A rare variation of the infraorbital nerve, entrapping the infraorbital artery.

Anatomical variations are a common feature of the human anatomy. Variation can explain some pathological conditions and is important to keep them in mind during surgical procedures. The relations between nerves and their adjacent arteries have been proposed to play a role in the generation of peripheral trigger migraines. Close opposition between nerves and arteries can lead to vascular compression of the nerve that triggers episodes of pain. We did a routine dissection of the infratemporal fossa and orbital floor by opening the maxillary sinus. Here we report a case where the infraorbital nerves form a nervous loop entrapping the infraorbital artery in the infraorbital channel. Similar cases of close nervous and arterial apposition are described for the auriculotemporal and occipital nerves. We think that accumulating knowledge of these rare variations could expand our understanding of rare conditions such as primary infraorbital neuralgia.

Infraorbital canal variants and its clinical and surgical implications. A systematic review.

BACKGROUND: Recent literature highlights anomalous cranial nerves in the sinonasal region, notably in the sphenoid and maxillary sinuses, linked to anatomical factors. However, data on the suspended infraorbital canal (IOC) variant is scarce in cross-sectional imaging. Anatomical variations in the sphenoid sinuses, including optic, maxillary, and vidian nerves, raise interest among specialists involved in advanced sinonasal procedures. The infraorbital nerve's (ION) course along the orbital floor and its abnormal positioning within the orbital and maxillary sinus region pose risks of iatrogenic complications. A comprehensive radiological assessment is crucial before sinonasal surgeries. Cone-beam computed tomography (CBCT) is preferred for its spatial resolution and reduced radiation exposure. OBJECTIVE: The aim of this study was to describe the prevalence of anatomical variants of the infraorbital canal (IOC) and report its association with clinical condition or surgical implication. METHODS: We searched Medline, Scopus, Web of Science, Google Scholar, CINAHL, and LILACS databases from their inception up to June 2023. Two authors independently performed the search, study selection, data extraction, and assessed the methodological quality with assurance tool for anatomical studies (AQUA). Finally, the pooled prevalence was estimated using a random effects model. RESULTS: Preliminary results show that three types are prevalent, type 1: the IOC does not bulge into the maxillary sinus (MS); therefore, the infraorbital foramen through the anterior wall of MS could be used for identification of the ION. Type 2: the IOC divided the orbital floor into medial and lateral aspects. Type 3: the IOC hangs in the MS and the entire orbital floor lying above the IOC. From which the clinical implications where mainly surgical, in type 1 the infraorbital foramen through the anterior wall of MS could be used for identification of the ION, while in type 2, since the lateral orbital floor could not be directly accessed an inferiorly transposition of ION is helpful to expose the lateral orbital wall directly with a 0 scope; or using angled endoscopes and instruments, however, the authors opinion is that direct exposure potentially facilitates the visualization and management in complex situations such as residual or recurrent mass, foreign body, and fracture located at the lateral aspect of the canal. Lastly, in type 3, the ION it's easily exposed with a 0° scope. CONCLUSIONS: This systematic review identified four IOC variants: Type 1, within or below the MS roof; Type 2, partially protruding into the sinus; Type 3, fully protruding into the sinus or suspended from the roof; and Type 4, in the orbital floor. Clinical recommendations aim to prevent nerve injuries and enhance preoperative assessments. However, the lack of consistent statistical methods limits robust associations between IOC variants and clinical outcomes. Data heterogeneity and the absence of standardized reporting impede meta-analysis. Future research should prioritize detailed reporting, objective measurements, and statistical approaches for a comprehensive understanding of IOC variants and their clinical implications. Open Science Framework (OSF): https://doi.org/10.17605/OSF.IO/UGYFZ .

The Safety of Injections in the Infraorbital Region.

BACKGROUND:  Infraorbital filler injection is a commonly used minimally invasive cosmetic procedure on the face, which can cause vascular complications. OBJECTIVE:  In this study, we aimed to explore the anatomical structure of the infraorbital vasculature and to establish an accurate protocol for infraorbital filler injection. METHODS:  The vascular structure of the infraorbital region was evaluated in 84 hemifacial specimens using computed tomography. Four segments (P1-P4) and five sections (C1-C5) were considered. We recorded the number of identified arteries in each slice and at each location and the number of deep arteries. Furthermore, we also measured the infraorbital artery (IOA) distribution. RESULTS:  At P1-P4, the lowest number of arteries was detected in segment P4, with a 317/1727 (18.4%) and 65/338 (2.3%) probability of total and deep arterial identification, respectively. The probabilities of encountering an identified artery at the five designated locations (C1-C5) were 277/1727 (16%), 318/1727 (18.4%), 410/1727 (23.7%), 397/1727 (23%), and 325/1727 (18.8%), respectively. The probability of an IOA being identified at C2 was 68/84 (81%). CONCLUSION:  We described an effective filler injection technique in the infraorbital region to minimize the associated risks. LEVEL OF EVIDENCE IV: This journal requires that authors assign a level of evidence to each article. For a full description of these Evidence-Based Medicine ratings, please refer to the Table of Contents or the online Instructions to Authors www.springer.com/00266 .

Clinical Relevance of the Variability of the Infraorbital Arterial Anatomy Evaluated by Three-Dimensional Computed Tomography.

BACKGROUND: Knowledge of the anatomy of the infraorbital artery (IOA) is crucial for the rejuvenation of the anterior medial aspect of the midface; however, studies adequately describing the anatomy of the IOA branches are lacking, and their connection with the ophthalmic artery branches remains unclear. OBJECTIVES: This study aims to elucidate the anatomical characteristics of the IOA in its deployment within the lower eyelid using three-dimensional (3D) technology, thereby offering an anatomical foundation for clinical surgical procedures. METHODS: An analysis was conducted on computed tomography scans of 132 cadaveric head sides post-contrast injection, utilizing the Mimics software for reconstruction. The study focused on examining the anastomosis of the IOA, its principal branches, and the branches emanating from the ophthalmic artery. RESULTS: The prevalence of type I IOA was observed at 38.6% (51/132), while Type II IOA was found in 61.4% (81/132) of cases. A 7.6% incidence (10/132) of IOA directly anastomosing with the angular artery was noted. The presence of palpebral branches (PIOA) was identified in 57.6% (76/132) of instances. In the lower eyelid, four distinct distribution patterns of IOA were discerned: The likelihood of Type I PIOA was 5.3%, whereas for Types IIA, IIB, and IIC PIOA, the probabilities were 8.3%, 32.6%, and 11.4%, respectively. The occurrence of the orbital branch of IOA was recorded at 41.7% (55/132). CONCLUSIONS: 3D technology can map IOA variants and identify the deployment patterns of IOA branches in the lower eyelid vascular vesicles at high resolution as a guide in clinical practice. LEVEL OF EVIDENCE IV: This journal requires that authors assign a level of evidence to each article. For a full description of these Evidence-Based Medicine ratings, please refer to the Table of Contents or the online Instructions to Authors www.springer.com/00266 .

Frequency, location, and diameter of the anastomosis between the posterior superior alveolar artery and the infraorbital artery in imaging studies: systematic review and meta-analysis.

The anastomosis between the posterior superior alveolar artery (PSAA) and the infraorbital artery (IOA) courses along half of the lateral wall of the maxillary sinus. Risk of injury to the anastomosis between PSAA and IOA during surgical procedures has been reported. The aim of the present study was to carry out a systematic review and meta-analysis to determine the frequency, location, and diameter of the anastomosis between PSAA and IOA in imaging studies (cone-beam computed tomography, spiral cone-beam computed tomography, and computed tomography). A search was carried out in the PubMed, EMBASE, and LILACS. Original works were included reporting imaging studies to analyze the frequency, location, and diameter of the anastomosis in humans. The risks of bias were analyzed using the AQUA tool. Generalized linear mixed models were used to estimate the frequency and the 95% CI in the meta-analysis. The variance in prevalence estimates was stabilized by logit transformation. The qualitative analysis included 49 studies with 10,837 patients. The frequency of the anastomosis between PSAA and IOA was 74% (prediction interval 0.20-0.97%). The anastomosis was most frequently located in the intraosseous region (60.0%), followed by the submembranous region (33.0%), and least frequently in an extraosseous location (5.0%). Arteries with diameter of 1.0-1.9 mm were most frequent (32.0%), followed by arteries with diameter less than 1 mm (23.0%); a small number with diameter greater than 2 mm was recorded (4.0%). These data can be used as a reference to help surgeons when planning interventions in the lateral wall of the maxillary sinus. Registration number: INPLASY, number 202120071.

Evaluation of alveolar antral anastomosis in south Indian population using cone beam computed tomography: a prospective study.

OBJECTIVES: The posterior superior alveolar artery (PSAA) and the infraorbital artery (IOA), both of which are ultimate branches of the maxillary artery, are connected by a horizontal anastomosis. PSAA anastomoses intraosseously and extraosseously with IOA. Profuse bleeding from the lateral wall while performing the direct sinus augmentation is a significant intraoperative complication.Thus the present study focused to assess the location of an alveolar antral anastomosis (AAA) in relation to the crest of the alveolar bone using cone beam computed tomography (CBCT). METHODS: A total of 200 CBCT scans of patients who were indicated for implant surgery were chosen and assessed. Group 1 includes 100 dentate patients and Group 2 includes 100 partially edentulous patients. The location of anastomosis along the lateral wall of the maxillary sinus was evaluated in association with alveolar bone height with respect to three posterior maxillary teeth: first premolar, second premolar, and first molar. RESULTS: The mean distance for P1, P2, and M1 was 21.94 ± 1.02 mm, 19.41 ± 0.40 mm, and 17.36 ± 0.51 mm, respectively, in the dentate group, whereas in the edentulous group, it was 20.07 ± 0.46 mm, 18.95 ± 0.32 mm, and 16.08 ± 0.16 mm. In 80% of participants, the distance of an AAA from the alveolar crest was between 16 and 23 mm, whereas in 12% of the participants the distance of an AAA from the alveolar crest was less than 16 mm. CONCLUSION: The present study concludes that the first premolar region is safe for preparing the lateral window but for the second premolar and first molar additional care should be taken prior to surgery.

Occult Mönckeberg medial calcinosis of the facial and infraorbital arteries in an elderly edentulous patient.

Mönckeberg medial calcinosis (MMC) is a potentially serious vasculopathy involving calcification of the arterial tunica media of the extremities, heart, and other viscera. There are a limited number of cases reported in the dental literature, usually associated with the facial artery. Although MMC is often discerned as an occult radiologic finding in middle-aged adults, its presence may serve as a harbinger for end-stage renal disease, diabetes, other pathologic processes, and possible regional hypoperfusion. The objective of this report is to feature an elderly patient with MMC of the facial and infraorbital arteries. In addition, a brief review of published cases of MMC and its differential diagnosis have been provided. It is recommended that affected patients be referred for a comprehensive medical assessment. Timely discovery of calcified arteries may improve patient outcomes.

Transarterial embolization through the infraorbital artery of the ethmoidal dural arteriovenous fistula causing recurrent epistaxis: illustrative case.

BACKGROUND: This report describes an ethmoidal dural arteriovenous fistula (DAVF) presenting with the unusual symptom of recurrent epistaxis and successfully treated with selective transarterial embolization through the infraorbital artery (IOA), which is the first time this route was used to the best of the authors' knowledge, and reviews the literature focusing on the anatomical consideration of ethmoidal DAVFs causing epistaxis and its treatment approaches. OBSERVATIONS: A 70-year-old man experienced recurrent intractable epistaxis that bled like a faucet turned on. Cerebral angiography revealed an ethmoidal DAVF supplied by the left anterior ethmoidal artery, both sphenopalatine arteries, both IOAs, and the right angular artery, which drained directly into the frontal cortical veins with a tortuous arterialized ectasia. Microaneurysms around the fistulous location where multiple feeding arteries converge were demonstrated and considered the likely source of the epistaxis. The fistula was completely occluded using transarterial Onyx embolization through the IOA, a branch of the internal maxillary artery. No further epistaxis appeared. LESSONS: Although extremely rare, ethmoidal DAVFs should be included in the differential diagnosis of recurrent epistaxis. Ethmoidal DAVFs with bleeding sources in the ethmoid sinus and nasal cavity may cause epistaxis. It is important to properly diagnose and treat ethmoidal DAVFs presenting with epistaxis on the basis of a comprehensive anatomical understanding of extensive extracranial-extracranial and extracranial-intracranial anastomoses.

Orbital malformation with dysplastic infraorbital artery in neurofibromatosis type 1.

PURPOSE: To report a case with neurofibromatosis type 1 presenting as prominent enophthalmos and abnormal infraorbital artery. CASE DESCRIPTION: A 19-year-old man with a family history of neurofibromatosis presented with prominent right enophthalmos. Computed tomography showed orbital dysplasia and enlarged inferior orbital fissure but no plexiform neurofibroma. Prominent intraoperative hemorrhage originated from several abnormal arteries in the infraorbital region during orbital reconstruction. A tortuous and dysplastic infraorbital artery was verified postoperatively by computed tomography angiography. The bleeding vessels were supposed to be the orbital branches of the dysplastic infraorbital artery. CONCLUSIONS: The orbital malformation and enlargement of inferior orbital fissure probably resulted in an abnormal infraorbital artery. Selective artery embolization may be chosen as a preceding treatment before orbital reconstruction surgery.

Analysis of the presence, location and morphometry of the «alveolar antral artery¼ by cone-beam computed tomography in Chilean adults / Análisis de la presencia, ubicación y morfometría de la arteria alvéolo-antral por tomografía computarizada de haz cónico en adultos chilenos

SUMMARY: The posterior superior alveolar artery is responsible for the vascularisation of the mucous which covers the posterior wall of the maxillary sinus, pulp and the periodontal tissues of upper molars. The collateral rami of the infraorbital artery irrigate the mucous of the anterior and lateral walls of the maxillary sinus, as well as the pulp and periodontal tissue of the upper anterior teeth and upper premolars. Both these arteries present intraosseous and extraosseous rami which form an anastomosis in the anterior and lateral walls of the maxillary sinus, called the alveolar antral artery (AAA). The aim of this study was to analyse the presence, location and morphometry of the AAA in a Chilean population, considering sex, side and age, using Cone-Beam computed tomography (CBCT). Forty-two CBCT examinations of Chilean adults were evaluated to analyse the presence, location (extraosseous, intraosseous or subperiosteal) and diameter (<1mm, 1-2 mm, 2-3 mm, >3 mm) of the AAA and the distance from the AAA to the amelocemental limit of the upper second premolar (2PM), permanent upper first molar (1M) and permanent upper second molar (2M) by sex and age range. Pearson's chi-squared test, Student's t-test, ANOVA and Pearson's correlation coefficient were applied, using a significance threshold of 5 %. AAA was found in 75 sides (89.3 %), 38 on the right side (90.5 %) and 37 on the left (88.09 %); extraosseous location was most common. More than 80 % of the arteries presented a diameter between 1 and 2 mm, with no important differences between sexes or age ranges. In younger individuals, the artery was located closer to the vestibular amelocemental limit than in older individuals. Carrying out a proper treatment plan which includes imagenological analysis before surgical procedures is essential to avoid possible haemorrhagic events in the region.

RESUMEN: Arteria alveolar superior posterior es responsable de la vascularización de la mucosa que recubre la pared posterior del seno maxilar, la pulpa y el tejido peridontal en el que se insertan los molares superiores. Las ramas colaterales de la arteria infraorbitaria irrigan la mucosa de las paredes anterior y lateral del seno maxilar, así como la pulpa y el periodonto de los dientes anteriores superiores y los premolares superiores. Ambas arterias presentan ramas intraóseas y extraóseas que forman una anastomosis en las paredes anterior y lateral del seno maxilar, denominada arteria alvéolo antral (AAA). El objetivo de este estudio fue analizar la presencia, localización y morfometría del AAA en una población chilena, considerando sexo, lado y edad, mediante tomografía computarizada Cone-Beam (CBCT). Se evaluaron 42 exámenes CBCT de adultos chilenos para analizar la presencia, ubicación (extraósea, intraósea o subperióstica) y diámetro (<1 mm, 1-2 mm, 2-3 mm,> 3 mm) del AAA. y la distancia del AAA al límite amelocemental del segundo premolar superior (2PM), primer molar superior permanente (1M) y segundo molar superior permanente (2M) por sexo y rango de edad. Se aplicaron la prueba de chi-cuadrado de Pearson, la prueba t de Student, ANOVA y el coeficiente de correlación de Pearson, utilizando un umbral de significancia del 5 %. Se encontró AAA en 75 lados (89,3 %), 38 del lado derecho (90,5 %) y 37 del lado izquierdo (88,09 %); la localización extraósea fue la más común. Más del 80 % de las arterias presentaban un diámetro entre 1 y 2 mm, sin diferencias importantes entre sexos ni rangos de edad. En individuos más jóvenes, la arteria se ubicó más cerca del límite amelocemental vestibular que en individuos mayores. La realización de un adecuado plan de tratamiento que incluya análisis imagenológico antes de los procedimientos quirúrgicos es fundamental para evitar posibles eventos hemorrágicos en la región.

Management of Delayed Skin Necrosis Following Hyaluronic Acid Filler Injection Using Pulsed Hyaluronidase.

Facial fillers are minimally invasive aesthetic procedures performed for facial rejuvenation and contouring all over the world. Fillers even in the most experienced hands can lead to fatal complications such as vascular complications that need to be managed immediately with the help of hyaluronidase protocols mentioned in literature. In this case report, a patient was asymptomatic with no signs of vascular occlusion such as blanching or poor capillary refill for 48 h. He came after more than 48 h of the filler injection with complaints of pulsating pain in the right infraorbital and nasolabial area. We noticed necrosed microvesicles in the infraorbital artery territory with signs of impending skin necrosis extending from right infraorbital region up to the nasolabial fold (slightly medial to it). He was treated immediately with three pulsed doses of 500 units higher dilation of 10 ml each every hour (reconstitution carried out using 3mL normal saline). The skin color improved with decreased pain, and the next day (after 14 hours) we injected 500 units of hyaluronidase in higher dilution of 10mL as slight redness was still present. Skin redness, swelling, and pain disappeared the following day. Skin was completely healed and by 15 days we noticed slight post-inflammatory hyperpigmentation, which was easily managed with Q-switched laser and creams. We hereby report a case of delayed skin necrosis (>48 h) following filler injections in the cheek area, in the infraorbital artery vascular territory, which was successfully managed with pulsed dose of hyaluronidase.

The infraorbital artery: From descriptive anatomy to mucosal perforator flap design.

BACKGROUND: The terminal and perforating branches of the infraorbital artery (IOA) are poorly described. Its anatomical situation and mucosal component could provide an interesting donor site for mucosal reconstruction. The aims of the following study were to establish an anatomical description and to assess the feasibility of mucosal perforator flaps for eyelid and nasal reconstruction. METHODS: Twenty-three fresh cadaver hemifaces were studied in order to perform an IOA anatomical classification by recording the artery's characteristics, its course, number, type, and diameter of terminal branches. We also examined the feasibility of local flaps for facial reconstruction. RESULTS: We highlighted five different types of courses. All cadavers had at least one superior vestibular branch with a caliber of ≥0.4 mm. A pedicled flap arising from the vestibular branch was raised in all dissections. CONCLUSION: The vestibular perforator flap based on the IOA seems to be a reliable flap in reconstruction of mucosal defects.

The infraorbital artery: Clinical relevance in esthetic medicine and identification of danger zones of the midface.

BACKGROUND: Over the past decade, cosmetic injections of dermal fillers or fat have become a popular procedure in facial rejuvenation in an overconsuming society. However, complications such as arterial embolism and occlusion can occur even with experienced injectors, especially in high-risks zones namely the glabella, the nasal dorsum or the nasolabial fold. The aim of this study was to define the vascular danger zones of the infraorbital area in order to provide guidelines helping avoid them. MATERIALS AND METHODS: The infraorbital artery, its main branches and their anastomoses with neighbouring vessels were studied in 18 fresh cadavers. Mimetic injections of inked hyaluronic acid were performed in the infraorbital area in the interest of analyzing its distribution and to determine potential vascular risks towards the infraorbital artery and its branches. RESULTS: The infraorbital artery and its branches were located in common injection regions and anastomosed to the supratrochlear artery, the dorsal nasal artery and the angular artery through the nasal branch of the infraorbital artery. Two danger zones could be depicted: injections can be risky when performed too superficially in the midcheek area, and likewise risky when performed in a periosteal layer in infraorbital hollow or tear-trough correction, because of an obvious possibility of retrograde embolism. CONCLUSION: The infraorbital artery can be involved in anatomic mechanism of arterial occlusion, further blindness and stroke, among the related neighbouring arteries. Based on the findings of this study, injections to the periosteum layer in tear-trough correction and above the periosteum on the zygomatic arch is not advised.

Evaluación de la arteria alveolo-antral mediante tomografía volumétrica en población mexicana y su relación con levantamiento del piso del seno maxilar / CBCT evaluation of the alveolar antral artery in a mexican cohort and its relationship to maxillary sinus floor lifting

Introducción: El conocimiento de la anatomía de la región maxilar debe ser esencial para el cirujano antes de realizar levantamiento del seno maxilar para evitar complicaciones. La arteria alveolo antral forma una anastomosis intraósea con la arteria infraorbitaria a nivel de la pared antero lateral del seno maxilar, aproximadamente a una distancia de entre 18.9 y 19.6 mm desde el reborde alveolar maxilar. La arteria alveolo antral es la encargada de dar vascularidad a la membrana mucosa del seno maxilar, pared antero lateral del seno y tejido perióstico subyacente.Objetivo: Describir y establecer la frecuencia, diámetro y localización dela anastomosis entre la arteria infraorbitaria y la arteria alveolar posterior superior, llamada arteria alveolo antral y su relación con la cresta ósea alveolar en una población mexicana. Material y métodos: Se realizaun protocolo de estudio observacional, descriptivo y transversal en una población de 1,116 pacientes derecho habientes del Instituto de Seguridad Social y Servicios para los Trabajadores del Estado (ISSSTE), en el oriente de la Ciudad de México, mediante la revisión de estudios de tomografía volumétrica computarizada. Resultados: Se encuentra la anastomosis arterial en el 90 por ciento de los estudios revisados, correspondiente a 1,005 estudios de tomografía.

Introduction: In order to avoid complications, it is essential for surgeonsto have a detailed knowledge of the anatomy of the superior maxillarybone prior to performing any sinus lift procedure. The alveolarantral artery forms an intraosseous anastomosis with the infraorbitalartery at the level of the anterolateral wall of the maxillary antrum at anapproximate distance of between 18.9 and 19.6 mm from the maxillaryalveolar ridge. The alveolar antral artery is responsible for providingvascularity to the mucous membrane of the maxillary sinus, the anteriorlateral wall of the sinus, and the underlying periosteal tissue. Objective:To analyze and establish the frequency, diameter, and locationof the anastomosis between the infraorbital artery and the posteriorsuperior alveolar artery known as the alveolar antral artery, and itsrelationship to the alveolar bone crest in a Mexican cohort. Materialand methods. We conducted a cross-sectional observational descriptivestudy involving a cohort comprised of 1,116 patients of the Institute forSocial Security and Services for State Workers (ISSSTE) on the eastside of Mexico City. The study consisted of a review of CBCT studies.Results: The arterial anastomosis was found in 90% of the 1,005 CBCTstudies reviewed, based on which the following values were determinedfor the distance between the alveolar ridge and the canal of the alveolarantral artery: for the fi rst premolar, 18.24 mm; second premolar,17.35 mm; fi rst molar, 16.96 mm, and for the second molar, 18.75 mm.Conclusions: We established the average measurements for the locationof the vascular bundle in question and the measurements neededto safeguard it along its course, which is important for the preservationand osseointegration of bone grafts placed during maxillary sinus liftprocedures, thus providing a margin of safety not previously reportedin the literature for a Mexican cohort.

Infraorbital nerve: a surgically relevant landmark for the pterygopalatine fossa, cavernous sinus, and anterolateral skull base in endoscopic transmaxillary approaches.

OBJECTIVE Endoscopic transmaxillary approaches (ETMAs) address pathology of the anterolateral skull base, including the cavernous sinus, pterygopalatine fossa, and infratemporal fossa. This anatomically complex region contains branches of the trigeminal nerve and external carotid artery and is in proximity to the internal carotid artery. The authors postulated, on the basis of intraoperative observations, that the infraorbital nerve (ION) is a useful surgical landmark for navigating this region; therefore, they studied the anatomy of the ION and its relationships to critical neurovascular structures and the maxillary nerve (V2) encountered in ETMAs. METHODS Endoscopic anatomical dissections were performed bilaterally in 5 silicone-injected, formalin-fixed cadaveric heads (10 sides). Endonasal transmaxillary and direct transmaxillary (Caldwell-Luc) approaches were performed, and anatomical correlations were analyzed and documented. Stereotactic imaging of each specimen was performed to correlate landmarks and enable precise measurement of each segment. RESULTS The ION was readily identified in the roof of the maxillary sinus at the beginning of the surgical procedure in all specimens. Anatomical dissections of the ION and the maxillary branch of the trigeminal nerve (V2) to the cavernous sinus suggested that the ION/V2 complex has 4 distinct segments that may have implications in endoscopic approaches: 1) Segment I, the cutaneous segment of the ION and its terminal branches (5-11 branches) to the face, distal to the infraorbital foramen; 2) Segment II, the orbitomaxillary segment of the ION within the infraorbital canal from the infraorbital foramen along the infraorbital groove (length 12 ± 3.2 mm); 3) Segment III, the pterygopalatine segment within the pterygopalatine fossa, which starts at the infraorbital groove to the foramen rotundum (13 ± 2.5 mm); and 4) Segment IV, the cavernous segment from the foramen rotundum to the trigeminal ganglion (15 ± 4.1 mm), which passes in the lateral wall of the cavernous sinus. The relationship of the ION/V2 complex to the contents of the cavernous sinus, carotid artery, and pterygopalatine fossa is described in the text. CONCLUSIONS The ION/V2 complex is an easily identifiable and potentially useful surgical landmark to the foramen rotundum, cavernous sinus, carotid artery, pterygopalatine fossa, and anterolateral skull base during ETMAs.

Recurrent epistaxis from a post-traumatic infraorbital artery pseudoaneurysm

@#<p style="text-align: justify;"><strong>OBJECTIVE:</strong> To present a rare case of post-traumatic recurrent epistaxis in an elderly woman.<br /><strong>METHODS:</strong><br />  <strong>Design:</strong> Case Report<br /> <strong> Setting:</strong> Tertiary Private Hospital<br /><strong>  Patient:</strong> One<br /><strong>RESULT:</strong> A  93-year-old  woman  had  multiple  admissions  for  recurrent  life  threatening  nose-bleeding  that  was  not  controlled  until  a  post-traumatic pseudoaneurysm  of  the  infraorbital artery was diagnosed and embolized.<br />CONCLUSION: The diagnosis of pseudoaneurysm should be considered in such cases, and treatment involving surgeons and interventional radiologists should be initiated to minimize morbidity and mortality.</p>

The Infraorbital Artery in Fetuses: Clinical Relevance in Perforator Flap Surgery.

INTRODUCTION: The reconstruction of soft tissue detects in mid facial region are highly demanding. Most challenging region are nasal alla. For full thickness nasal alla defects most authors use nasolabial flap based on facial/angular arcade, but for recidivans tumors the infraorbital perforator flap is a good solution. AIM: The aim of our research was to analyze the number and the course of the infraorbital artery terminal branches. MATERIAL AND METHODS: Material was 60 fetal hemifacial specimens of different gestational ages. Fetuses were fixed in 10% formalin and arterial blood vessels were injected with Micropaque solution (barium sulfate). Samples were further processed by Spalteholz technique, their images captured with digital camera and analyzed. Infraorbital artery was constant artery and had 2 to 4 terminal branches supplying infraorbital region. The majority of its terminal branches were characterized with descending course. Reach anatomical network of infraorbital artery made anastomoses with facial artery. CONCLUSION: Perforator flap based on infraorbital artery had well defined vascular supply with numerous soft tissue branches, which qualify this flap as safe solution for nasal reconstruction.

Orbital Branch of the Infraorbital Artery: Further Characterization of an Important Surgical Landmark.

The orbital branch of the infraorbital artery, a key vascular structure that is not universally noted in orbital textbooks and atlases, is clinically significant, since injury to it can result in perioperative hemorrhage. We conducted a cadaver dissection to document its presence, measure its location, and evaluate it histopathologically. It was present in 8 of 9 orbits and was a mean distance of 16.6 mm (range 10-23) from the inferior orbital rim. In half of the specimens, there were 2 separate structures seen. Histopathology confirmed these structures to be neurovascular bundles.

Arteries of the anterior wall of the maxilla in sinus lift surgery.

Knowledge of the anatomical course of the anterior maxillary wall and alveolar process arteries is essential for sinus lift procedures. The aim of this study was to analyse the localization of anastomoses between the infraorbital and posterior superior alveolar artery on 101 computed tomography (CT) scans of maxillary sinuses (patients aged 18-70 years). The distance from the anastomosis to the bone point was measured on CT scans for each tooth location; for edentulous patients measurements were made to the lower edge of the alveolar process, and for dentate patients to the neck of the tooth. Measurements were done independently by two observers. The anastomosis analysed was identified on 50% of CT scans. The distance to the anastomosis was longest above the premolar (20.4 mm from tooth cervical line) and shortest above the first molar (15.9 mm to the edge of the alveolar process). The anastomosis can be localized on a CT scan for exact positioning of the antrotomy in 50% of patients. For the remaining patients, the anatomical information provided in this study can be used to reduce the risk of damage to the anastomosis. This study provides information on the distance from the anastomosis to the neck of preserved teeth in partially edentulous patients, which can be used as a reference point during sinus lift procedures.

Single stage turn in perforator infraorbital artery island flap for nasal ala reconstruction.

BACKGROUND: The reconstruction of fullthickness nasal alla defects is challenging procedure. Use of local flaps is acceptable approach. Flap based on infraorbital artery could be used for primary reconstruction of nasal ala defects. METHODS: The prospective study include consecutive series of 15 patients with advanced skin carcinoma of the nasal ala and medial cheek staged T4 by TNM, in whom the turn in infraorbital flap was used. The patient characteristics, type of carcinoma and complications were analyzed. RESULTS: The turn in infraorbital flap was used mostly in male patients (80%), mean age 64 years. The basal cell skin carcinoma was found in 60%. Skin layer was skin grafted. All flaps survived, but in one case a partial wound dehiscence in one partial skin graft loss was found, and in two patients partial nasal obstruction occurred. These three complications were solved as secondary procedures under local anesthesia. CONCLUSION: Full-thickness defect of the nasal ala can be properly reconstructed using flap based on infraorbital artery providing exceptional esthetic and functional results, as single stage procedure.