These external and internal signs of drowning are non-specific. Therefore, diagnosis of drowning is always one of the most difficult tasks in forensic pathology. This paper meticulously and comprehensively reviews research progress on the diagnosis of drowning in pathological signs, laboratory examination, immunohistochemistry test and virtopsy technology, and it also prospects the research direction of diagnosis of drowning.
Drowning ; Forensic Pathology ; Humans ; Immunohistochemistry

OBJECTIVES: To study the effects of temperature and time for diatoms digestion and find out suitable digestive temperature and time. METHODS: Eighty pieces of liver tissues were collected, each piece of tissue was 2 g, and 2 mL Pearl River water was added to each piece of tissue. The digestion temperature was set at 100 ℃, 120 ℃, 140 ℃, 160 ℃, 180 ℃ and the digestion time was set at 40, 50, 60, 70, 80 min. The liver tissue and water mixture were divided into 8 portions in each group. All the samples were tested by microwave digestive - vacuum filtration - automated scanning electron microscopy method. The quantity of diatom recovered and the quality of residue on the membrane were recorded. RESULTS: When the digestion time was set to 60 min, there were statistically significant differences in the number of diatoms recovered at different temperatures (P<0.05). The maximum number of diatoms recovered was (28 797.50±6 009.67) at 140 ℃, and the minimum residue was (0.60±0.28) mg at 180 ℃. When the digestion temperature was set at 140 ℃, there were statistically significant differences in the number of diatoms recovered at different digestion times (P<0.05). The number of diatoms recovered was the highest at 40 min, it was up to (20 650.88±1 950.29), and the residue quality of each group had no statistical significance among different digestion time groups(P>0.05). CONCLUSIONS The effect of diatom digestion is related to temperature and time. When the digestion temperature was 140 ℃ and the digestion time was 40, 50 and 60 min, it is favorable for diatom test.
Diatoms ; Drowning ; Forensic Pathology/methods* ; Temperature ; Water

Dead bodies found in the water are not all caused by drowning. The important task of forensic identification is to distinguish between entering the water before and after death, and to clarify the cause of death. In the practice of forensic identification, drowning is generally diagnosed on the basis of comprehensive considerations such as cadaveric signs, histopathological examinations, and diatom tests, with the exclusion of other causes of death. The emergence of virtopsy techniques provides new insights for the diagnosis of drowning. This paper reviews the post-mortem imaging studies of sinus and mastoid small chambers, respiratory tracts, lung tissues, gastrointestinal tracts and blood in the corpses in recent years. The value, potential of virtopsy in the diagnosis of drowning is discussed, with the prospects of its development direction.
Cadaver ; Diatoms ; Drowning ; Forensic Pathology ; Humans ; Lung

OBJECTIVES: To study the phenomenon of pulmonary hypostasis in corpses of various causes of death, and to explore the potential value of this phenomenon in assisting forensic pathological diagnosis of drowning. METHODS: A total of 235 cases with clear cause of death through systematic autopsy were collected from January 2011 to June 2021 in Guangzhou. According to the location of body discovery, the cases were divided into the water body group (97 cases) and the non-water body group (138 cases), and the water body group was further divided into the water drowning group (90 cases) and the water non-drowning group (7 cases). Non-water body group was further divided into the non-water drowning group (1 case) and the non-water non-drowning group (137 cases). Three senior forensic pathologists independently reviewed autopsy photos to determine whether there was hypostasis in the lungs. The detection rate of pulmonary hypostasis was calculated. RESULTS: The detection rate of pulmonary hypostasis in the water drowning group (90 cases) was 0, and the negative rate was 100%. The detection rate of pulmonary hypostasis in the water non-drowning group (7 cases) was 100% and the negative rate was 0. The detection rate of pulmonary hypostasis in the water body group and in the non-water body group (after excluding 2 cases, 136 cases were calculated) was 7.22% and 87.50%, respectively. There were statistically significant differences in the detection rate of pulmonary hypostasis between water body group and non-water body group, and between water drowning group and water non-drowning group (P<0.05). CONCLUSIONS The disappearance of pulmonary hypostasis can be used as a specific cadaveric sign to assist in the forensic pathological diagnosis of drowning.
Autopsy ; Drowning/pathology* ; Forensic Pathology ; Humans ; Lung/pathology* ; Water

Autopsy ; Drowning/diagnosis* ; Forensic Pathology ; Humans ; Lung ; Postmortem Changes ; Water

Drowning is the death caused by asphyxiation due to fluid blocking the airway. In the practice of forensic medicine, it is the key to determine whether the corpse was drowned or entered the water after death. At the same time, the drowning site inference and postmortem submersion interval (PMSI) play an important role in the investigating the identity of the deceased, narrowing the investigation scope, and solving the case. Based on diatoms testing, molecular biology, imaging and artificial intelligence and other technologies, domestic and foreign forensic scientists have done relative research in the identification of the cause of death, drowning site inference and PMSI, and achieved certain results in forensic medicine application. In order to provide a reference for future study of bodies in the water, this paper summarizes the above research contents.
Artificial Intelligence ; Diatoms ; Drowning/diagnosis* ; Forensic Pathology ; Humans ; Lung ; Water

Drowning is one of the most common causes accidental death worldwide, but its diagnosis remains a challenging task in forensic pathology. Several authors have suggested that diatom analysis be conducted via an enzymatic digestion method that uses proteinase K to provide objective evidence for drowning; we employed this method in our study because of its superior applicability as compared to the conventional disorganization methods. The purpose of this study was to examine the reclaiming ratio of diatoms from experimentally drowned animal organs, which could be influenced by diatom morphology. The authors injected 3 diatoms species (Cyclotella striata, Navicula incerta, and Pleurosigma angulatum) into a rat's airway and compared the detection rate to investigate the factors that influence the sensitivity of diatom analysis. The results are as follows: (1) Average reclaiming ratio in the lungs was 81.07 for Navicula incerta, 48.26 for Cyclotella striata, and 5.35 for Pleurosigma angulatum. (2) The detection rates from the closed organs in 15 experimental animals were highest in the kidney (73%, 11/15), followed by the heart (67%, 10/15), brain (60%, 9/15), and liver (53%, 8/15). (3) Two Cyclotella striata was detected in the kidney of postmortem control group which suggest the possibility of contamination during laboratory procedure. In conclusion, the authors propose that diatom size could be a significant influencing factor for diatom extraction from the organs of drowned bodies; therefore, the results of diatom analysis must be interpreted after considering the diatom population of the drowning medium at the scene and the possibility of contamination during the laboratory procedure.
Animal Structures ; Animals ; Brain ; Diatoms ; Digestion ; Drowning ; Endopeptidase K ; Forensic Pathology ; Heart ; Kidney ; Liver ; Lung

The diagnosis of drowning is one of the most difficult in forensic pathology. One of the most common autopsy findings in drowning cases is a heavy, edematous lung as the result of water that is aspirated into the lungs before death. There are several controversial findings and arguments about the lung weight as a marker of drowning. The aim of the present study is to examine the difference in the lungs to the spleen weight ratio between seawater and freshwater drowning, compared with asphyxiation and acute cardiac death. This study compared the weight ratio of the lungs to the spleen for 29 cases of drowning (24 males, 5 females), 30 cases of mechanical asphyxiation (16 males, 14 females), and 37 cases of acute cardiac death (30 males, 7 females). This study presented significant differences in the lungs to the spleen weight ratio between drowning and the other causes of death . Therefore, these findings suggest that the ratio may be a useful index for accurate diagnosis of death by drowning.
Autopsy ; Cause of Death ; Death ; Diagnosis ; Drowning* ; Forensic Pathology ; Fresh Water ; Humans ; Lung* ; Male ; Seawater ; Spleen* ; Water

Investigating neonatal deaths in the toilets is challenging for forensic pathologists. During the postmortem examination, they should evaluate whether the baby was alive or a stillbirth and determine any causes of death, such as prenatal cause, infection, anatomical abnormalities, birth or other blunt force injury, drowning, and asphyxia. We retrieved two cases of neonatal deaths in the toilets and reviewed their autopsy findings and circumstances. However, findings from the postmortem examination were insignificant. Their lung examinations revealed non-expanded alveoli, and hydrostatic tests were negative. However, the cases cannot be confirmed as stillbirths because of the possibility that they might be alive for a short period of time after birth and then exposed into the water in the toilet or to accidental or non-accidental asphyxia or that they might have died because of neglect. These cases illustrate that the death scene and the associated circumstances should be meticulously and carefully investigated.
Asphyxia ; Autopsy ; Cause of Death ; Drowning ; Forensic Pathology ; Humans ; Infant, Newborn* ; Lung ; Parturition ; Perinatal Death ; Stillbirth ; Water

Diatom detection is an important method for identifying drowning and throwing corpses after death and inferring the drowning sites in forensic examination of corpses in water. In recent years,high-throughput sequencing technology has achieved rapid development and has been widely used in research related to diatom taxonomic investigations. This paper reviews the research status and prospects of high-throughput sequencing technology and its application in forensic diatom detection.
Cadaver ; Diatoms/genetics* ; Drowning/diagnosis* ; Forensic Pathology/methods* ; High-Throughput Nucleotide Sequencing ; Humans ; Lung ; Technology