Bilateral single orbital triamcinolone injections provided relief from Thyroid Eye Disease symptoms, reveals research

To circumvent these adverse effects, local administration of
glucocorticoids has been explored. Localized delivery is accomplished through
subconjunctival, and sub-Tenon injections. In contrast, retro-orbital-septal
injection offers an alternative method. This procedure, performed
transcutaneously using a half-inch, 27-G needle, facilitates the precise
delivery of medication into the lateral lower deep orbital fat, yielding
promising results in the anti-inflammatory treatment of orbital tissue.7
Furthermore, Bagheri et al reported retroorbital-septal injection of
triamcinolone and dexamethasone into both the upper and lower quadrants of the
orbital soft tissue.

In this report, this approach was applied for patients with
active TED who were resistant to or dependent on systemic steroids or faced
complications related to systemic steroid use. The results demonstrated a
significant reduction in orbital inflammation, including upper and lower eyelid
retraction, ocular motility issues, and inflammatory markers such as the
Clinical Activity Score (CAS) and NOSPECS classification. An intriguing aspect
of the retro-orbital-septal delivery method is its capacity to produce a
dramatic effect after only one or two injections.

Thus, this novel procedure may have advantages not only in
local control of orbital inflammation but also in mitigating systemic adverse
effects. However, no study to date has comprehensively evaluated the systemic
effects of orbital corticosteroid injections, primarily because of the systemic
absorption of the medication. The current report aimed to address this gap by
focusing on the efficacy and systemic effects of deep orbital injection of
triamcinolone, with the intent of promoting and advancing this procedure. To
achieve this goal, authors conducted a prospective clinical investigation
involving TED patients who underwent a single deep orbital injection of
triamcinolone, followed by comprehensive ophthalmic and pharmacological
assessments, including blood and urinary panels.

In a prospective investigation conducted from January 2021
to March 2023, patients diagnosed with TED were enrolled. Inclusion criteria
encompassed a Clinical Activity Score (CAS) of ≥3, extraocular muscle
inflammation, and upper eyelid retraction. A total of 1 mL of triamcinolone
acetonide (40 mg/mL) was administered posterior to the orbital septum at both
the medial and lateral aspects of both the upper and lower eyelids. Parameters,
including CAS, margin-reflex distances (MRD1 and MRD2), intraocular pressure
(IOP), ocular motility (Hess area ratio [HAR%]), exophthalmometry, extraocular
muscle size, and blood and urinary indices, were evaluated before and at 2 and
4 weeks after a single injection.

Analysis included 28 patients (23 women, 5 men; mean age
(SD): 38.7 (11.1) years), representing 56 eyes. Following the injection at 4
weeks, the mean CAS and MRD1 significantly decreased by 2 points and 0.8 mm,
respectively. There was a 4.5% increase in HAR%, and extraocular muscle size
decreased by 4 to 15.3 mm². Neutrophil count, C-reactive protein, and thyroid
antibodies significantly decreased. No severe adverse ophthalmic or systemic
effects, including IOP increases or liver damage, were observed.

In summary, this study robustly demonstrates the favorable
effects of a single deep orbital corticosteroid administration for TED
treatment without inducing substantial local or systemic adverse effects.
Improvements in local and systemic assessments, TED-related antibody levels,
and orbital muscle dimensions underscore the effectiveness of this intervention
in modulating TED activity. While the study has limitations, including a
limited patient cohort and a lack of iterative treatments, comprehensive
validation will necessitate an expanded and iteratively treated patient series
in the future.

Source: Yamana et al; Clinical Ophthalmology 2024:18

https://doi.org/10.2147/OPTH.S476562