PURPOSE: High explosives are used to produce blast waves to study their biological effects. The lungs are considered as the critical target organ in blast-effect studies. The degree of lung hemorrhaging is related to both the explosive power and the increased lung weight. We studied the characteristics of the biological effects from an air explosion of a thermobaric bomb in a high-altitude environment and the lethality and lung injury severity of goats in different orientations and distances. METHODS: Goats were placed at 2.5, 3, 4, and 5 m from the explosion center and exposed them to an air blast at an altitude of 4700-meter. A group of them standing oriented to the right side and the other group seated facing the explosion center vertically. The lung injuries were quantified according to the percentage of surface area contused, and using the pathologic severity scale of lung blast injury (PSSLBI) to score the 4 injury categories (slight, moderate, serious and severe) as 1, 2, 3, and 4, respectively. The lung coefficient (lung weight [g]/body weight [kg]) was the indicator of pulmonary edema and was related to lung injury severity. Blast overpressure data were collected using blast test devices placed at matching locations to represent loadings to goats. All statistical analyses were performed using SPSS, version 26.0, statistical software (SPSS, Inc., Chicago, IL, USA). RESULTS: In total, 127 goats were involved in this study. Right-side-standing goats had a significantly higher mortality rate than those seated vertical-facing (p < 0.05). At the 2.5 m distance, the goat mortality was nearly 100%, whereas at 5 m, all the goats survived. Lung injuries of the right-side-standing goats were 1 - 2 grades more serious than those of seated goats at the same distances, the scores of PSSLBI were significantly higher than the seated vertical-facing goats (p < 0.05). The lung coefficient of the right-side-standing goats were significantly higher than those of seated vertical-facing (p < 0.05). Mortality, PSSLBI, and the lung coefficient results indicated that the right-side-standing goats experienced severer injuries than the seated vertical-facing goats, and the injuries were lessened as the distance increased. The blast overpressure was consistent with these results. CONCLUSION The main killing factors of the thermobaric bomb in the high-altitude environment were blast overpressure, blast wind propulsions and burn. The orientation and distances of the goats significantly affected the blast injury severity. These results may provide a research basis for diagnosing, treating and protecting against injuries from thermobaric explosions.
Animals ; Lung Injury/etiology* ; Blast Injuries ; Goats ; Explosions ; Lung/pathology*

Animals ; Decompression Sickness ; Gamma Rays/adverse effects* ; Lung/radiation effects* ; Lung Injury ; Male ; Rats ; Rats, Sprague-Dawley

Pulmonary barotrauma is a kind of disease caused by the injury of lung tissue or blood vessel when the gas pressure of lung is too high or too lower than the external pressure of the body, which causes the air to enter the blood vessel and adjacent tissue. It could be happened in the escape of the divers with the light diving equipment or the sailors from submarine. Generally, the decompression chamber was used to treating the disease, and the minimum air pressure of 0.5 MPa recompression therapeutic schedule was used to selecting. In November 2019, a patient with pulmonary barotrauma combined with cerebral arterial gas embolism caused by improper underwater escape with light diving equipment was admitted to the General Hospital of Eastern War Zone. He was treated with 0.12 MPa oxygen inhalation recompression scheme in the oxygen chamber pressurized with air. 7 days later, the patient recovered and discharged.
Barotrauma/complications* ; Decompression Sickness/complications* ; Diving/adverse effects* ; Embolism, Air/etiology* ; Humans ; Lung Injury ; Male

Objective: To observe the dynamic impacts of shock waves on the severity of lung injury in rats with different injury distances. Methods: Simulate open-field shock waves; detect the biomechanical effects of explosion sources at distances of 40, 44, and 48 cm from rats; and examine the changes in the gross anatomy of the lungs, lung wet/dry weight ratio, hemoglobin concentration, blood gas analysis, and pathology. Results: Biomechanical parameters such as the overpressure peak and impulse were gradually attenuated with an increase in the injury distance. The lung tissue hemorrhage, edema, oxygenation index, and pathology changed more significantly for the 40 cm group than for the 44 and 48 cm groups. The overpressure peak and impulse were significantly higher for the 40 cm group than for the 44 and 48 cm groups ( < 0.05 or < 0.01). The animal mortality was significantly higher for the 40 cm group than for the other two groups (41.2% . 17.8% and 10.0%, < 0.05). The healing time of injured lung tissues for the 40 cm group was longer than those for the 44 and 48 cm groups. Conclusions The effects of simulated open-field shock waves on the severity of lung injuries in rats were correlated with the injury distances, the peak overpressure, and the overpressure impulse.
Animals ; Biomechanical Phenomena ; Blast Injuries ; etiology ; pathology ; Disease Models, Animal ; Explosions ; Lung Injury ; etiology ; pathology ; Male ; Random Allocation ; Rats ; Rats, Sprague-Dawley

Traumatic subcutaneous emphysema, which is the infiltration of air into subcutaneous tissues due to trauma, is caused by various factors such as chest and/or abdominal trauma, facial fractures, and barotrauma caused by mechanical ventilation. In this case report, a 32-year-old woman developed traumatic subcutaneous emphysema after undergoing abdominal liposuction at a local clinic. She was subsequently admitted to Busan Paik Hospital, and with early diagnosis and conservative treatment, she was discharged on the seventh day of hospitalization with no complications. However, because traumatic subcutaneous emphysema may accompany other injuries for various reasons, radiological examination and various tests should be performed to prevent serious complications and sequelae.
Adult ; Barotrauma ; Busan ; Early Diagnosis ; Female ; Hospitalization ; Humans ; Lipectomy ; Respiration, Artificial ; Subcutaneous Emphysema ; Subcutaneous Tissue ; Thorax

Background: Compressor fishing is a strategy adopted by small-scale artisanal fishers of coastal communities in Panay, Western Visayas. The practice persists among subsistence Lampirong fisher-divers whose livelihood depends on seasonal fishing. Placuna placenta known locally as Lampirong, is valued for its shells, which are made into shell craft like the famous capiz window. Related studies which examined traditional diving practices and compressor fishing identified risk factors such as inappropriate dive training and use of unsuitable diving gears.
Objective: The study aimed to investigate the plight and health risks associated with common malpractices among Lampirong fisher-divers who utilize the compressor fishing strategy.
Methodology: In this ethnographic study, five (5) Lampirong fisher-divers narrated the health risks and managing practices that they have adapted to survive compressor fishing. Primary data from field observation and interviews with the fisher-divers as well as secondary data from related studies were utilized for comparison and analysis. Considering the health risks that compressor fishing poses to fisher-divers, this study attempted a reflexive position drawing from the principle of ecological public health.
Results: The health risks of compressor fishing are known to fisher-divers, thus, they have developed managing practices which include observance of certain clear-cut rules (the do's and don'ts) to ensure underwater survival. Improvised diving gears are worn but barely protect the Lampirong fisher-divers from decompression illness or sickness. Related studies validated these symptoms such as nose bleed, dull pain in the ears, blood dripping from the ears, headache, and physical fatigue from prolonged dives. They rationalized the practice of Lampirong compressor fishing as a means to bring food to the table for families in fishing communities.
Conclusion: While the Philippine law prohibits or regulates compressor fishing, there is still a need for a policy or program that will address the health risks caused by compressor fishing.

Decompression Sickness

OBJECTIVE: To describe the incidence, pattern, and severity of maxillofacial trauma among patients who sustained gunshot and blast injuries of the maxillofacial region in a tertiary military hospital.

METHODS:

            Design:            Retrospective Case Series

            Setting:            Tertiary Military General Hospital

            Participants:  All patients admitted under the otorhinolaryngology service with

                                    gunshot and blast injuries to the face

RESULTS: A total of 108 patients were admitted due to gunshot and blast injuries to the face from January 2010 to December 2015. Most sustained gunshot injuries (73, 67.6%) compared to blast injuries (35, 32.4%). Of 108 patients, 71 had maxillofacial fractures (65.7%) while the remaining 37 only had soft tissue injuries (34.3%). Majority of those with maxillofacial fractures had single bone involvement (52, 72.2%); the rest had two or more bones affected (19, 27.8%) The most common bone injured was the mandible (77.5%), followed by the maxilla (35.2%), zygoma (12.7%), and others (frontal, nasal, and temporal bones) at 5.6%.

CONCLUSION:       Gunshot injuries had a higher incidence than blast injuries among military personnel with projectile injuries to the face seen during the study period. There were more fractures and combinations of fractured bones affected in gunshot injuries, although the breakdown of soft tissue injuries was similar among those with gunshot and blast injuries. However, the relation of injury patterns and severity to gunshot or blast etiology, or to other factors such as protective gear, cannot be established in this present study.

 

KEYWORDS: gunshot injuries; blast injuries; maxillofacial; projectile

Human ; Male ; Middle Aged (a Person 45-64 Years Of Age) ; Adult (a Person 19-44 Years Of Age) ; Blast Injuries

The incidence of blast injury has increased recently. As the ear is the organ most sensitive to blast overpressure, the most frequent injuries seen after blast exposure are those affecting the ear. Blast overpressure affecting the ear results in sensorineural hearing loss, which is untreatable and often associated with a decline in the quality of life. Here, we review recent cases of blast-induced hearing dysfunction. The tympanic membrane is particularly sensitive to blast pressure waves, since such waves exert forces mainly at air-tissue interfaces within the body. However, treatment of tympanic membrane perforation caused by blast exposure is more difficult than that caused by other etiologies. Sensorineural hearing dysfunction after blast exposure is caused mainly by stereociliary bundle disruption on the outer hair cells. Also, a reduction in the numbers of synaptic ribbons in the inner hair cells and spiral ganglion cells is associated with hidden hearing loss, which is strongly associated with tinnitus or hyperacusis.
Blast Injuries/complications* ; Ear/injuries* ; Hearing Loss, Conductive/etiology* ; Hearing Loss, Sensorineural/etiology* ; Humans ; Tympanic Membrane Perforation/complications*

ObjectiveMechanical ventilation (MV) has long been used as a life-sustaining approach for several decades. However, researchers realized that MV not only brings benefits to patients but also cause lung injury if used improperly, which is termed as ventilator-induced lung injury (VILI). This review aimed to discuss the pathogenesis of VILI and the underlying molecular mechanisms.

Data SourcesThis review was based on articles in the PubMed database up to December 2017 using the following keywords: "ventilator-induced lung injury", "pathogenesis", "mechanism", and "biotrauma".

Study SelectionOriginal articles and reviews pertaining to mechanisms of VILI were included and reviewed.

ResultsThe pathogenesis of VILI was defined gradually, from traditional pathological mechanisms (barotrauma, volutrauma, and atelectrauma) to biotrauma. High airway pressure and transpulmonary pressure or cyclic opening and collapse of alveoli were thought to be the mechanisms of barotraumas, volutrauma, and atelectrauma. In the past two decades, accumulating evidence have addressed the importance of biotrauma during VILI, the molecular mechanism underlying biotrauma included but not limited to proinflammatory cytokines release, reactive oxygen species production, complement activation as well as mechanotransduction.

ConclusionsBarotrauma, volutrauma, atelectrauma, and biotrauma contribute to VILI, and the molecular mechanisms are being clarified gradually. More studies are warranted to figure out how to minimize lung injury induced by MV.

Animals ; Barotrauma ; metabolism ; Humans ; Reactive Oxygen Species ; metabolism ; Ventilator-Induced Lung Injury ; metabolism ; Wounds and Injuries ; metabolism

We report our experience with a case of stomach perforation after accidental ingestion of liquid nitrogen. A 13-year-old boy ate a snack at an amusement park and began to complain of sudden onset of severe abdominal pain with shortness of breath. It was determined that the snack he had ingested had been cooled with liquid nitrogen. A computed tomography scan of the abdomen and a chest X-ray showed a large volume of pneumoperitoneum. During surgery, a 4-cm perforation of the angularis incisura of the stomach was identified. Primary repair and omentopexy was performed. The patient was discharged without postoperative complications.
Abdomen ; Abdominal Pain ; Adolescent ; Barotrauma ; Dyspnea ; Eating ; Humans ; Male ; Nitrogen* ; Pneumoperitoneum ; Postoperative Complications ; Snacks* ; Stomach* ; Thorax