Papadiochos I1, Petsinis V2,3, Sarivalasis S-E4, Strantzias P5, Bourazani M3, Goutzanis L2,5, Tampouris A6. 1. Attikon" University General Hospital, Chaidari, Medical School of Athens, Athens, Greece. ioannispapadiochos@gmail.com. 2. School of Dentistry, Athens, Greece. 3. OMFS Clinic of "Evaggelismos" Gereral Hospital, Athens, Greece. 4. Department of Plastic Surgery, Hygeia Hospital, Athens, Greece. 5. OMFS Clinic of "Panagiotis and Aglaia Kyriakou" Children's Hospital of Athens, Athens, Greece. 6. Private Practice, Athens, Greece.
Abstract
PURPOSE: Blindness in craniomaxillofacial (CMF) injuries may occur due to acute orbital compartment syndrome (AOCS). Primarily, this article aimed to retrospectively review our 4-year experience in the management of patients diagnosed with AOCS secondary to an orbital hematoma (OH). Furthermore, this paper included up-to-date information regarding the prevalence, diagnosis, management, and prognosis of AOCS. MATERIALS AND METHODS: We retrospectively screened the medical records of patients who visited our hospital's emergency department (ED) and were examined by an oromaxillofacial surgeon for CMF injuries, between September 1, 2013, and September 31, 2017. The electronic hospital's database was searched to retrieve all cases of CMF trauma admitted or referred to our clinic during this period. RESULTS: Over a 49-month period, 3,514 patients were managed for CMF injuries in ED; 9 cases (0.26%) were attributed to OCS caused by an OH. This group comprised 5 males and 4 females aged between 32 and 91 years old (mean 65.7, median 70). Seven out of 9 patients were subjected to lateral canthotomy and inferior cantholysis (LCIC), whereas septolysis was applied in 6 of them. Sight was preserved in 3 out of 8 patients (37.5%), since a patient died from a serious intracranial injury. Seven out of 9 patients (77.7%) of the OCS group had a history of hypocoagulable state. CONCLUSIONS: LCIC, septolysis, and careful dissection within inferotemporal orbital quadrant constitute a reliable approach for emergent orbital decompression. CT scan offers differential diagnosis of acute traumatic proptosis, but it should preferably follow LCIC. In case of OHs without pupillary abnormalities and/or impairment of visual acuity, close monitoring allowing for timely interventions is highly recommended to patients with a history of hypocoagulative status, (uncontrolled or severe) hypertension, head trauma, and decreased level of consciousness or in elderly patients suffering from dementia or without rapid access to follow-up medical care. Clinicians dealing with ED services must maintain high skills in AOCS diagnosis and in LCIC execution.
PURPOSE: Blindness in craniomaxillofacial (CMF) injuries may occur due to acute orbital compartment syndrome (AOCS). Primarily, this article aimed to retrospectively review our 4-year experience in the management of patients diagnosed with AOCS secondary to an orbital hematoma (OH). Furthermore, this paper included up-to-date information regarding the prevalence, diagnosis, management, and prognosis of AOCS. MATERIALS AND METHODS: We retrospectively screened the medical records of patients who visited our hospital's emergency department (ED) and were examined by an oromaxillofacial surgeon for CMF injuries, between September 1, 2013, and September 31, 2017. The electronic hospital's database was searched to retrieve all cases of CMF trauma admitted or referred to our clinic during this period. RESULTS: Over a 49-month period, 3,514 patients were managed for CMF injuries in ED; 9 cases (0.26%) were attributed to OCS caused by an OH. This group comprised 5 males and 4 females aged between 32 and 91 years old (mean 65.7, median 70). Seven out of 9 patients were subjected to lateral canthotomy and inferior cantholysis (LCIC), whereas septolysis was applied in 6 of them. Sight was preserved in 3 out of 8 patients (37.5%), since a patient died from a serious intracranial injury. Seven out of 9 patients (77.7%) of the OCS group had a history of hypocoagulable state. CONCLUSIONS: LCIC, septolysis, and careful dissection within inferotemporal orbital quadrant constitute a reliable approach for emergent orbital decompression. CT scan offers differential diagnosis of acute traumatic proptosis, but it should preferably follow LCIC. In case of OHs without pupillary abnormalities and/or impairment of visual acuity, close monitoring allowing for timely interventions is highly recommended to patients with a history of hypocoagulative status, (uncontrolled or severe) hypertension, head trauma, and decreased level of consciousness or in elderly patients suffering from dementia or without rapid access to follow-up medical care. Clinicians dealing with ED services must maintain high skills in AOCS diagnosis and in LCIC execution.
Authors: Jan Oliver Voss; Stefan Hartwig; Christian Doll; Bodo Hoffmeister; Jan-Dirk Raguse; Nicolai Adolphs Journal: J Craniomaxillofac Surg Date: 2016-05-15 Impact factor: 2.078
Authors: Fabio Roccia; Paolo Boffano; Valeria Guglielmi; Paolo Forni; Emanuele Cassarino; Juri Nadalin; Antonio Fea; Giovanni Gerbino Journal: J Emerg Trauma Shock Date: 2011-04