23187, 10(-12)-10(-4) M) or nitroprusside (SNP, 10(-10)-10(-4) M) were measured.

RESULTS

Bradykinin, A23187 and SNP dependent dilation was not different between vessels from sham and shocked animals. Dilation to Ach was attenuated in vessels from shocked dogs. Superoxide production probably contributed to the impaired dilation to Ach since treatment with SOD/catalase improved dilation. Treatment with L-NNA also improved vascular function after DC shock.

CONCLUSION

DC shocks cause endothelial dysfunction, as demonstrated by impaired dilation to acetylcholine, in both canine coronary microvascular and conduit arteries. Since pretreatment with either SOD/catalase or L-NNA protects against this damage, a free radical mechanism, possibly involving eNOS, may contribute to endothelial dysfunction.DC shocks for cardioversion and defibrillation cause myocardial injury that may be free radical mediated.

Death due to electrocution in childhood and early adolescence

OBJECTIVES

To delineate the clinicopathological features of fatal childhood electrocutions and to identify specific risk factors.

METHODS

Coronial files in Adelaide (Australia) were searched from 1967 to 2001 and Medical Examiners' files in San Diego (USA) were searched from 1988 to 2001, for cases of deaths of children and adolescents younger than 16 years attributed to electrocution.

RESULTS

Sixteen cases were identified aged between 10 months and 15 years (mean 8.0 years) with a male : female ratio of 5 : 3. Deaths were due to accidents occurring while playing with or near faulty electrical equipment at home or at school (n = 8), electrical equipment while in the bath (n = 2), damaged outdoor electrical equipment (n = 1), overhead wires (n = 1), and a high voltage electricity substation (n = 1). In addition, one death was due to suicide involving an electrical appliance placed in a bath, and two other deaths occurred in older children who were moving equipment under overhead wires. No homicides were identified.

CONCLUSIONS

Childhood deaths due to electrocution are rare and are more likely to occur when children are playing around electrical wires or equipment, and often result from either faulty apparatus, or a lack of understanding of the potential dangers involved. The majority of deaths (11/16; 69%) occur in the home environment. In contrast to adult electrical deaths, high-voltage electrocutions, suicides and workplace deaths are uncommon. Strategies for eliminating childhood electrocution should concentrate on ensuring safe domestic environments with properly maintained electrical devices.

Electrical injuries

Electrical injury is a relatively infrequent but potentially devastating form of multisystem injury with high morbidity and mortality. Most electrical injuries in adults occur in the work-place, whereas children are exposed primarily at home. In nature, electrical injury occurs due to lightning, which also carries the highest mortality. The severity of the injury depends on the intensity of the electrical current (determined by the voltage of the source and the resistance of the victim), the pathway it follows through the victim's body, and the duration of the contact with the source of the current. Immediate death may occur either from current-induced ventricular fibrillation or asystole or from respiratory arrest secondary to paralysis of the central respiratory control system or due to paralysis of the respiratory muscles. Presence of severe burns (common in high-voltage electrical injury), myocardial necrosis, the level of central nervous system injury, and the secondary multiple system organ failure determine the subsequent morbidity and long-term prognosis. There is no specific therapy for electrical injury, and the management is symptomatic. Although advances in the intensive care unit, and especially in burn care, have improved the outcome, prevention remains the best way to minimize the prevalence and severity of electrical injury.

Lesions of the lateral hypothalamus impair pilocarpine-induced salivation in rats

In the present study we investigated the effects of electrolytic lesions of the lateral hypothalamus (LH) in the salivation induced by intracerebroventricular (i.c.v.) or intraperitoneal (i.p.) injection of the cholinergic agonist pilocarpine. Rats with sham or LH lesions and stainless steel cannulas implanted into the lateral ventricle (LV) were used. In rats anesthetized with urethane (1.25mg/kg of body weight) saliva was collected using pre-weighed cotton balls inserted in the animal mouth during a period of 7 min following i.c.v. or i.p. injection of pilocarpine. Injection of pilocarpine (1mg/kg of body weight) i.p. in sham-operated rats (6h, 2, 7, and 15 days after the surgery) induced salivation (497+/-24, 452+/-26, 476+/-30, and 560+/-75 mg/7 min, respectively). The effects of i.p. pilocarpine was reduced 6h, 2 and 7 days after LH lesions (162+/-37, 190+/-32, and 229+/-27 mg/7 min, respectively), not 15 days after LH lesions (416+/-89 mg/7 min). Injection of pilocarpine (120 micro g/micro l) i.c.v., in sham-operated rats (6h, 2, 7, and 15 days after the surgery) also produced salivation (473+/-20, 382+/-16, 396+/-14, and 427+/-47 mg/7 min, respectively). The salivation induced by i.c.v. pilocarpine was also reduced 6h, 2 and 7 days after LH lesions (243+/-19, 278+/-24, and 295+/-27 mg/7 min, respectively), not 15 days after LH lesions (385+/-48 mg/7 min). The present results show the participation of the LH in the salivation induced by central or peripheral injection of pilocarpine in rats, reinforcing the involvement of central mechanisms on pilocarpine-induced salivation.

Frequency specificity of cochlear damage in acute electrical injury: a longitudinal distortion product otoacoustic emission study

HYPOTHESIS

To understand cochlear dysfunction and the recovery pattern of the cochlea after acute electrical injury.

BACKGROUND

The cochlea is believed to be more vulnerable to direct current than to alternating current. However, the damage-and frequency-specific recovery characteristics of the cochlea have not been well described.

METHODS

Baseline distortion product otoacoustic emission measurements were taken via transtympanic electrodes from 19 guinea pigs. A 20-Hz alternating current and a positive direct current, both at a 1,000-microA intensity, were applied to 9 and 10 animals, respectively. The measurements were repeated immediately after the application of current and after 10 days. Comparisons were made for both groups individually in signal-to-noise ratios obtained before and immediately after, immediately and 10 days after, and before and 10 days after the application of electrical current.

RESULTS

Alternating and direct currents caused a significant depression in signal-to-noise ratio immediately after the application. However, 10 days later, the mean signal-to-noise ratio in the animals subjected to alternating current came significantly close to the baseline value, particularly between the frequencies of 2,211 and 3,717 Hz. By contrast, the mean signal-to-noise ratio in the animals subjected to direct current remained significantly depressed throughout all frequencies except for 2,211 Hz.

CONCLUSION

Baseline distortion product otoacoustic emission measurements enabled cochlear function to be monitored in a frequency-specific manner after electrical injury. The functional damages were quantitatively close to each other for both types of currents at a given intensity. Nevertheless, recovery was more apparent in the animals exposed to alternating current than in those exposed to direct current. Recovery was also better in the midfrequency region than in higher frequencies. It is hypothesized that the reason for the difference in recovery in both groups was the net charge left by direct current.

A three year prospective audit of 212 presentations to the emergency department after electrical injury with a management protocol

Significant numbers of presentations to the emergency department were found to relate to low voltage electrical injury, for which there was no widely accepted management protocol. It was decided to examine the outcome of patients after low voltage electrical injury with particular reference to electrocardiogram (ECG) changes and to evaluate a protocol for managing these injuries in order to optimise the management of patients after electrical injury. A prospective observational study was done over three years of 212 consecutive presentations to the emergency department of Mount Isa Base Hospital with a four year follow up after implementation of the revised protocol. In 4% of patients, early transient conduction abnormalities were seen after low voltage electrical injury. Admissions for cardiac monitoring were reduced dramatically with no resultant ill effects. Asymptomatic patients with a normal ECG on presentation do not need ECG monitoring after low voltage electrical injury. Patients with significant symptoms or ECG changes should be admitted for monitoring and observation. In view of the high proportion of workplace related injuries occupational health measures such as "triple gloving" should be mandatory for high risk groups.

Transient hypothalamic hypothyroidism and diabetes insipidus after electrical injury

Transient or permanent diabetes insipidus (DI) due to damage in vasopressinergic neurons--which may be hereditary or caused by head injury, brain surgery, tumors, granulomatous disorders, infections, vascular disorders, autoimmunity, and idiopathic causes--is not rare. Hypothalamic hypothyroidism is due to decreased thyrotropin-releasing hormone secretion and is seen rarely. We report a case of transient hypothalamic hypothyroidism and transient DI due to electrical injury.

[Injury by electrical forces: pathophysiology, biophysics and pathogenesis]

As the technologic sophistication of generation and distribution of electrical energy has grown, so has the general concern about the effects of electric fields on human health. There can be no doubt that the significance of electrical trauma will continue to grow with our increasing use of power. It is apparent that our understanding of the various forms of electric trauma must increase, while we continue to promote safety near electrical hazards and develop effective medical therapies. Tissue damage as a result of electrical injury occurs by two mechanisms which are summative in action and have a variable degree of contribute to the ultimate damage produced. Thermal tissue damage occurs as a result of heat generated within the tissue (which offer an electrical resistance) secondary to the passage of the electrical current. High temperatures can also lead to cell membrane components, e.g., phospholipids, to dissolve. Electroportation damage is the tissue damage induced secondary to the strong electric field. Transmembrane potentials caused by electrical current result in the formation of pore in the phospholipid component of the cell membrane resulting in loss of function of the cell membrane with consequent cell death.

Biophysical injury mechanisms in electrical shock trauma

Electrical shock trauma tends to produce a very complex pattern of injury, mainly because of the multiple modes of frequency-dependent tissue-field interactions. Historically, Joule heating was thought to be the only cause of electrical injuries to tissue by commercial-frequency electrical shocks. In the last 15 years, biomedical engineering research has improved the understanding of the underlying biophysical injury mechanisms. Besides thermal burns secondary to Joule heating, permeabilization of cell membranes and direct electroconformational denaturation of macromolecules such as proteins have also been identified as tissue-damage mechanisms. This review summarizes the physics of tissue injury caused by contact with commercial-frequency power lines, as well as exposure to lightning and radio frequency (RF), microwave, and ionizing radiation. In addition, we describe the anatomic patterns of the resultant tissue injury from these modes of electromagnetic exposures.

[Electric accident. New aspects regarding pathophysiology and treatment]

The complex pathophysiology of electrical injury is caused by several mechanisms which are superimposed and cumulative in action. Existing empirical guidelines are only partially compatible with the results of recent studies. The significance of the joule effect, theories about progressive tissue necrosis, and the traditional surgical approach should be reviewed in view of electroporation and anatomical arrangements. The quality of long-term treatment results and the consistently high rate of amputations have prompted the development of alternative surgical options.

Prevalence of potential risk factors in victims of electrocution

OBJECTIVE

To identify risk factors of fatal arrhythmia following electrical shock, by comparing the prevalence of transthoracic current, tetany, decreased skin resistance because of wet extremities, skin burns and heart disease in victims of electrocution with instant as opposed to delayed death.

DESIGN

Retrospective case-control study, based on the charts from the coroner's office.

RESULTS

A total of 124 deaths from electrocution occurred between 1987 and 1992. One victim presumably died from delayed arrhythmia and was excluded from the study. Twenty victims had decreased skin resistance because of wet extremities and five had tetany. Autopsy revealed coronary heart disease in 21 cases, and burns in 109; 10 did not have any skin lesion. There was no difference in risk factors between those who died instantly presumably from arrhythmia (n=114) and those who died later from other causes (n=9).

CONCLUSION

No differences in risk factors were found between victims who died immediately from arrhythmia following electrical shock and those died later from other causes.

Pathogenesis and recovery of tetraplegia after electrical injury

The site of neurological damage causing paralysis after electrical trauma remains to be clarified. A patient is described who developed a flaccid tetraplegia after a high voltage electrical injury. The findings on initial examination and neurophysiological investigation showed a very severe generalised sensory-motor polyneuropathy. His subsequent follow up over 60 months showed a remarkable degree of reinnervation and the unmasking of a myelopathy. The degree of reinnervation noted suggests an axonopathy that left the other elements of the peripheral nerves relatively spared. These findings provide the most convincing evidence to date that a generalised polyneuropathy can follow electrical injury and that it results from non-thermal mechanisms such as electroporation.

Early infantile epileptic encephalopathy (Ohtahara syndrome) after maternal electric injury during pregnancy: etiological considerations

Early infantile epileptic encephalopathy (EIEE) is a polyetiologic age-dependent neurological disorder. We present two patients with EIEE whose mothers experienced electric injury during pregnancy. After the accident one mother noticed decreased fetal movements. Neither other prenatal factors nor intrapartal damage or postnatally examined structural, metabolic or infectious causes which might have been responsible for the EIEE in these children could be found. The question of electric accident during pregnancy should be considered when documenting the history of children with Ohtahara syndrome.

Triple "E" syndrome: bilateral locked posterior fracture dislocation of the shoulders

Bilateral locked posterior fracture dislocation of the shoulders is one of the least common injuries of the shoulder, and this injury has been suggested to be pathognomonic of seizures when diagnosed in the absence of trauma. The authors present a case of idiopathic bilateral locked posterior fracture dislocations of the shoulder, along with a review of the medical literature. The authors also present the "triple E syndrome," describing the possible etiologies of this injury: epilepsy (or any convulsive seizure), electrocution, or extreme trauma.

Upper extremity electrical injury

Electrical injuries to the upper extremity are far ranging in extent and vary in magnitude. Proper management requires an appreciation for the pathophysiology, clinical manifestations, and therapeutic options. Persistent neurologic and psychiatric problems further impact the high incidence of disability in the electrical injury patient. Loss is significant for victims, their families, and employers, in part because of the relative youth of those injured.