Neuroimaging in adult penetrating brain injury: a guide for radiographers

Penetrating brain injury through the cavernous sinus by chopsticks in Vienamese: a case report

Introduction and importance

Penetrating brain injuries from chopsticks are exceedingly rare, often documented through case reports. Management strategies are tailored to individual cases, with a focus on mitigating postoperative complications.

Case presentation

A 33-year-old male presented with a chopstick lodged in his right eye. Computed tomography (CT) imaging revealed two foreign bodies, prompting collaborative surgical removal by neurosurgery and ophthalmology teams. The procedure involved intricate bone drilling to access critical structures, ensuring a successful outcome with stability at 1-month follow-up.

Clinical discussion

Common trajectories involve orbital roof penetration, posing risks of frontal lobe injury and intracerebral hematoma. Challenges arise with wooden foreign bodies, necessitating advanced imaging like CT angiography to assess vascular involvement. Surgical intervention offers benefits such as foreign body extraction, neurovascular protection, tissue debridement, hematoma evacuation, and dural repair.

Conclusion

Although rare, chopstick-related penetrating brain injuries warrant vigilance in neurosurgical practice. Surgical intervention remains the cornerstone of treatment, ensuring optimal patient outcomes.

Innovations in detecting skull fractures: A review of computer-aided techniques in CT imaging

BACKGROUND/INTRODUCTION

Traumatic brain injury (TBI) remains a leading cause of disability and mortality, with skull fractures being a frequent and serious consequence. Accurate and rapid diagnosis of these fractures is crucial, yet current manual methods via cranial CT scans are time-consuming and prone to error.

METHODS

This review paper focuses on the evolution of computer-aided diagnosis (CAD) systems for detecting skull fractures in TBI patients. It critically assesses advancements from feature-based algorithms to modern machine learning and deep learning techniques. We examine current approaches to data acquisition, the use of public datasets, algorithmic strategies, and performance metrics RESULTS: The review highlights the potential of CAD systems to provide quick and reliable diagnostics, particularly outside regular clinical hours and in under-resourced settings. Our discussion encapsulates the challenges inherent in automated skull fracture assessment and suggests directions for future research to enhance diagnostic accuracy and patient care.

CONCLUSION

With CAD systems, we stand on the cusp of significantly improving TBI management, underscoring the need for continued innovation in this field.

Pediatric penetrating brain injuries with intact neurological function: Two case reports of a pencil and a toy wheel encounter

Accidental injuries in the pediatric population are common. The response to injury also differs owing to anatomical and physiological differences in children. While such injuries carry a risk of lifelong morbidity, some cases may follow a benign course despite their distressing appearance. We report two cases of accidentally incurred penetrating trauma in the pediatric population with unusual objects, including a pencil and a toy wheel. Despite their intracranial extension, neither of the patients exhibited any discernible neurological deficits. Penetrating brain injuries require early removal and meticulous perioperative care to minimize the risk of long-term adverse neurological events in children.

Low-velocity penetrating brain injury: a review of the literature and illustrative case

INTRODUCTION

Low-velocity penetrating brain injury (LVPBI) is a class of brain injury where a foreign object violates the skull and damages the brain. Such injuries are rare and consequently understudied.

CASE

As such, we report an illustrative case of a 29-year-old female with a dense, plastic spike penetrating her right orbit and into her midbrain. After assessment with a CT scan and angiography, the object was removed with careful attention to possible vascular injury. The patient had an uncomplicated post-operative course and received antibiotic and antiepileptic prophylaxis. She was discharged on post-operative day 5, experiencing only mild left-sided weakness.

DISCUSSION

Common concerns regarding LVPBI include infection, post-traumatic epilepsy, and vascular injury. A review of published LVPBI cases over the past 20 years demonstrated that most cases (55.2%) are due to accidents. Of patients undergoing surgery, 43.4% underwent a craniotomy, and 22.8% underwent a craniectomy. Despite the grave nature of LVPBI, only 13.5% of the patients died. Additionally, 6.5% of patients developed an infection over their clinical course.

CONCLUSION

In all, more reported cases further paint a picture of the current state of management and outcomes regarding LVPBI, paving the way for more cohesive guidelines to ensure the best possible patient outcomes.

Transorbital penetrating intracranial injury involving bilateral frontal lobes with evisceration of right eye: A case report

Key Clinical Message

Timely diagnosis, multidisciplinary surgical intervention, and appropriate imaging are crucial in managing transorbital-penetrating intracranial injuries (TOPIs), minimizing morbidity, and optimizing patient outcomes.

Abstract

Transorbital-penetrating intracranial injuries (TOPIs) are rare occurrences with potential for severe neurological complications and high mortality rates. Prompt diagnosis and management are essential to mitigate adverse outcomes. Understanding injury patterns and employing appropriate imaging modalities are crucial for effective surgical planning and patient care. We present a case of a 22-year-old male mechanic who sustained a TOPI involving bilateral frontal lobes with evisceration of the right eye following a workplace accident with a metal cutter. Upon arrival at the emergency department, the patient exhibited vision loss in the right eye, proptosis, and a dilated pupil. Imaging studies revealed the trajectory of a metal arrow through the right orbital roof, necessitating surgical intervention. A multidisciplinary team performed bifrontal craniectomy with duroplasty to remove the foreign body and address associated injuries. Postoperatively, the patient received broad-spectrum antibiotics and anticonvulsants, leading to full recovery and discharge on postoperative day 10. TOPIs present unique challenges due to their rarity and potential for devastating consequences. Our case highlights the importance of timely diagnosis, meticulous surgical planning, and multidisciplinary collaboration in achieving favorable outcomes. Radiological imaging plays a crucial role in guiding treatment decisions and optimizing patient care. This report underscores the significance of early surgical intervention, antimicrobial therapy, and prophylactic measures in reducing morbidity and mortality associated with TOPIs.

Particular Surgical Technique for Transorbital-Penetrating Craniocerebral Injury Inflicted by a Screwdriver: Technical Case Report

Surgical techniques for non-missile penetrating brain injuries (PBI) are challenging because they require good preoperative planning. Generally, extraction is performed ipsilaterally at the entry site. In certain cases, the extraction can be performed contralaterally through the inner end of the foreign body; however, this requires special consideration. We present a case report of a patient who had a stab wound on the head via a screwdriver and underwent surgery, during which extraction was performed contralaterally through the inner end of the screwdriver without inducing any neurological deficit. Careful preoperative planning and surgical technique modification are required to minimize morbidity and mortality in patients with PBIs.

Management of Eight Hand Drill Nails Induced Penetrating Brain Injury

Background Penetrating brain injury (PBI) can be caused by several objects ranging from knives to chopsticks. However, an assault with hand drill while working in a factory is a peculiar accident. Because of its rarity and lack of standard protocol management, the management of PBI is complex.

Case Presentation We presented a case of a 26-year-old male with alleged history of insertion of eight nails from a hand drill machine from right side of head while working in a factory accompanied by loss of consciousness and history of vomiting. Computer tomography demonstrated that nails passed through the right parietal bone and reached up to contralateral hemisphere and posterior cranial fossa. Removal of nails and hematoma evacuation was done timely that led the patient to have a good postoperative recovery.

Conclusion In this case report, we discussed the successful management of a very rare penetrating head injury with a hand drill machine. The goal of this case report is to demonstrate the general management principles in PBI that can improve the patient outcome.

Nanoparticle-based drug delivery for the treatment of traumatic brain injury

INTRODUCTION

Traumatic brain injuries (TBIs) impact the breadth of society and remain without any approved pharmacological treatments. Despite successful Phase II clinical trials, the failure of many Phase III clinical trials may be explained by insufficient drug targeting and retention, preventing the proper attainment of an observable dosage threshold. To address this challenge, nanoparticles can be functionalized to protect pharmacological payloads, improve targeted drug delivery to sites of injury, and can be combined with supportive scaffolding to improve secondary outcomes.

AREAS COVERED

This review briefly covers the pathophysiology of TBIs and their subtypes, the current pre-clinical and clinical management strategies, explores the common models of focal, diffuse, and mixed traumatic brain injury employed in experimental animals, and surveys the existing literature on nanoparticles developed to treat TBIs.

EXPERT OPINION

Nanoparticles are well suited to improve secondary outcomes as their multifunctionality and customizability enhance their potential for efficient targeted delivery, payload protection, increased brain penetration, low off-target toxicity, and biocompatibility in both acute and chronic timescales.

Successful resuscitation and multidisciplinary management of penetrating brain injury caused by tire explosion: A case report

RATIONALE

Penetrating brain injury (PBI) is a rare trauma that presents as a difficult and serious surgical emergency for neurosurgeons in clinical practice. Our patient was admitted with a PBI caused by a tire explosion, which is an extremely rare cause of injury.

PATIENT CONCERNS

We report a case of a 28-year-old male patient who suffered a PBI when a tire exploded while it was being inflated with a high-pressure air pump.

DIAGNOSES

The patient was diagnosed with PBI presenting with multiple comminuted skull fractures, massive bone fragments with foreign bodies penetrating the underlying brain tissue of the top right frontal bone, multiple cerebral contusions, and intracranial hematoma.

INTERVENTIONS

Emergency combined multidisciplinary surgery was performed for the removal of the fragmented bone pieces, hematoma, and foreign bodies; decompression of the debridement flap; reconstruction of the anterior skull base; and repair of the dura mater.

OUTCOMES

The patient was successfully resuscitated and discharged 1 month later and is now recovering well.

LESSONS

Patients with PBI are critically ill. Therefore, timely, targeted examinations and appropriate multidisciplinary interventions through a green channel play a key role in assessing the condition, developing protocols, and preventing complications.

Unusual Case of Low-Velocity Large Object Penetrating the Frontal Bone with Favorable Outcome: A Case Report in Pediatric Patient

BACKGROUND: Penetrating head injury is one of the deadliest forms of head trauma; the outcome is usually low, and patients who survive long enough require complex medical treatment. Immediate imaging assessment with appropriate management can improve patient recovery. CASE REPORT: We reported a case of head penetration trauma on a 12-year-old child with embedded cylindrical iron that enters the skull without any signs of neurological deficit. CONCLUSIONS: This case shows that aggressive diagnostic imaging and emergency care followed by proper immediate head surgery management and postoperative intensive care to monitor and intervene in possible surgical and medical complications could significantly improve patient outcomes.

An unprecedented case of penetrating head trauma caused by shoji (a Japanese-style paper sliding door)

Penetrating head trauma (PHT) includes any traumatic injury where an object pierces the skull and breaches the dural membrane surrounding the brain. PHTs are less prevalent than blunt head injuries. However, they often have more complex damage, worse prognosis, and higher rates of morbidity and mortality. An 83-year-old man fell at his home and hit his head on the right side toward a shoji (a Japanese-style paper sliding door). He reported to the emergency room the following day with his family. He had a small wound before the right ear, which was sutured in the emergency room. A CT scan demonstrated tiny pieces of bone fragments inside the brain, as well as right temporal subcortical hemorrhage and pneumocephalus. He was admitted to the hospital and received intensive prophylaxis with antibiotics. He developed life-threatening skin disease and subsequent acute kidney disease requiring hemodialysis. He fully recovered from his life-threatening condition. Here, we report an unprecedented case of a penetrating head injury of an older adult caused by a shoji.

Craniocerebral nail gun injuries: a definitive review of the literature

AIM

Nail guns are important time saving devices but are associated with morbidity and mortality. Specifically, craniocerebral injuries have been reported in the literature since 1963 and have increased in frequency as the use of these tools has become commonplace. There remains a paucity of literature comprehensively assessing nail gun injuries, as compared with other penetrating craniocerebral injuries like those from firearms.

METHOD

A literature review of PubMed, Medline (Ovid), Cochrane library, and Google Scholar for articles published between 1960 and 2018 reporting craniocerebral nail gun injuries.

RESULTS

In total, 96 individual cases were identified, with 80 meeting inclusion criteria. These were categorized as accidental and intentional injuries. The demographic was overwhelmingly young males (97.5%), and intentional self-inflicted injuries (54%) was the most frequent mechanism of injury. Overall mortality was 10%. Mortality was more common in patients with intentional injuries, but morbidity rates were similar between the accidental and intentional injury cohorts. Post-operative complications rate was 23.8%.

CONCLUSION

Craniocerebral nail gun injuries are associated with lower rates of both mortality and residual neurological deficits than craniocerebral firearms injuries. There is limited data to inform clinical prognostication about long-term neurological impairments and the time to recovery which should be addressed in future studies.

Traumatic Cerebrovascular Injuries Associated with Gunshot Wounds to the Head: A Single-Institution Ten-Year Experience

BACKGROUND

Cerebrovascular injury (CVI) is a potentially devastating complication of gunshot wounds to the head (GSWH), with yet unclear incidence and prognostic implications. Few studies have also attempted to define CVI risk factors and their role in patient outcomes. We aimed to describe 10 years of CVI from GSWH and characterize these injury patterns.

METHODS

Single-institution data from 2009 to 2019 were queried to identify patients presenting with dural-penetrating GSWH. Patient records were reviewed for GSWH characteristics, CVI patterns, management, and follow-up.

RESULTS

Overall, 63 of 297 patients with GSWH underwent computed tomography angiography (CTA) with 44.4% showing CVI. The middle cerebral artery (22.2%), dural venous sinuses (15.9%), and internal carotid artery (14.3%) were most frequently injured. Arterial occlusion was the most prominent injury type (22.2%) followed by sinus thrombosis (15.9%). One fifth of patients underwent delayed repeat CTA, with 20.1% showing new/previously unrecognized CVI. Bihemispheric bullet tracts were associated with CVI occurrence (P = 0.001) and mortality (P = 0.034). Dissection injuries (P = 0.013), injuries to the vertebrobasilar system (P = 0.036), or the presence of ≥2 concurrent CVIs (P = 0.024) were associated with increased risk of mortality. Of patients with CVI on initial CTA, 30% died within the first 24 hours.

CONCLUSIONS

CVI was found in 44.4% of patients who underwent CTA. Dissection and vertebrobasilar injuries are associated with the highest mortality. CTA should be considered in any potentially survivable GSWH. Longitudinal study with consistent CTA use is necessary to determine the true prevalence of CVI and optimize the use of imaging modalities.

Transorbital-penetrating intracranial injury due to a homemade metal arrow: A case report

A transorbital-penetrating intracranial injury (TOPI) is an unusual traumatic brain injury. This rare injury has the potential to result in serious and fatal brain damage with a high mortality rate and requires prompt multidisciplinary surgical intervention. Here, we describe an interesting case in which a patient who presented with accidental penetrating injuries of the brain was found to have a transorbital-penetrating intracranial injury (TOPI). We chose an anterior approach to the foreign body above the entrance wound for removal in a retrograde manner with fluoroscopic guidance. The patient remained well with no complications and was discharged on postoperative day 10. Reasonable diagnostic imaging, surgical planning, and careful post-surgery management can increase patients successful outcomes.

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A transorbital-penetrating intracranial injury (TOPI) is an uncommon traumatic brain injury.

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TOPIs have the potential to result in serious brain damage with a high mortality rate.

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An interesting case of accidental TOPI that was treated successfully with fluoroscopic guidance is presented.

Glass Fragment Injury to the Craniocervical Junction with Interatlantooccipital Penetration to the Subarachnoid Space: Not-To-Be-Missed Important Aspects of Craniocervical Trauma Even in the Middle of the COVID-19 Pandemic: Case Report and Review of Literature

BACKGROUND

Nonmissile penetrating injuries to the craniocervical junction caused by a glass fragment are rare, and a standard management strategy has not been established.

CASE DESCRIPTION

A 75-year-old Japanese man was brought into our emergency department after receiving a left retroauricular stab wound by broken glass fragments. After spinal immobilization, a computed tomography (CT) scan revealed glass fragments penetrating at the right craniocervical junction to the interatlantooccipital subarachnoid space. CT angiography showed that both vertebral arteries were not injured. Magnetic resonance imaging demonstrated that the glass fragments did not penetrate the cervical cord or medulla oblongata. These glass fragments were removed via a midline incision from the external occipital protuberance to the C7 and with laminectomy without suboccipital craniectomy. Five of the glass fragments were found and removed in total. The dural defect was patched with a free fascia autograft. His postoperative course was uneventful. Postoperative CT angiography showed that both vertebral arteries were intact and the glass fragments had been removed completely.

CONCLUSIONS

CT graphical diagnosis is useful for the management of penetrating craniocervical junction trauma, and it should be considered in the evaluation of patients who have suffered craniocervical penetrating injury even in the absence of major wounds or bleeding. Spinal immobilization of patients with craniocervical penetrating injuries is crucial to avoid not only secondary neurologic damage but also secondary critical vascular damage. Incomplete or inadequate assessment of craniocervical stab wounds results in unexpected hazards that are preventable.

Localized asymptomatic cerebellar abscess after penetrating brain injury by wooden foreign object with adequate antibiotics administration: A case report

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Penetrating Brain Injury (PBI) incidence rate is lower than other type of head traumas, but it's the most hazardous one.

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Non enchanced head CT (NECT) is beneficially helpful for the surgeons to construct surgical plan and to estimate the prognosis related to patient's condition.

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Brain abscess is commonly found as PBI complication, it can appear 2–4 weeks, in some cases may delayed to 2–3 months after the time of injury.

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The broad-spectrum prophylactic antibiotics is important to control the infection, though abscess formation may be inevitable.

Introduction

Brain abscess is a compilation of pus enclosed in capsule as a result of focal infection in brain parenchyma. It is one of several complications found in patients who suffered penetrating brain injury.

Case presentation

Thirty-four-year-old man suffered a penetrating brain injury after a 50 cm piece of wood penetrated through his facial skull and ended its tip in his cerebellum, the wood priorly ejected from a moulding machine. As a consequence, he had to undergo a craniotomy procedure to remove the foreign body object and its debris. Following the surgery, adequate antibiotics were administered. Postoperative enhanced head CT revealed a cystic mass formation in the left hemisphere of cerebellum, measured 20 × 28 mm with blood density lesions and a visible ring enhancement. These features suggested a cerebellar abscess. The follow-up enhanced head CT later demonstrated that the size, shape, and location of the abscess were relatively consistent with the previous head CT.

Discussion

Penetrating brain injury (PBI) is the most life-threatening head trauma. Although the prevalence number was low compared to other head traumas, its morbidity and mortality number were higher. Brain abscess formation is one of the many PBI complications. Due to direct inoculation of foreign body and its debris, PBI commonly leads an infection process. However, the infection process is supposed to be overcome by administering broad-spectrum antibiotics prophylactically. This case presented an inevitable brain abscess despite of the adequate antibiotics administration.

Conclusion

Despite adequate antibiotics has been administered, cerebellar abscess after penetrating brain injury is still found challenging to manage. Therefore, holistic-multidisciplinary approaches are needed.

Transorbital nonmissile penetrating brain injury: Report of two cases

BACKGROUND

Penetrating brain injury (PBI) is an uncommon emergency in neurosurgery, and transorbital PBI is a rare type of PBI. Reasonable surgical planning and careful postoperative management can improve the prognosis of patients

CASE SUMMARY

The first case is a 68-year-old male patient who was admitted to the hospital because a branch punctured his brain through the orbit for approximately 9 h after he unexpectedly fell while walking. After admission, the patient underwent emergency surgical treatment and postoperative anti-infection treatment. The patient was able to follow instructions at a 4-mo follow-up review. The other case is a 46-year-old male patient who was admitted to the hospital due to an intraorbital foreign body caused by a car accident, after which the patient was unconscious for approximately 6 h. After admission, the patient underwent emergency surgical treatment and postoperative anti-infection treatment. The patient could correctly answer questions at a 3-mo follow-up review.

CONCLUSION

Transorbital PBI is a rare and acute disease. Early diagnosis, surgical intervention, and application of intravenous antibiotics can improve the prognosis and quality of life of patients.

Traumatic Injury of Major Cerebral Venous Sinuses Associated with Traumatic Brain Injury or Head and Neck Trauma: Analysis of National Trauma Data Bank

BACKGROUND

The natural history and epidemiological aspects of traumatic injury of major cerebral venous sinuses are not fully understood. We determined the prevalence of traumatic injury of major cerebral venous sinuses and impact on the outcome of patients with traumatic brain injury, and/or head and neck trauma.

METHODS

All the patients who were admitted with traumatic brain injury or head and neck trauma were identified by ICD-9-CM codes from the National Trauma Data Bank (NTDB), using data files from 2009 to 2010. NTDB represents one of the largest trauma databases and contains data from over 900 trauma centers across the United States. Presence of thrombosis, intimal tear, or dissection (traumatic injury) of major cerebral venous sinuses was identified in these patients by using Abbreviated Injury Scale predot codes. Admission Glasgow Coma Scale (GCS) score, Injury Severity Score (ISS), In-hospital complications, and treatment outcome were compared between patients with and without traumatic injury of major cerebral venous sinuses.

RESULTS

A total of 76 patients were identified with traumatic injury of major cerebral venous sinuses among 453,775 patients who had been admitted with head and neck trauma. The rate of penetrating injury was higher among patients with traumatic injury of major cerebral venous sinuses (11.8% versus 2.5%, p = 0.0001). The patients with traumatic injury of major cerebral venous sinuses had a significantly higher rate of intracranial hemorrhage in comparison to patients without traumatic injury of major cerebral venous sinuses. The odds of in-hospital mortality remained significantly higher for patients with traumatic injury of major cerebral venous sinuses after adjusting for age, gender, admission GCS score, ISS injury type, and presence of intracranial hemorrhage [odds ratio (OR): 6.929; 95% confidence interval (CI) 1.337-35.96; p < 0.020]. The odds of discharge to nursing home remained higher for patients with traumatic injury of major cerebral venous sinuses after adjusting for potential confounders (OR: 1.8401; 95% CI 1.18-2.85, p < 0.0065).

CONCLUSION

Although infrequent, traumatic injury of major cerebral venous sinuses in head and neck trauma is associated with higher rates of in-hospital mortality and discharge to a nursing home.

Normal aging hyperactivates innate immunity and reduces the medical efficacy of minocycline in brain injury

Symptoms of many neurodegenerative diseases appear later in human life. However, young animal models for penetrating traumatic brain injury (pTBI) have been used to study neurodegenerative diseases and evaluate the efficacy of neuroprotective medicines. Possibly because of this discordance, effective neuroprotective drugs have still not been developed. For patients suffering from pTBI, aging is known to be a significant prognostic factor of mortality. In this study, we aimed to establish a model of aged pTBI animals using Drosophila melanogaster. We successfully generated aged pTBI flies as a new pTBI model showing increased neurodegeneration and higher mortality. To elucidate the mechanism of increased vulnerability in aged pTBI animals, we analyzed the GenBank-deposited transcriptome data of young and aged flies, demonstrating the importance of innate immunity genes for higher mortality in aged pTBI models. We found that in the context of pTBI, normal aging strongly activated the expression of antimicrobial peptide genes and upregulated the nuclear factor-κB gene in the immune deficiency pathway, but not the Toll pathway. Moreover, we found that minocycline increased the survival of young pTBI flies, but not aged pTBI flies. These results suggested that immune system activation under neurodegenerative conditions was involved in normal aging, thereby inhibiting the medicinal efficacy of neuroprotective drugs effective for young flies in aged flies.

Management of a Steel Bar Injury Penetrating the Head and Neck: A Case Report and Review of the Literature

BACKGROUND

Nonmissile penetrating injuries to the head and neck caused by a steel bar are rare, and a standard management strategy is lacking.

CASE DESCRIPTION

A 42-year-old woman sustained a steel bar injury with penetration of the head and neck. Computed tomography and three-dimensional reconstruction were performed for preoperative evaluation. Digital subtraction angiography was performed to confirm potential vascular injury. The steel bar was successfully removed through an open surgical procedure by a multidisciplinary team.

CONCLUSIONS

Relevant literature regarding nonmissile penetrating injuries involving a steel bar was reviewed to propose appropriate management strategies. Comprehensive imaging evaluation and prompt surgery by a multidisciplinary team contributed to the successful removal of the steel bar.

In situ phase contrast X-ray brain CT

Phase contrast X-ray imaging (PCXI) is an emerging imaging modality that has the potential to greatly improve radiography for medical imaging and materials analysis. PCXI makes it possible to visualise soft-tissue structures that are otherwise unresolved with conventional CT by rendering phase gradients in the X-ray wavefield visible. This can improve the contrast resolution of soft tissues structures, like the lungs and brain, by orders of magnitude. Phase retrieval suppresses noise, revealing weakly-attenuating soft tissue structures, however it does not remove the artefacts from the highly attenuating bone of the skull and from imperfections in the imaging system that can obscure those structures. The primary causes of these artefacts are investigated and a simple method to visualise the features they obstruct is proposed, which can easily be implemented for preclinical animal studies. We show that phase contrast X-ray CT (PCXI-CT) can resolve the soft tissues of the brain in situ without a need for contrast agents at a dose ~400 times lower than would be required by standard absorption contrast CT. We generalise a well-known phase retrieval algorithm for multiple-material samples specifically for CT, validate its use for brain CT, and demonstrate its high stability in the presence of noise.

Management of Penetrating Brain Injury Caused by a Nail Gun: Three Case Reports and Literature Review

BACKGROUND

Penetrating brain injury (PBI) caused by a nail gun is an extremely rare neurosurgical emergency that poses a challenge for neurosurgeons because of its rarity and complexity.

CASE DESCRIPTION

Here we present 3 cases of PBI caused by a nail gun. In the first case, the nail entered through the right parietal bone and lodged in the right parietal lobe and basal ganglia. In the second case, the nail entered through the right occipital bone and lodged in the right occipital lobe. In the third case, the nail entered through the right parietal bone and lodged in the right frontal and parietal lobes. All patients underwent surgical removal of the nail. The first patient presented with reduced left-side strength, whereas the second and third patients were neurologically intact on presentation.

CONCLUSIONS

PBI caused by a nail gun can present with differing clinical manifestations, and most cases require immediate surgery. A rational management strategy should provide a good postoperative prognosis with minimal neurologic deficits in these patients.

Comparing computed tomography (CT) angiography versus digital subtraction angiography for the screening of traumatic pseudoaneurysms in transcranial stab injuries

Introduction: Transcranial stab injuries among the civilian population in South Africa are more common than in the West. In a study conducted in Durban, South Africa, in 1992, transcranial stab injuries accounted for 6% of all head injuries admitted to the neurosurgical unit. Digital subtraction angiography (DSA) has been the gold standard for diagnosing traumatic pseudoaneurysms. Its use as a screening tool is, however, limited and carries risks of neurological deficits. We postulate that the newer generation computed tomography (CT) scanner would serve as a better screening tool for traumatic pseudoaneurysms following transcranial stab injuries with the blade removed, provided the image quality is good.Methods: All patients admitted with a stab to the head with total calvarial penetration from September 2014 to January 2016 were included in the study. Those with a retained metallic fragment, incomplete imaging protocols, no penetration of the blade into the brain parenchyma or other causes of penetrating head injury were not included in the study. A retrospective chart review was then done on a prospectively recruited patient cohort. All CT angiograms were performed using a dual source CT scanner.Results: A total of 26 patients met the inclusion criteria. There were seven vascular injuries identified on DSA: three traumatic pseudoaneurysms and four vessel cut-offs. One traumatic pseudoaneurysm was missed on computed tomography angiography (CTA) because of a poor quality scan. The average sensitivity and specificity of CTA compared with DSA was 67% and 95.5%, respectively. Negative predictive value for CTA was 99.5%.Conclusion: A good quality CTA carried out on the newer generation CT scanners allows for use of CTA as a screening tool for patients with a transcranial stab injury and no retained blade or metallic foreign bodies.

Imaging characteristics and treatment of a penetrating brain injury caused by an oropharyngeal foreign body in a dog

A 4-year-old Border collie was presented with one episode of collapse, altered mentation, and a suspected pharyngeal stick injury. Magnetic resonance imaging (MRI) and computed tomography showed a linear foreign body penetrating the right oropharynx, through the foramen ovale and the brain parenchyma. The foreign body was surgically removed and medical treatment initiated. Complete resolution of clinical signs was noted at recheck 8 weeks later. Repeat MRI showed chronic secondary changes in the brain parenchyma. To the authors' knowledge, this is the first report of the advanced imaging findings and successful treatment of a penetrating oropharyngeal intracranial foreign body in a dog.

Nonmissile Penetrating Head Injuries: Surgical Management and Review of the Literature

BACKGROUND

Nonmissile penetrating head injuries (NPHIs) in the civilian population are rare but potentially fatal. Although numerous cases have been reported in the literature, the surgical management of such injuries is still ambiguous, especially with development of surgical techniques. Here, we report 5 cases of NPHIs managed with different surgical techniques and review the literature on surgical treatment of these injuries to outline the appropriate management for these patients from a neurosurgical perspective.

METHODS

We retrospectively reviewed 5 cases of NPHIs managed surgically in our department. The clinical data were collected, including cause, type of objects, way of penetration, initial clinical evaluation, imaging, surgical intervention, postoperative care, complication, follow-up, and outcome. In addition, a systematic review of the literature was performed in the PubMed database to search for articles on surgical treatment of these injuries.

RESULTS

These 5 cases were caused by twisted steel bar, electric welding rod, and sewing needle, respectively. Preoperative imaging, including computed tomography, magnetic resonance imaging, and digital subtraction angiography, was selectively performed to assist the operative plan. Foreign objects were removed surgically in all cases. Postoperative prophylactic administration of antibiotics and anticonvulsants was used to prevent infectious and epileptic complications. Most of the patients achieved a better outcome except for one.

CONCLUSIONS

NPHIs can be fatal but they can be managed with satisfactory results by proper preoperative imaging evaluation, rapid appropriate surgical management, and accurate postoperative care. Personalized surgical intervention should be undertaken depending on the mechanism and extent of the NPHI.

Unwitnessed head trauma: the bamboo did it

Unwitnessed penetrating head injuries (PHIs) are often challenging. The inability to locate a foreign body should not exclude this diagnosis nor should it delay treatment. Attempts must be made to clarify the mechanism of injury, as this may allow for a better understanding of the patient's condition.

The Neck and Posterior Fossa Combined Penetrating Injury: A Case Report

Here we report a case of penetrating neck injury to the posterior fossa that was shown, using high-resolution computed tomography (HRCT) and digital subtraction angiography (DSA), to involve no vascular injury. A 54-year-old man was brought to the emergency department after a penetrating injury to the left side of the posterior neck and occipital area with a knife. He was in an intoxicated state and could not communicate readily. On initial examination, his vital signs were stable and there was no active bleeding from the penetrating site. Because of concern about possible injury to adjacent vessels, we performed HRCT and DSA sequentially, and identified that the blade of the knife had just missed the arteriovenous structures in the neck and posterior fossa. The patient was then transferred to the operating room where the knife was gently removed. Further careful exploration was performed through the penetrating wound, and we confirmed that there were no major injuries to the vessels and neural structures. Postoperative computed tomography revealed that there was minimal hemorrhage in the left cerebellar hemisphere. The patient made a full recovery without any neurologic deficit. In this case, HRCT is a suitable tool for the initial overall evaluation. For the evaluation of vascular injury, DSA can be a specific and accurate tool. Mandatory exploration widely used for penetrating injuries. After careful preoperative evaluation and interpretation, simple withdrawal of material can be a choice of treatment.