Detection of diatoms in a case of mud aspiration at a coastal area

•Diatoms in non-drowned bodies are attributed to postmortem invasion or “natural load”•Contamination during autopsy or diatom testing are other diatom sources in such cases.•Sand around water bodies can be a possible diatom source in non-drowning cases.•Qualitative analysis help detect true drowning...

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Published inLegal Medicine Vol. 66; p. 102354
Main Authors Tsuneya, Shigeki, Nakajima, Makoto, Yoshida, Maiko, Hoshioka, Yumi, Chiba, Fumiko, Inokuchi, Go, Torimitsu, Suguru, Iwase, Hirotaro
Format Journal Article
LanguageEnglish
Published Ireland Elsevier B.V 01.02.2024
Elsevier BV
Subjects
Diatom test
Drowning
False-positive
Forensic pathology
Mud aspiration
Mud aspiration
Drowning
Forensic pathology
PMCT
GC-FID
Diatom test
False-positive
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Abstract •Diatoms in non-drowned bodies are attributed to postmortem invasion or “natural load”•Contamination during autopsy or diatom testing are other diatom sources in such cases.•Sand around water bodies can be a possible diatom source in non-drowning cases.•Qualitative analysis help detect true drowning and false-positives in such cases.•Careful quantitative analyses may help establish the cause of death in non-drowning cases. The source of diatoms detected in non-drowned bodies have been attributed to postmortem invasion, contamination during autopsy or diatom testing, or “natural load.” However, sand aspiration has not been reported as a source. Herein, we report an autopsy case in which diatoms were detected in a non-drowned human who had aspirated mud. A man in his 60 s was found dead at a harbor park in Japan. His whole body was covered with sand, including his face. A situational investigation suggested that he may have entered the sea. Autopsy revealed intratracheal mud, with no obvious findings indicating drowning, suggesting that he died from mud aspiration probably due to hypothermia or non-lethal ethanol intoxication. In the diatom test, 10–100 diatoms/g were detected in bilateral lung samples, which were similar to those found in the intraoral and intratracheal mud and the sand samples from around the discovery site and not similar to those found in the seawater samples. The diatoms in the stomach content exhibited an intermediate trend between those found in the sand and seawater. Therefore, careful qualitative and quantitative analyses are required to differentiate between true drowning and false-positives in non-drowning cases to determine the cause of death.
AbstractList The source of diatoms detected in non-drowned bodies have been attributed to postmortem invasion, contamination during autopsy or diatom testing, or "natural load." However, sand aspiration has not been reported as a source. Herein, we report an autopsy case in which diatoms were detected in a non-drowned human who had aspirated mud. A man in his 60 s was found dead at a harbor park in Japan. His whole body was covered with sand, including his face. A situational investigation suggested that he may have entered the sea. Autopsy revealed intratracheal mud, with no obvious findings indicating drowning, suggesting that he died from mud aspiration probably due to hypothermia or non-lethal ethanol intoxication. In the diatom test, 10-100 diatoms/g were detected in bilateral lung samples, which were similar to those found in the intraoral and intratracheal mud and the sand samples from around the discovery site and not similar to those found in the seawater samples. The diatoms in the stomach content exhibited an intermediate trend between those found in the sand and seawater. Therefore, careful qualitative and quantitative analyses are required to differentiate between true drowning and false-positives in non-drowning cases to determine the cause of death.
•Diatoms in non-drowned bodies are attributed to postmortem invasion or “natural load”•Contamination during autopsy or diatom testing are other diatom sources in such cases.•Sand around water bodies can be a possible diatom source in non-drowning cases.•Qualitative analysis help detect true drowning and false-positives in such cases.•Careful quantitative analyses may help establish the cause of death in non-drowning cases. The source of diatoms detected in non-drowned bodies have been attributed to postmortem invasion, contamination during autopsy or diatom testing, or “natural load.” However, sand aspiration has not been reported as a source. Herein, we report an autopsy case in which diatoms were detected in a non-drowned human who had aspirated mud. A man in his 60 s was found dead at a harbor park in Japan. His whole body was covered with sand, including his face. A situational investigation suggested that he may have entered the sea. Autopsy revealed intratracheal mud, with no obvious findings indicating drowning, suggesting that he died from mud aspiration probably due to hypothermia or non-lethal ethanol intoxication. In the diatom test, 10–100 diatoms/g were detected in bilateral lung samples, which were similar to those found in the intraoral and intratracheal mud and the sand samples from around the discovery site and not similar to those found in the seawater samples. The diatoms in the stomach content exhibited an intermediate trend between those found in the sand and seawater. Therefore, careful qualitative and quantitative analyses are required to differentiate between true drowning and false-positives in non-drowning cases to determine the cause of death.
The source of diatoms detected in non-drowned bodies have been attributed to postmortem invasion, contamination during autopsy or diatom testing, or "natural load." However, sand aspiration has not been reported as a source. Herein, we report an autopsy case in which diatoms were detected in a non-drowned human who had aspirated mud. A man in his 60 s was found dead at a harbor park in Japan. His whole body was covered with sand, including his face. A situational investigation suggested that he may have entered the sea. Autopsy revealed intratracheal mud, with no obvious findings indicating drowning, suggesting that he died from mud aspiration probably due to hypothermia or non-lethal ethanol intoxication. In the diatom test, 10-100 diatoms/g were detected in bilateral lung samples, which were similar to those found in the intraoral and intratracheal mud and the sand samples from around the discovery site and not similar to those found in the seawater samples. The diatoms in the stomach content exhibited an intermediate trend between those found in the sand and seawater. Therefore, careful qualitative and quantitative analyses are required to differentiate between true drowning and false-positives in non-drowning cases to determine the cause of death.The source of diatoms detected in non-drowned bodies have been attributed to postmortem invasion, contamination during autopsy or diatom testing, or "natural load." However, sand aspiration has not been reported as a source. Herein, we report an autopsy case in which diatoms were detected in a non-drowned human who had aspirated mud. A man in his 60 s was found dead at a harbor park in Japan. His whole body was covered with sand, including his face. A situational investigation suggested that he may have entered the sea. Autopsy revealed intratracheal mud, with no obvious findings indicating drowning, suggesting that he died from mud aspiration probably due to hypothermia or non-lethal ethanol intoxication. In the diatom test, 10-100 diatoms/g were detected in bilateral lung samples, which were similar to those found in the intraoral and intratracheal mud and the sand samples from around the discovery site and not similar to those found in the seawater samples. The diatoms in the stomach content exhibited an intermediate trend between those found in the sand and seawater. Therefore, careful qualitative and quantitative analyses are required to differentiate between true drowning and false-positives in non-drowning cases to determine the cause of death.
ArticleNumber 102354
Author Tsuneya, Shigeki
Iwase, Hirotaro
Nakajima, Makoto
Chiba, Fumiko
Inokuchi, Go
Hoshioka, Yumi
Torimitsu, Suguru
Yoshida, Maiko
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Keywords Mud aspiration
Drowning
Forensic pathology
PMCT
GC-FID
Diatom test
False-positive
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Snippet •Diatoms in non-drowned bodies are attributed to postmortem invasion or “natural load”•Contamination during autopsy or diatom testing are other diatom sources...
The source of diatoms detected in non-drowned bodies have been attributed to postmortem invasion, contamination during autopsy or diatom testing, or "natural...
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SubjectTerms Diatom test
Drowning
False-positive
Forensic pathology
Mud aspiration
Title Detection of diatoms in a case of mud aspiration at a coastal area
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https://cir.nii.ac.jp/crid/1873116917605285120
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