Abstract
BackgroundThe rate of decomposition of the organs of the body has been widely studied by forensic pathology experts for the determination of time elapsed after death. But researches pertaining to the dental pulp organ have been very sparse. This study attempts to identify the morphologic and microscopic characteristics of the tooth pulp for over a time period of 2 years with respect to time elapsed since its designated death.Materials and methodEight experimental groups consisting of 5 extracted teeth in each group were constituted. The apical foramen was blocked with modeling wax. In groups 1, 2, 3, 4, 5, 6, 7, and 8, dental pulp was extirpated after 24 h, 48 h, 72 h, 1 month, 3 months, 6 months, 1 year, and 2 years of extraction, respectively. The pulp tissue underwent a standard histological processing and hematoxylin and eosin (H & E) staining. Slides were observed under a light microscope.Results and discussionsMorphologically, the color of the pulp changed from pink at 24 h to pale pink by 72 h. The consistency ranged from soft to firm to jelly by 72 h and later became desiccated and friable by 2 years. Microscopically, a rapid degeneration in the constituents of pulp was seen until 72 h followed by slowing down beyond 1 month with less histologic variations. Smaller vacuolations were observed in a 24-h PMI pulp which progressively increased filling up the entire stroma by 2 years. The nuclei underwent a series of autolytic changes with increasing time. The odontoblastic layer was seen in some areas for up to 6 months. Microbiological assessment showed Gram-positive staphylococci and streptococci up to 2 yearsConclusionEstimation of post-mortem interval (PMI) changes in pulp, which is enclosed in a hard structure, composed of enamel and dentin provides the advantage of being studied up to 2 years as compared to other organs. Progressive degradation of the matrix and cellular constituents of the pulp with increased vacuolations were noted in our study, and evaluation of these characteristics can be a cost-effective and simplified additional tool to estimate the PMI.
Highlights
The rate of decomposition of the organs of the body has been widely studied by forensic pathology experts for the determination of time elapsed after death
Estimation of post-mortem interval (PMI) changes in pulp, which is enclosed in a hard structure, composed of enamel and dentin provides the advantage of being studied up to 2 years as compared to other organs
Dental pulp is well protected within the pulp cavity which is bounded by the hard tissues like dentin, enamel, cementum, and jaws
Summary
The rate of decomposition of the organs of the body has been widely studied by forensic pathology experts for the determination of time elapsed after death. This study attempts to identify the morphologic and microscopic characteristics of the tooth pulp for over a time period of 2 years with respect to time elapsed since its designated death. Studies have been done to histo-morphologically analyze these degenerative changes in the blood, skin, eyes, sebaceous gland, skeletal muscles, kidney, and liver which helps to interpret the post-mortem interval (PMI) of an individual (Zdravković et al 2006; Pittner et al 2016; Kushwaha et al 2010). Dental pulp is well protected within the pulp cavity which is bounded by the hard tissues like dentin, enamel, cementum, and jaws. It is uncontaminated and majorly unaffected by external assaults (Gawande et al 2012). While other soft tissues degrade dental pulp is preserved for 4–5 years, thereby prolonging the detection rate of PMI (Manoilescu et al 2015)
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