Research Article
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Üçüncü Basamak Sağlık Merkezinde Oküler Travmaya Bağlı Göz İçi Basıncı Yüksekliklerinin Tanı ve Tedavi Sürecinin Değerlendirilmesi: 1990-2018 yılları arası 28 yıllık analiz

Year 2023, Volume: 56 Issue: 3, 146 - 150, 21.01.2024
https://doi.org/10.20492/aeahtd.1241383

Abstract

AIM: To evaluate the etiological and demographic characteristics and treatment processes of patients with trauma-induced elevated intraocular pressure (IOP).
MATHERIAL AND METHOD: We retrospectively analysed 191 patients with elevated IOP after trauma between 1990 and 2018. Demographic characteristics, type of trauma, cause of glaucoma, lens status, visual acuity, IOP, other ocular findings, medical and/or surgical treatments and follow-up periods were recorded.
RESULTS: A total of 148 (77.5%) males and 43 (22.5%) females with a mean age of 29.68±19.47 years were analysed. Mean follow-up period was 158±23.73 months. The type of trauma was blunt in 171 patients (89.5%) and open in 20 patients (10.5%). The mean interval between trauma and IOP elevation was 78 days (3 days-5 years). Glaucoma was due to angle regression in 89 (46.6%), hyphema in 78 (40.8%), lens-related in 24 (12.6%) and other causes in 3 (1.54%) patients. Lens damage, lens-related IOP elevation and need for surgical intervention were more common after open injuries. 72% of the patients were able to achieve appropriate IOP with observation and medical treatment alone without surgery. Trabeculectomy was the most preferred effective surgical method in both trauma groups.
CONCLUSION: The development of glaucoma after ocular trauma is an essential factor affecting visual prognosis. Early diagnosis and treatment might be challenging in proportion to the severity of ocular involvement. However, not all IOP elevations may cause glaucomatous damage, transient IOP elevations could be monitored without medication. In our study, the frequency of posttraumatic IOP elevation was higher in men and young people. This might be related to more trauma exposure in the indicated population. Blunt traumas cause IOP elevation more frequently. In contrast, the need for glaucoma surgery is more frequent after open injuries. Angle recession is the most common cause of posttraumatic glaucuma. Therefore, angle assessment is necessary in all possible cases. The status of the lens after trauma will affect the prognosis and choice of surgery. Regular follow-up is crucial for the detection of secondary glaucoma since IOP elevation may develop in the late post-traumatic period.

Keywords: Ocular trauma, blunt trauma, angle recession glaucoma, traumatic glaucoma

References

  • 1.Bojikian, K.D., et al., Incidence and risk factors for traumatic intraocular pressure elevation and traumatic glaucoma after open-globe injury. Eye (Lond), 2015. 29(12): p. 1579-84.
  • 2.Girkin, C.A., et al., Glaucoma following penetrating ocular trauma: a cohort study of the United States Eye Injury Registry. Am J Ophthalmol, 2005. 139(1): p. 100-5.
  • 3.Frederıck M. Blanton, M., Baltimore, Anterior Chamber Angle Recession and Secondary Glaucoma A Study of the Aftereffects of Traumatic Hyphemas. Arch Ophthalmol., 1964(39043).
  • 4.Kaufman, J.H. and D.W. Tolpin, Glaucoma After Traumatic Angle Recession A Ten-Year Prospective Study. American Journal of Ophthalmology, 1974. 78(4): p. 648-654.
  • 5.Julio E. De Leon-Ortega, M., Christopher A. Girkin, MD, Ocular trauma- related glaucoma. Opht-halmol Clin N Am, 2002. 15: p. 215-223.
  • 6.Osman, E.A., et al., Glaucoma After Open-globe Injury at a Tertiary Care University Hospital: Cu-mulative Causes and Management. J Glaucoma, 2016. 25(3): p. e170-4.
  • 7.Razeghinejad, R., et al., Pathophysiology and management of glaucoma and ocular hypertension related to trauma. Surv Ophthalmol, 2020. 65(5): p. 530-547.
  • 8.Hai-Qing Bai, L.Y., Da-Bo Wang, Rui Jin, Yun-Xiao Wang, Causes and treatments of traumatic se-condary glaucoma. European Journal of Ophthalmology, 2009. 19: p. 201-206.
  • 9.Ng, D.S., R.H. Ching, and C.W. Chan, Angle-recession glaucoma: long-term clinical outcomes over a 10-year period in traumatic microhyphema. Int Ophthalmol, 2015. 35(1): p. 107-13.
  • 10.Coats DK, P.E., Kong J, Unrecognized microscopic hyphema masquerading as a closed head injury. Pediatrics, 1998. 102: p. 652- 654.
  • 11.R. Sihota, N.N.S.a.H.C.A., Traumatic glaucoma Acta Ophthalmologıca Scandınavıca, 1995: p. 252-254.
  • 12.Salmon, J.F., et al., The Detection of Post-traumatic Angle Recession by Gonioscopy in a Po-pulation-based Glaucoma Survey. Ophthalmology, 1994. 101(11): p. 1844-1850.
  • 13.T Manners, J.F.S., A Barron, C Willies, A D N Murray, Trabeculectomy with mitomycin C in the treatment of post-traumatic angle recession glaucoma. Br J Ophthalmol, 2001: p. 159-163.
Year 2023, Volume: 56 Issue: 3, 146 - 150, 21.01.2024
https://doi.org/10.20492/aeahtd.1241383

Abstract

References

  • 1.Bojikian, K.D., et al., Incidence and risk factors for traumatic intraocular pressure elevation and traumatic glaucoma after open-globe injury. Eye (Lond), 2015. 29(12): p. 1579-84.
  • 2.Girkin, C.A., et al., Glaucoma following penetrating ocular trauma: a cohort study of the United States Eye Injury Registry. Am J Ophthalmol, 2005. 139(1): p. 100-5.
  • 3.Frederıck M. Blanton, M., Baltimore, Anterior Chamber Angle Recession and Secondary Glaucoma A Study of the Aftereffects of Traumatic Hyphemas. Arch Ophthalmol., 1964(39043).
  • 4.Kaufman, J.H. and D.W. Tolpin, Glaucoma After Traumatic Angle Recession A Ten-Year Prospective Study. American Journal of Ophthalmology, 1974. 78(4): p. 648-654.
  • 5.Julio E. De Leon-Ortega, M., Christopher A. Girkin, MD, Ocular trauma- related glaucoma. Opht-halmol Clin N Am, 2002. 15: p. 215-223.
  • 6.Osman, E.A., et al., Glaucoma After Open-globe Injury at a Tertiary Care University Hospital: Cu-mulative Causes and Management. J Glaucoma, 2016. 25(3): p. e170-4.
  • 7.Razeghinejad, R., et al., Pathophysiology and management of glaucoma and ocular hypertension related to trauma. Surv Ophthalmol, 2020. 65(5): p. 530-547.
  • 8.Hai-Qing Bai, L.Y., Da-Bo Wang, Rui Jin, Yun-Xiao Wang, Causes and treatments of traumatic se-condary glaucoma. European Journal of Ophthalmology, 2009. 19: p. 201-206.
  • 9.Ng, D.S., R.H. Ching, and C.W. Chan, Angle-recession glaucoma: long-term clinical outcomes over a 10-year period in traumatic microhyphema. Int Ophthalmol, 2015. 35(1): p. 107-13.
  • 10.Coats DK, P.E., Kong J, Unrecognized microscopic hyphema masquerading as a closed head injury. Pediatrics, 1998. 102: p. 652- 654.
  • 11.R. Sihota, N.N.S.a.H.C.A., Traumatic glaucoma Acta Ophthalmologıca Scandınavıca, 1995: p. 252-254.
  • 12.Salmon, J.F., et al., The Detection of Post-traumatic Angle Recession by Gonioscopy in a Po-pulation-based Glaucoma Survey. Ophthalmology, 1994. 101(11): p. 1844-1850.
  • 13.T Manners, J.F.S., A Barron, C Willies, A D N Murray, Trabeculectomy with mitomycin C in the treatment of post-traumatic angle recession glaucoma. Br J Ophthalmol, 2001: p. 159-163.
There are 13 citations in total.

Details

Primary Language Turkish
Subjects Clinical Sciences
Journal Section Original research article
Authors

Umay Güvenç 0000-0002-8993-1674

Gülizar Demirok 0000-0003-4655-4669

Güner Üney 0000-0001-8503-4258

Mehmet Yakın 0000-0002-3470-4124

Selma Uzman 0000-0002-4967-7325

Umit Eksıoglu 0000-0002-3061-7162

Ahmet Ozan Olgun 0000-0001-7180-6771

Publication Date January 21, 2024
Submission Date July 31, 2023
Published in Issue Year 2023 Volume: 56 Issue: 3

Cite

AMA Güvenç U, Demirok G, Üney G, Yakın M, Uzman S, Eksıoglu U, Olgun AO. Üçüncü Basamak Sağlık Merkezinde Oküler Travmaya Bağlı Göz İçi Basıncı Yüksekliklerinin Tanı ve Tedavi Sürecinin Değerlendirilmesi: 1990-2018 yılları arası 28 yıllık analiz. Ankara Eğitim ve Araştırma Hastanesi Tıp Dergisi. January 2024;56(3):146-150. doi:10.20492/aeahtd.1241383