An unusual blunt force trauma pattern and mechanism to the cranial vault: Investigation of an atypical infant homicide.

This case report presents an unusual fracture pattern in the cranium of a four-month-old infant indicative of child abuse. Upon postmortem examination, the infant presented with numerous bilateral linear cranial fractures running perpendicular to the sagittal suture with depressed and curvilinear fractures apparent on the supra-auricular surfaces of the cranium. Histological evidence indicates multiple traumatic events to the cranium. In addition, the stair-step pattern of a parietal fracture may represent multiple contiguous fractures from repeated loading of the head at different times with variation of the focal points of compressive force. Additionally, the left humerus, left radius, and left ulna have healing metaphyseal fractures, and the left ulna also has an antemortem diaphyseal fracture which resulted in the distal metaphysis being rotated 45 degrees medially. Integration of autopsy, anthropological, and neuropathological reports for this case suggest multiple inflicted injury episodes with a repeated atypical mechanism(s) to the cranial vault of the infant. During investigative interviews, the caretaker admitted to squeezing the infant's head and neck on multiple occasions to quiet the child. This reported abusive mechanism is consistent with the pattern of symmetric cranial fractures and soft tissue injuries indicating asphyxiation. This case report provides forensic investigators with a potential trauma mechanism to explore in cases when a similar pattern of cranial trauma is observed and highlights the need for greater research on fracture propagation and fracture healing in the infant cranium.

A method for the development of cranial fracture histology slides.

Cranial vault fractures are of medicolegal interest as they have long-term impacts to someone's health and may contribute to an individual's death. The ability to distinguish antemortem from perimortem fractures and to assess the age of the injury is increasingly dependent on histology. Despite the increasing role of histology in assessing the microanatomy of osseous fractures, there are no methods currently available which account for the nuances and difficulties in creating high-quality histologic slides of cranial vault fractures that allow visualization of cellular features associated with healing bone. The authors present a modified method specific to slide development of human cranial vault fractures derived from the trial-and-error process of creating 730 such slides over a 3-year period which are suitable for the evaluation of the tissues, cells, and nuclei involved in fracture healing. This method adapts and troubleshoots typical histological procedures including sample excision, fixation, decalcification, dehydrating, clearing, embedding, microtomy, and staining, and introduces new procedures including preprocessing photography and cassette placement. By implementing these modifications, the number of poor-quality slides that required a new section to be sent to the histology laboratory was greatly reduced. Proactively implementing this new method into cranial fracture histologic slide development significantly reduces the number of slide rejections due to common issues like folding, chatter, or insufficient staining, saving both time and financial resources for forensic practitioners, researchers, and histotechnologists.

A comparison of three decalcification agents for assessments of cranial fracture histomorphology.

The extraction of mineral calcium from bone by decalcification is a critical step in the preparation of histological samples for light microscopy. This study assessed the time required for complete decalcification and the resultant histomorphological preservation of bone histomorphology by three decalcification agents: 7% hydrochloric acid (HCl), 5% nitric acid, and 10% ethylenediaminetetraacetic acid (EDTA). The goal of this study was to identify which decalcification agent provides the optimal combination of expedient processing and quality histological outcomes of cranial fracture samples. HCl provided the most rapid decalcification ( X ¯  = 3.57 days), nitric acid followed closely ( X ¯  = 10.35 days), while EDTA took significantly longer on average ( X ¯  = 78.97 days) but encompassed a broader range of times. Decalcification agent, sample thickness, sample width, and decedent age are significant predictors of decalcification time. Sample visualization quality, measured for tissues, cells, and nuclei on a five-point Likert scale, was highest for samples decalcified in 10% EDTA, second highest using 5% nitric acid, and lowest for 7% HCl. The quality difference between EDTA and nitric acid was not highly significant for any of the three features. For basic assessments of bone histomorphology, the study results indicate 5% nitric acid is suitable for the decalcification of adult specimens and samples thicker than 3 mm. EDTA is a suitable agent for thin samples of the cranial vault (<3 mm) from infants and young children less than three years old, decalcifying samples in a timeframe comparable to nitric acid while providing the best quality and clarity of samples.

The Repository of Antemortem Injury Response (REPAIR): an online database for skeletal injuries of known ages.

An accurate assessment of time since fracture is an essential component of abuse and death investigations; however, little evidence-based research exists on dating fractures, especially those of the cranial vault. This is primarily due to difficulties in procuring human fracture specimens of known posttraumatic survival times. The aim of this article is to introduce a new database through which limitations imposed by sample procurement may be mitigated. The Repository of Antemortem Injury Response (REPAIR) is a digitally accessible database of cranial vault fractures of known ages with extensive contextual information and visual documentation in the form of photography, radiography, and histological photomicrographs. This repository is a multifunctional tool that serves as a case submission portal for cranial fractures of known posttraumatic survival time, a sample database for research on fracture healing and rates of repair, a resource for comparative assessments of cranial fractures in forensic casework, and an educational tool for healing fracture histomorphology.

Autopsy Fingerprint Technique Using Fingerprint Powder.

The collection of high-quality fingerprints is an important component of routine forensic autopsies and represents one of the several potential methods for identifying a decedent. Fingerprint collection at autopsy frequently employs a manual method using fingerprint ink and cards, although some offices use digital-scanning equipment. While these methodologies are adequate in most circumstances, this study introduces an alternative method using fingerprint powder and adhesive labels. The method is quick, easy to perform, and cost-effective and provides the additional advantage of an adhesive label that easily conforms to the finger, palm, or foot which reduces smudging of prints in individuals with rigor mortis, skin slippage, or decomposition compared to more traditional autopsy fingerprint collection techniques. The prints can then be easily stored, either in hard-copy form or scanned to make a digital record.

A Unique Type of Birth Trauma Mistaken for Abuse.

Pediatric abusive head trauma is a challenging subject across many disciplines. Of particular importance is the identification of mimics of abuse, so cause and manner of death can be properly assigned. We present the case of suspected child abuse involving an infant who presented unresponsive to the hospital with hypoglycemia, hypothermia, and bilateral parietal fractures. An autopsy revealed fractures associated with organizing scalp hemorrhage and gross leptomeningeal congestion and hemorrhage. The fractures were circular with external displacement, rounded margins, and subperiosteal new bone formation indicative of healing. Birth records revealed vacuum assist and cesarean section delivery. Although vacuum extraction-related injuries are typically cephalohematomas and/or linear fractures, the outbending and circular morphology of the fractures are consistent with vacuum extraction. Moreover, microscopic neuropathological examination revealed hemorrhagic purulent leptomeningitis. This unique case demonstrates the importance of considering birth trauma in the determination of cause and manner of death of an infant.