Diagnostic Value of Point-of-Care Ultrasound-Guided Assessment of Relative Afferent Pupillary Defect in Adult Ocular Trauma Patients Presenting to the Emergency Department: A Prospective Cohort Study.

OBJECTIVES: Early diagnosis of relative afferent pupillary defects (RAPDs) in patients with ocular trauma is crucial for timely management and improved outcomes. However, clinical examination can be challenging for patients with periorbital ecchymosis. This study aimed to compare the diagnostic accuracy of point-of-care ultrasound (POCUS) and clinical examination by emergency physicians for detecting RAPD in adult ocular trauma patients and to evaluate the proportion of RAPD in patients with ocular trauma who presented to the ED. METHODS: This prospective cohort study was conducted at an academic emergency department in South India. Adult ocular trauma patients were assessed for RAPD using clinical examinations by emergency physicians and POCUS. The diagnostic accuracies of both methods were compared, with the ophthalmologist's final diagnosis serving as the gold standard. The sensitivity, specificity, positive predictive value (PPV), and negative predictive value (NPV) were calculated for both techniques. RESULTS: A total of 376 patients (median age, 35 years) were included in this study. RAPD was identified in 14.63% of the patients. The sensitivity and specificity of POCUS in detecting RAPD were 92.73% and 99.38%, respectively, which were higher than those of clinical examination, with a sensitivity of 81.82% and specificity of 99.07%. The PPV and NPV of the clinical examination were 93.75% and 96.95%, respectively, whereas the PPV and NPV of POCUS were 96.23% and 98.76%, respectively. POCUS accurately diagnosed RAPD in patients with periorbital ecchymosis. CONCLUSION: POCUS-guided RAPD assessment proves to be a better diagnostic adjunct compared to clinical examination in patients with ocular trauma presenting to the emergency department.

Pediatric orbital lesions: bony and traumatic lesions.

Orbital pathologies can be broadly classified as ocular lesions, extraocular soft-tissue pathologies (non-neoplastic and neoplastic), and bony and traumatic lesions. In this paper, we discuss the key imaging features and differential diagnoses of bony and traumatic lesions of the pediatric orbit and globe, emphasizing the role of CT and MRI as the primary imaging modalities. In addition, we highlight the adjunctive role of ocular sonography in the diagnosis of intraocular foreign bodies and discuss the primary role of sonography in the diagnosis of traumatic retinal detachment.

Evaluating Ciliary Body Damage Induced by Blunt Low Speed Impact Using Finite Element Simulation.

PURPOSE: To evaluate the ciliary body mechanical load during low speed impact using finite element method to explain the mechanism of the cause of angle recession and cyclodialysis cleft. METHODS: Optical coherence tomography images were obtained to assess the patient's ciliary body angle recession. A finite element eye model was established based on Virginia Tech eye model with the consideration of dynamic impact of a projectile striking an eye. The mechanical properties of the ocular tissues were obtained from literatures. The stress and strain were evaluated. RESULTS: The stress distribution of the eye was calculated. The stress concentration at zonules was observed after 0.75 ms of the impact. The maximum stress at the cornea reached 3.8 MPa. The maximum stress at ciliary body was 57 KPa, which has high probability to cause ciliary body injury. The maximum stress at zonules was 0.98 MPa. The lateral expansion also reduces the forces transmitted along the sclera to the rear part of the eye. CONCLUSIONS: The eye under frontal impact will result in lateral expansion, which increase the stretch force of the lens, zonules and ciliary body. This mechanism can be seen as the protection for retina. The boundary of ciliary body is the most vulnerable position, where angle recession and cyclodialyses cleft will occur before retina damage occurrence. TRANSLATIONAL RELEVANCE: The finite element model explains the blunt low speed impact induced ciliary body related injuries, which enables us to assess the ocular injury for low energy impact and better diagnosis and treatment in clinics.

Acute subperiosteal orbital haematoma following general anaesthesia in the setting of recent trauma.

Subperiosteal orbital haematoma (SOH) is an uncommon condition that involves bleeding within the potential space between the periosteum and orbital bone. This typically occurs within the superior orbit. If the SOH is large enough it can compress orbital structures and be sight threatening. Therefore, it is important for the clinician to recognize the potential causes for this phenomenon which will help guide the diagnosis. Herein we describe a unique case of unilateral SOH in a 47-year-old male following otherwise uncomplicated general anaesthesia. This occurred 6 weeks after a motorbike accident in which there was no facial/ocular injury. This case report identifies for the first time the potential for a late-onset SOH in the setting of a stressor event. It also highlights the potential for this condition to occur following general anaesthesia in a supine patient having a non-cardiac procedure, previously recognized as a potential stressor.

CT Features of Posttraumatic Vision Loss.

Clinical evaluation of patients with trauma is challenging, especially in the presence of neurologic injuries. Vision loss after trauma is a harmful and usually overlooked consequence that may be avoided with a prompt and accurate intervention. Head CT is commonly performed in patients with trauma. However, radiologists may be unfamiliar with the CT findings associated with injuries that may affect eyesight. Understanding the visual pathway anatomy and its critical landmarks is paramount for recognizing these findings. This article describes the use of head CT to evaluate the visual pathway to help avoid vision loss in patients with trauma. Injuries are presented in terms of those affecting the globe (rupture, hemorrhage, and lens trauma), optic nerve (direct and indirect traumatic optic neuropathy), orbit (orbital compression syndrome), and vasculature (traumatic carotid-cavernous sinus fistula and posterior cerebral artery injury or ischemia). Techniques for measuring the globe on CT to assess for injury are illustrated. Indications for screening CTA of the head and neck in patients with suspicion for blunt traumatic vascular injury are summarized. Emphasis is placed on the CT findings that warrant an emergency intervention to prevent traumatic visual impairment.

Case Report: Atraumatic Orbital Emphysema after Bronchoscopy with Endobronchial Biopsy.

SIGNIFICANCE: Orbital emphysema is a well-documented condition where air enters the orbital soft tissue typically because of direct or indirect trauma; however, atraumatic cases can be encountered. The following is a novel case report of acute unilateral atraumatic orbital emphysema 24 hours after bronchoscopy with endobronchial biopsy. PURPOSE: To the best of the authors' knowledge, this is the first known case report of atraumatic orbital emphysema as a postprocedure complication of bronchoscopy with endobronchial biopsy in the literature. CASE REPORT: A 74-year-old man presented with painless swelling of the left upper and lower eyelids upon awakening. The patient had a history of bronchoscopy and endobronchial biopsy with conscious sedation for a right upper lobe lung mass 24 hours before the visit. Slit-lamp examination revealed air entrapment in the left upper and lower lids with enlarged subconjunctival air pockets of the left eye. Head and maxillofacial computed tomography without contrast revealed extensive emphysema tracking and dissecting along the subcutaneous and deep soft tissue spaces of the neck and face that was more pronounced along the left side. The patient was admitted for overnight observation and prescribed a prophylactic oral course of 250 mg of azithromycin daily for 2 days by the attending hospitalist. The subsequent follow-up visit 3 days later revealed complete resolution of signs and symptoms. CONCLUSIONS: This case report demonstrates the importance of considering orbital emphysema in patients with a history of recent bronchoscopy with endobronchial biopsy. Clinicians should be aware of this potential complication and refer for appropriate testing and comanagement.

Eye Emergencies.

Central retinal artery occlusions, chemical injuries, mechanical globe injuries, and retinal detachments are eye emergencies that can result in permanent vision loss if not treated urgently. Family physicians should be able to recognize the signs and symptoms of each condition and be able to perform a basic eye examination. Patients with a central retinal artery occlusion require urgent referral for stroke evaluation and should receive therapy to lower intraocular pressure and vasodilating agents to minimize retinal ischemia. Chemical injuries require immediate irrigation of the eye to neutralize the pH of the ocular surface. A globe laceration or rupture is common in patients with a recent history of trauma from a blunt or penetrating object. Physicians should administer prophylactic oral antibiotics after a globe injury to prevent endophthalmitis. The eye should be covered with a metal shield until evaluation by an ophthalmologist. Patients with symptomatic floaters and flashing lights should be referred to an ophthalmologist for a dilated funduscopic examination to evaluate for a retinal tear or detachment.

Recurrent Orbital Trauma Following Repaired Orbital Floor Fracture.

A study of a 22-year-old male who was assaulted and sustained a left orbital floor blowout fracture was presented in this study. The orbital floor was repaired with a titanium-reinforced porous polyethylene implant. Two years postoperatively, the patient sustained repeated left orbital trauma. The orbital floor implant remained stable while the medial wall blew out.

Imaging review of ocular and optic nerve trauma.

Traumatic ocular injuries account for a substantial number of emergency department visits annually and represent a significant source of patient disability. A thorough understanding of ocular/optic nerve anatomy and traumatic pathology is fundamental in the accurate and efficient interpretation of emergency neuroradiology. This article will review relevant anatomy, imaging protocols, clinical symptomatology, and key imaging findings associated with the broad spectrum of traumatic ocular and optic nerve pathology.

Post-traumatic enophthalmos secondary to orbital fat atrophy: a volumetric analysis.

PURPOSE: To investigate via volumetric analysis whether orbital fat atrophy occurs in late post-traumatic enophthalmos. METHODS: An IRB-approved retrospective cohort study identified patients with diagnoses of both orbital fracture and enophthalmos with a CT orbits >3 months after injury. Exclusion criteria were surgical repair, other orbital disease or surgery, adjacent sinus disease, and an abnormal contralateral orbit. Images were analyzed using OsiriX imaging software (v.9.0.2, Pixmeo, Switzerland). Total orbital volume and orbital fat volume for the fractured and normal contralateral orbits were measured via three-dimensional volume rendering assisted region-of-interest computation. Enophthalmos was measured radiographically. Paired samples t-tests were used to compare orbital fat and total orbital volumes between the fractured and normal contralateral orbits. RESULTS: Thirteen patients met the inclusion criteria. The numbers of patients with each fracture pattern were floor (4), medial wall (4), floor/medial wall (3), zygomaticomaxillary complex (floor+lateral wall) (1), zygomaticomaxillary complex+medial (inferior/medial/lateral walls) (1). Mean time from injury to CT scan was 21.8 ± 16.3 months. Comparing the fractured and normal contralateral orbits, there was a statistically significant decrease in orbital fat volume (mean difference 0.9 ml (14.2%), p = .0002) and increase in total orbital volume (mean difference 2.0 ml (7.0%), p = .0001). One ml orbital volume change was responsible for 0.83 mm enophthalmos. CONCLUSIONS: In addition to an increase in total orbital volume, orbital fat loss occurs with late post-traumatic enophthalmos due to unrepaired fractures. This suggests correction of bony change alone may be insufficient in some cases, and the use of custom implants may compensate for fat atrophy.

Ultrasound in Trauma and Other Acute Conditions in Sports, Part II.

The utility of ultrasound in sports medicine is improving the sports medicine physician's ability to rapidly diagnose and treat a multitude of sports related pathologies. In this article, we clearly outline the current status of the evidence in support of using sports ultrasound in the setting of acute ocular injury, evaluation of elevated intracranial pressures, deep venous thrombosis, and soft tissue complaints.

Diagnosis of Traumatic Eye Injuries With Point-of-Care Ocular Ultrasonography in the Emergency Department.

STUDY OBJECTIVE: Traumatic eye injuries are common emergency department presentations worldwide, and diagnosis may be delayed because of concurrent injuries and lack of guidelines in regard to the utility of clinical examination, computed tomography (CT), and point-of-care ultrasonography. In this study, we compare point-of-care ultrasonography with ophthalmologist clinical examination and CT for 6 types of traumatic eye injury. METHODS: We conducted a prospective cohort study evaluating patients with suspected traumatic eye injury who were recruited at an academic medical center in Tabriz, Iran. Each patient was evaluated by an emergency physician with point-of-care ultrasonography using a 7- to 15-MHz linear transducer, by a radiologist with orbital CT imaging, and by an ophthalmologist with a complete bedside ocular examination. Obtained results were tabulated. Sensitivity, specificity, and likelihood ratios were subsequently calculated. Cohen's κ was assessed to evaluate the agreement between ocular point-of-care ultrasonography with orbital CT and point-of-care ultrasonography with complete bedside ocular examination. RESULTS: Two hundred thirty-two patients (351 eyes) with suspected traumatic eye injury were included. In all measures of accuracy, diagnosis by point-of-care ultrasonography compared favorably with CT and a complete bedside ocular examination by an ophthalmologist in the 6 ocular injury patterns included in this study. Compared with CT imaging, point-of-care ultrasonography provided a specificity of 99.4% (95% confidence interval [CI] 97.8% to 99.9%) and a sensitivity of 96.8% (95% CI 83.3% to 99.9%) in the diagnosis of lens dislocation, and a specificity of 99.7% (95% CI 98.3% to 100.0%) and sensitivity of 95.7% (95% CI 78.1% to 99.9%) in the diagnosis of retrobulbar hematoma. Compared with complete bedside ocular examination by an ophthalmologist, point-of-care ultrasonography provided a specificity of 98.7% (95% CI 96.7% to 99.6%) and sensitivity of 97.8% (95% CI 88.2% to 99.9%) in the diagnosis of vitreous hemorrhage. In all injury types, positive likelihood ratios were high and negative ones were low. CONCLUSION: Point-of-care ultrasonography demonstrates high sensitivity and specificity in the diagnosis of traumatic eye injury, and represents a valuable diagnostic tool in addition to orbital CT and complete beside ocular examination by an ophthalmologist in the diagnosis of traumatic eye injury.

Sub-hyaloid and sub-internal limiting membrane macular hemorrhage after laser exposure at music festival: a case report.

PURPOSE: To describe the first case of a combined sub-hyaloid and sub-internal limiting membrane macular hemorrhage after recreational laser exposure. METHODS: A 23-year-old patient presented with an acute loss of vision in his right eye (OD) immediately after a brief exposure to a laser beam at a music festival. Color photography, spectral-domain optical coherence tomography (SD-OCT), and multifocal electroretinogram (mfERG) were performed for diagnosis and follow-up. RESULTS: On presentation, visual acuity was 20/400 in the OD and 20/20 in the left eye. Posterior segment examination of his OD revealed a preretinal hemorrhage at the macula. SD-OCT images exposed a combined sub-hyaloid and sub-internal limiting membrane localization. Successful VPP with ILM peeling was carried out. Although sequential mfERG displayed almost complete restoration of the P1 amplitude 6 months posterior to VPP, SD-OCT demonstrated permanent damage to outer retinal layers. Final BCVA on OD was 20/30. CONCLUSION: The expanding and unregulated use of lasers in everyday life has created an increasing amount of cases of laser-induced retinopathy in recent years. Much more attention should be addressed in laser safety and awareness to prevent future ocular injuries. In acute phases of sub-hyaloid hemorrhages blocking direct visualization of the posterior pole, mfERG is a valuable tool to address initial macular pathology.

Study on the effectiveness and safety of Foldable Capsular Vitreous Body implantation.

BACKGROUND: Foldable capsular vitreous body (FCVB) was designed to treat severe retinal detachment. The aim of this study was to evaluate the efficacy and safety of the implantation of foldable capsular vitreous body in 1-year follow-up. METHODS: A retrospective analysis was conducted for 20 patients with severe ocular trauma or silicone oil (SO) dependent eyes underwent vitrectomy and FCVB implantation in a 1-year follow-up. All treated eyes were peformed clinical examinations involved the visual acuity (VA) examination, Goldmann applanation tonometer, noncontact specular microscopy, fundus photography, B-Scan examination and optical coherence tomography (OCT). The groups were compared with t-test and the McNemar - Bowker test. RESULTS: In 1-year follow-up, 20 eyes were evaluated in the study. FCVB well supported the vitreous retina in all treated eyes, and 6 treated eyes achieved retinal reattachment 12 months after FCVB implantation. There were no significant differences in VA before and after FCVB implantation (P = 1.000). In addition, the postoperative IOP markedly elevated from the preoperative IOP of 12.90 ± 7.06 mmHg to 15.15 ± 3.36 mmHg (P = 0.000017). The intraocular pressure (IOP) of 10 eyes maintained at a normal level after surgeries. The other 10 eyes showed slightly lower IOP within the acceptable level. Though two patients developed keratopathy and ocular inflammation respectively, other treated eyes were symmetric with fellow eyes showing satisfactory appearance. Moreover, there was no SO emulsification or leakage happened in the observation. CONCLUSIONS: FCVB implantation was an effective and safe treatment in the eyes with severe retinal detachment.

Does Orbital Volume Change Using the Mirror Technique Have a Correlation With Posttraumatic Enophthalmos?

An increase in orbital volume (OV) is an important factor in posttraumatic enophthalmos. The aim of this study was to evaluate the correlation of OV change using the mirror technique with posttraumatic enophthalmos.In this cross-sectional study, a 3-dimensional (3D) semi-automated volumetric method, using a 3D volume rendering tool, was applied to measure OV. The total orbital volume difference (TOVD), posterior orbital volume difference (POVD), and anterior orbital volume difference (AOVD) were measured as predictive factors in traumatic and intact orbits. Enophthalmos was also examined as the outcome, using a Hertel exophthalmometer.A total of 27 patients were examined in this study. The mean TOVD was 4.48 ±â€Š1.82 mm, the mean POVD was 1.91 ±â€Š0.31 mm, and the mean AOVD was 2.57 ±â€Š1.71 mm; also, the mean enophthalmos was 2.89 ±â€Š1.12 mm. Pearson's correlation test demonstrated a positive correlation between enophthalmos and TOVD, POVD, and AOVD (P <0.05). Based on the linear regression model, TOVD had a predictive power of 61.7% for enophthalmos. For every 1-mm volume change, a 0.38-mm enophthalmos was expected (R, 0.617; B, 0.38; P = 0.001).TOVD, POVD, and AOVD showed strong correlations with enophthalmos. However, it seems that POVD has the greatest effects on the occurrence of posttraumatic enophthalmos.

Correlation of Clinical Findings With Computed Tomography in Orbital Traumas.

BACKGROUND: Although the eye is a well-protected organ, it is frequently affected by trauma. The timely detection of ocular injuries is extremely important. In this study, the authors evaluated the consistency between findings in computed tomography (CT) examination for orbital fractures and globe integrity and clinical findings in patients presenting to the emergency department due to orbital trauma. METHODS: The authors retrospectively reviewed the files of patients presenting with orbital trauma between January 2015 and January 2018 from emergency department records. Ophthalmology consultation and follow-up notes, radiology reports, and the emergency physician's notes were reviewed. RESULTS: During the study period, 286 patients presented to the emergency department with orbital trauma. A total of 119 eyes of 83 patients who underwent orbital CT were included in the study. Orbital bone fracture was detected in 54.6% (n = 65) of the eyes. Of these, 73.8% (n = 48) involved multiple fractures. Among all eyes, the distribution of fractures in the orbital walls was lateral wall in 41.2% (n = 49), floor in 32.8% (n = 39), medial wall in 31.1% (n = 37), and roof in 10.9% (n = 13). Multiple wall fractures were detected in 36.9% (n = 44) of the eyes. At least 1 clinical finding such as diplopia, laceration, abnormal pupillary response, hypoesthesia, and exophthalmos was observed in 47.1% (n = 56) of the eyes. This rate was 56.8% among eyes with orbital fractures and 35.2% in those without fracture. There was a statistically significant relationship between floor fractures and diplopia (P = 0.002). No significant correlations were found between the other radiological and clinical findings. CONCLUSION: Our study revealed a relationship between the presence of orbital fracture and eye damage. In particular, the authors found that the frequency of diplopia was significantly higher in eyes with maxillary bone fracture in the orbital floor. However, orbital CT findings other than bone fracture were not consistent with clinical findings.

Sonography in acute ocular pathology: a kaleidoscopic view.

Ocular emergencies contribute to a large proportion of ocular pathologies. These may even be organ-threatening diseases such as central retinal artery and vein occlusion or globe rupture. Conventional physical examination may not always be feasible in emergency situations but decision-making in time is critical in the interest of patient in few of these conditions. Sonography in this setting plays an important role, allowing real-time, quick and dynamic evaluation. Common acute ocular pathologies such as retinal detachment, lens dislocation and globe rupture can be easily diagnosed by ultrasound. Vascular lesions can be identified using Doppler. This article illustrates the sonographic appearance in traumatic and non-traumatic acute ocular pathologies.

Ocular toxicity due to colours used during holi celebration in India: correlation of clinical findings with the anterior segment OCT.

PURPOSE: To correlate the anatomical extent of ocular surface toxicity due to colours using anterior segment optical coherence tomography (ASOCT) with the clinical findings. METHODS: Patients presenting to our emergency department with ocular colour toxicity during the Holi festival celebrations from March 2 2018 to March 5 2018 were assessed for any adnexal, conjunctival, corneal, and anterior chamber findings, as well as findings on anterior segment optical coherence tomography. RESULTS: A total of 21 patients were observed. The average age was 23 years with 16 patients being male (76.19%). Bilateral ocular involvement was more common (13 patients, 61.90%). Clinically, the corneal changes included localized punctate epitheliopathy (type I) in 12 patients (57.14%) and diffuse punctate epitheliopathy admixed with a variable sized epithelial defect (type II) in the other 9 patients (42.85%). The visual acuity among the former group varied from 6/6 to 6/9, whereas for the latter, it ranged from 6/12 to 6/24. On ASOCT in both the types, the superficial stromal involvement was noted up to 60 microns. Interestingly in two patients with type II corneal involvement, anterior segment involvement was noted in the form of staining of the lens capsule and dense anterior chamber inflammation. CONCLUSIONS: Ocular toxicity due to colours used during Holi mainly involves the surface epithelium and the superficial stroma. This was observed clinically and also confirmed on ASOCT. The colour can rarely diffuse into the anterior chamber causing an inflammatory reaction and staining of the lens capsule. However, if managed appropriately, vision-threatening complications can be averted.

Zygomatic dental implant induced orbital fracture and inferior oblique trauma.

A 51-year-old female underwent four upper zygomatic dental implants (ZI) and one upper and four lower conventional implants. Immediately postoperatively, the patient had pain and diplopia upon manual elevation of the edematous eyelid. Panoramic x-ray showed a malpositioned right upper ZI, requiring removal of the right upper ZI the following day. The patient had delayed referral to ophthalmology one month later for persistent diplopia. Computed tomography scan and magnetic resonance imaging demonstrated a right inferolateral fracture with fibrosis surrounding the inferior oblique muscle. Clinical exam showed right lower eyelid retraction, right hypotropia, and inability to elevate in adduction, consistent with a right inferior oblique paresis. Surgical exploration revealed incarceration of lid and orbital tissue into the fracture. After repositioning of the prolapsed tissue, a high-density porous polyethylene implant was placed for fracture repair. The inferior fornix was reconstructed with amniotic membrane and 5-fluorouracil was injected into the scar tissue. Six months later, the patient underwent strabismus surgery with resolution of symptoms.