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Cureus May 2024Industrial accidents involving compressed air can lead to significant colonic injuries, ranging from minor tears to complete perforations. This study investigates a case...
Industrial accidents involving compressed air can lead to significant colonic injuries, ranging from minor tears to complete perforations. This study investigates a case of colonic barotrauma in a 40-year-old male oil refinery worker who suffered symptoms of lower abdominal discomfort, distension, and tenderness following the application of compressed air to his anus. Diagnostic tests, including blood count, abdominal X-ray, and ultrasonography, indicated fecal impaction, dilated bowel loops, and free gas under the diaphragm. An exploratory laparotomy revealed a 4 cm x 2 cm hole in the colon at the hepatic flexure. There were also small breaks in the mucosa at the junction of the recto-sigmoid. We surgically repaired the perforation with primary closure, metrogyl lavage, and the placement of an intra-abdominal pelvic drain. Two weeks later, the patient recovered without any complications and was discharged. This case report highlights the severe risks of non-medical compressed air exposure, as well as the critical need for immediate surgical intervention and preventive safety measures in industrial settings.
PubMed: 38919243
DOI: 10.7759/cureus.61096 -
Die Anaesthesiologie Jun 2024In recent years, reports of health problems associated with nitrous oxide consumption have significantly increased. In Germany, nitrous oxide (NO) is easily available in... (Review)
Review
In recent years, reports of health problems associated with nitrous oxide consumption have significantly increased. In Germany, nitrous oxide (NO) is easily available in cartridges without legal restrictions. The main reason for its popularity in the party scene are the euphoric, psychedelic effects of the gas. In addition to severe and sometimes irreversible health problems associated with long-term use of nitrous oxide, e.g., anemia and nerve damage, life-threatening or fatal consequences of acute nitrous oxide consumption can also occur: accidents under the influence of nitrous oxide, pneumothorax, pneumopericardium and shock due to an explosive increase in airway pressure when inhaled directly from the cartridge. But the most common cause of severe complications is asphyxia as the gas is usually inhaled pure from large balloons and without oxygen. The resulting hypoxia during use may be perpetuated by the diffusion hypoxia that occurs during the reoxygenation period. Nitrous oxide as a cause in accidental or intoxication events is usually not detectable but can only be identified as a trigger based on the patient's history or the circumstances. Acute medical treatment is symptomatic.
PubMed: 38916748
DOI: 10.1007/s00101-024-01427-z -
European Annals of Otorhinolaryngology,... Jun 2024Flight staff are at particular risk of iterative sinus barotrauma. We here report a case of barotraumatic atelectasic frontal sinusitis with dynamic radiologic change in...
INTRODUCTION
Flight staff are at particular risk of iterative sinus barotrauma. We here report a case of barotraumatic atelectasic frontal sinusitis with dynamic radiologic change in frontal sinus volume.
CASE REPORT
A 46-year-old air pilot was referred for right frontal pain occurring at each landing. Two sinus CT scans were taken: one after a period of intense flying and the other after a month without flying. In the right frontal sinus, a type-3 Kuhn cell changed in volume from 6×11×12mm to 13×18×19mm. The alteration involved a modification in the medial wall, which was demineralized and changed position within the frontal sinus. Removal during endoscopic frontal sinusotomy allowed complete resolution of pain.
DISCUSSION
This article reports radiologic change in a frontal sinus wall in a setting of repeated barotraumatic frontal sinusitis with a dynamic atelectasic component. In iterative barotrauma, we advocate imaging at different time points. When the ostial obstruction is identified, functional aeration surgery can be applied.
PubMed: 38897905
DOI: 10.1016/j.anorl.2024.06.001 -
The Journal of Emergency Medicine Jul 2024
Topics: Mass Casualty Incidents; Humans; Emergency Service, Hospital; Disaster Planning; Blast Injuries; Explosions
PubMed: 38879231
DOI: 10.1016/j.jemermed.2024.03.006 -
Diving and Hyperbaric Medicine Jun 2024We report a compressed air worker who had diffuse cutaneous decompression sickness with pain in his left shoulder and visual disturbance characteristic of migraine aura...
We report a compressed air worker who had diffuse cutaneous decompression sickness with pain in his left shoulder and visual disturbance characteristic of migraine aura after only his third hyperbaric exposure. The maximum pressure was 253 kPa gauge with oxygen decompression using the Swanscombe Oxygen Decompression Table. He was found to have a very large right-to-left shunt across a 9 mm atrial septal defect. He had transcatheter closure of the defect but had some residual shunting with release of a Valsalva manoeuvre. Thirty-two other tunnel workers undertook the same pressure profile and activities in the same working conditions during the maintenance of a tunnel boring machine for a total of 233 similar exposures and were unaffected. As far as we are aware this is the first report of shunt-mediated decompression sickness in a hyperbaric tunnel worker in the United Kingdom and the second case reported worldwide. These cases suggest that shunt-mediated decompression sickness should be considered to be an occupational risk in modern compressed air working. A right-to-left shunt in a compressed air worker should be managed in accordance with established clinical guidance for divers.
Topics: Humans; Decompression Sickness; Male; Heart Septal Defects, Atrial; Occupational Diseases; Compressed Air; Adult; Hyperbaric Oxygenation; Valsalva Maneuver; Middle Aged; Diving
PubMed: 38870955
DOI: 10.28920/dhm54.2.127-132 -
Diving and Hyperbaric Medicine Jun 2024Inhalation of high concentrations of carbon dioxide (CO₂) at atmospheric pressure can be toxic with dose-dependent effects on the cardiorespiratory system or the... (Review)
Review
INTRODUCTION
Inhalation of high concentrations of carbon dioxide (CO₂) at atmospheric pressure can be toxic with dose-dependent effects on the cardiorespiratory system or the central nervous system. Exposure to both hyperbaric and hypobaric environments can result in decompression sickness (DCS). The effects of CO₂ on DCS are not well documented with conflicting results. The objective was to review the literature to clarify the effects of CO₂ inhalation on DCS in the context of hypobaric or hyperbaric exposure.
METHODS
The systematic review included experimental animal and human studies in hyper- and hypobaric conditions evaluating the effects of CO₂ on bubble formation, denitrogenation or the occurrence of DCS. The search was based on MEDLINE and PubMed articles with no language or date restrictions and also included articles from the underwater and aviation medicine literature.
RESULTS
Out of 43 articles, only 11 articles were retained and classified according to the criteria of hypo- or hyperbaric exposure, taking into account the duration of CO₂ inhalation in relation to exposure and distinguishing experimental work from studies conducted in humans.
CONCLUSIONS
Before or during a stay in hypobaric conditions, exposure to high concentrations of CO₂ favors bubble formation and the occurrence of DCS. In hyperbaric conditions, high CO₂ concentrations increase the occurrence of DCS when exposure occurs during the bottom phase at maximum pressure, whereas beneficial effects are observed when exposure occurs during decompression. These opposite effects depending on the timing of exposure could be related to 1) the physical properties of CO₂, a highly diffusible gas that can influence bubble formation, 2) vasomotor effects (vasodilation), and 3) anti-inflammatory effects (kinase-nuclear factor and heme oxygenase-1 pathways). The use of O₂-CO₂ breathing mixtures on the surface after diving may be an avenue worth exploring to prevent DCS.
Topics: Animals; Humans; Atmospheric Pressure; Carbon Dioxide; Decompression Sickness; Diving
PubMed: 38870953
DOI: 10.28920/dhm54.2.110-119 -
Diving and Hyperbaric Medicine Jun 2024Avascular necrosis (AVN) is a rare progressive degenerative disease leading to bone and joint destruction. Patients often require surgical intervention. Femoral AVN is...
INTRODUCTION
Avascular necrosis (AVN) is a rare progressive degenerative disease leading to bone and joint destruction. Patients often require surgical intervention. Femoral AVN is the most common anatomical location. Hyperbaric oxygen treatment (HBOT) has been shown to be effective in AVN. We present data collected from one centre over a 30-year period and compare the results with other published data.
METHODS
A retrospective chart review of all patients receiving HBOT for AVN at Fremantle and Fiona Stanley Hospitals since 1989 was performed. The primary outcome was radiological appearance using the Steinberg score, with secondary outcomes being subjective improvement, the need for joint replacement surgery and rates of complications.
RESULTS
Twenty-one joints in 14 patients (14 femoral heads and seven femoral condyles) were treated with HBOT since 1989. Two patients were excluded. Within the femoral head group, nine of the 14 joints (64%) had stable or improved magnetic resonance imaging (MRI) scans post treatment and at six months (minimum); 10 joints (71%) had good outcomes subjectively, three joints required surgical intervention, and three patients developed mild aural barotrauma. Within the femoral condyle group, all five joints had stable or improved post-treatment MRI scans (four had visible improvement in oedema and/or chondral stability), four joints reported good outcomes subjectively, none of the patients required surgical intervention (follow-up > six months).
CONCLUSIONS
This single centre retrospective study observed prevention of disease progression in femoral AVN with the use of HBOT, comparable to other published studies. This adds to the body of evidence that HBOT may have a significant role in the treatment of femoral AVN.
Topics: Humans; Hyperbaric Oxygenation; Retrospective Studies; Femur Head Necrosis; Male; Female; Middle Aged; Adult; Magnetic Resonance Imaging; Treatment Outcome; Aged; Femur; Femur Head
PubMed: 38870950
DOI: 10.28920/dhm54.2.92-96 -
Diving and Hyperbaric Medicine Jun 2024Tasmania is a small island state off the southern edge of Australia where a comparatively high proportion of the 558,000 population partake in recreational or...
INTRODUCTION
Tasmania is a small island state off the southern edge of Australia where a comparatively high proportion of the 558,000 population partake in recreational or occupational diving. While diving is a relatively safe sport and occupation, Tasmania has a significantly higher diving death rate per head of population than other States in Australia (four times the national diving mortality rate).
METHODS
Three compressed gas diving deaths occurred in seven months between 2021-2022 prompting a review of the statewide approach for the immediate response of personnel to diving-related deaths. The review engaged first responders including the Police Marine and Rescue Service, hospital-based departments including the Department of Hyperbaric and Diving Medicine, and the mortuary and coroner's office.
RESULTS
An aide-mémoire for all craft groups, digitalised checklists for first responders (irrespective of diving knowledge), and a single-paged algorithm to highlight inter-agency communication pathways in the event of a diving death were designed to enhance current practices and collaboration.
CONCLUSIONS
If used, these aids for managing diving related deaths should ensure that time-critical information is appropriately captured and stored to optimise information provided for the coronial investigation.
Topics: Diving; Humans; Tasmania; Male; Checklist; Decompression Sickness; Adult; Female; Algorithms; Emergency Responders; Middle Aged
PubMed: 38870949
DOI: 10.28920/dhm54.2.86-91 -
Journal of Special Operations Medicine... Jun 2024Traumatic brain injury (TBI) is often underreported or undetected in prehospital civilian and military settings. This study evaluated the incidence of TBI within the...
BACKGROUND
Traumatic brain injury (TBI) is often underreported or undetected in prehospital civilian and military settings. This study evaluated the incidence of TBI within the Prehospital Trauma Registry (PHTR) system.
METHODS
We reviewed PHTR and the linked Department of Defense Trauma Registry (DoDTR) records of casualties from January 2003 through May 2019 for diagnostic data and surgical reports.
RESULTS
A total of 709 casualties met inclusion criteria. The most common mechanism was blast, including 328 (51%) in the non-TBI and 45 (63%) in the TBI cohorts. The median injury severity scores in the non-TBI and TBI cohorts were 5 and 14, respectively. The survival scores in the non-TBI and TBI cohorts were 98% and 92%, respectively. Subdural hematomas, followed by subarachnoid hemorrhages were the most common classifiable brain injuries. Other nonspecific TBIs occurred in 85% of the TBI cohort casualties. Seventy-two cases (10%) were documented by the Role 1 clinician. Based on coding or operative data, 15 of the 72 (21%) were identified as TBIs. Of the 637 cases, which could not be decided based on coding or operative data, TBI was suspected in 42 (7%) cases based on Role 1 records.
CONCLUSIONS
Over 1 in 10 casualties presenting to a Role 1 facility had a TBI requiring transfer to a higher level of care. Our findings suggest the need for improved diagnostic technologies and documentation systems at Role 1 facilities for accurate TBI diagnosis and reporting.
Topics: Humans; Registries; Brain Injuries, Traumatic; Incidence; Male; Adult; Female; Emergency Medical Services; United States; Injury Severity Score; Middle Aged; Young Adult; Adolescent; Retrospective Studies; Blast Injuries; Military Personnel; Hematoma, Subdural
PubMed: 38865656
DOI: 10.55460/6RSJ-GXLF -
Journal of Visualized Experiments : JoVE May 2024Exposure to explosive blasts is a significant risk factor for brain trauma among exposed persons. Although the effects of large blasts on the brain are well understood,...
Exposure to explosive blasts is a significant risk factor for brain trauma among exposed persons. Although the effects of large blasts on the brain are well understood, the effects of smaller blasts such as those that occur during military training are less understood. This small, low-level blast exposure also varies highly according to military occupation and training tempo, with some units experiencing few exposures over the course of several years whereas others experience hundreds within a few weeks. Animal models are an important tool in identifying both the injury mechanisms and long-term clinical health risks following low-level blast exposure. Models capable of recapitulating this wide range of exposures are necessary to inform acute and chronic injury outcomes across these disparate risk profiles. Although outcomes following a few low-level blast exposures are easily modeled for mechanistic study, chronic exposures that occur over a career may be better modeled by blast injury paradigms with repeated exposures that occur frequently over weeks and months. Shown here are methods for modeling highly repetitive low-level blast exposure in mice. The procedures are based on established and widely used pneumatic shocktube models of open-field blast exposure that can be scaled to adjust the overpressure parameters and the number or interval of the exposures. These methods can then be used to either enable mechanistic investigations or recapitulate the routine blast exposures of clinical groups under study.
Topics: Animals; Blast Injuries; Mice; Disease Models, Animal; Models, Animal; Explosions; Male
PubMed: 38856207
DOI: 10.3791/66592