Fractionated stereotactic radiotherapy for cavernous haemangioma of the orbital apex

Gamma knife radiosurgery for orbital cavernous hemangioma: a systematic review and single-arm meta-analysis

PURPOSE

Gamma knife radiosurgery (GKRS) for orbital cavernous hemangioma (OCH) has emerged as a promising method due to its significant clinical improvement and low incidence of complications. This study aimed to evaluate the safety and efficacy of GKRS for the treatment of OCH.

METHODS

In accordance with the PRISMA framework, we searched PubMed, Cochrane Central, and Embase for studies reporting outcomes of GKRS for OCH. Studies reporting complications, visual improvement, proptosis, tumor reduction rate, and tumor progression rate for OCH following GKRS were included.

RESULTS

Six studies, out of 1856 search results, with 100 patients were included. Among them, only 5 minor complications were related to GKRS, including 3 with orbital pain and 2 with periorbital chemosis. Thus, the complication rate was 13% (95% CI, 7-25%). Visual acuity and visual field improvement rates after GKRS were 80% (95% CI, 63-96%) and 71% (95% CI, 47-95%) respectively. Proptosis improved in 94% of cases (95% CI, 83-100%). The tumor reduction rate was 77% after GKRS (95% CI, 69-85%).

CONCLUSION

GKRS for OCH appears to be a safe technique, as evidenced by the rate of clinical improvement and radiological improvement. However, studies are limited by an absence of a control group. Additional studies are needed to evaluate the relative efficacy of GKRS as compared with alternative surgical modalities for OCH.

Orbital cavernous venous malformation shrinkage during fractionated stereotactic radiotherapy contributing to the development of radiation retinopathy

BACKGROUND

Posterior movement of ocular tissue secondary to orbital cavernous venous malformation shrinkage from fractionated stereotactic radiotherapy can allow healthy structures to move into the radiation field during treatment. This may carry an increased risk of radiation-induced retinopathy.

METHODS

We present a case of a young female whose radiotherapy treatment for an orbital cavernous venous malformation resulted in a 3 mm reduction in proptosis and subsequent retinopathy.

RESULTS

The severity of the patient's radiation-induced radiotherapy exceeded expectations. The venous malformation shrinkage during treatment and ensuing posterior movement of the globe suggested an increased involvement of ocular tissue in the radiation field, prompting consideration of interval neuroimaging and tumour mapping.

CONCLUSIONS

We describe and suggest a protocol of onboard neuroimaging during the radiation therapy course to better target tumour volumes and minimise collateral tissue damage. To our knowledge, this has not been previously described in the ophthalmic literature.

Radiation optic neuropathy and retinopathy in patients with presumed benign intraorbital tumours treated with fractionated stereotactic radiotherapy

PURPOSE

To assess the long-term effects of fractionated stereotactic radiotherapy (fSRT) for the treatment of (presumed) benign intraorbital tumours on visual acuity, visual fields, globe and eyelid position, and complications including radiation retinopathy and deviations of retinal nerve fibre layer (RNFL) on OCT.

METHODS

Multi-centre retrospective follow-up study of a consecutive series of 25 patients treated in the Rotterdam Orbital Center (collaboration between Erasmus Medical Center and Rotterdam Eye Hospital) between 2002 and 2018. Data on the dose of fSRT, visual acuity, Humphrey field analyser (HFA) perimetry, globe and eyelid position were obtained from the medical records.

RESULTS

In this retrospective consecutive series of 25 patients with a median follow-up of 104 months (range 48-215 months), 80.0% of the patients had presumed optic nerve sheath meningioma and 20.0 % presumed cavernous haemangioma with signs suggestive of recent growth. In most patients, a better visual acuity and RNFL thickness were observed after stereotactic radiotherapy. Improvement of the visual field defects was observed after treatment, with a mean deviation of -14.98 dB (12.9 SD) before treatment versus -4.56 dB (10.8 SD) after treatment, respectively. Significant, but small changes in exophthalmometry values were observed with a mean of 14.92 mm (7.9 SD) versus 13.79 mm (7.3 SD) after treatment, respectively. Only 3 patients (15.0%) developed radiation retinopathy after stereotactic radiotherapy. All patients with radiation retinopathy had presumed optic nerve sheath meningioma.

CONCLUSIONS

Based on our results, fSRT is an effective treatment modality for this subset of orbital tumours with few complications and good long-term visual and cosmetic outcomes. FSRT is non-invasive and safer than surgery for lesions in the posterior orbit or around the optic nerve.

Risks and Benefits of Surgical Excision of Orbital Cavernous Venous Malformations (So-Called Cavernous Hemangioma): Factors Influencing the Outcome

PURPOSE

To assess risks and benefits associated with surgical excision of orbital cavernous venous malformation and analyze factors influencing the outcome.

METHODS

Design: cohort study. Participants: 164 consecutive patients undergoing surgical removal of orbital cavernous venous malformation. Intervention: lateral or anterior orbitotomy. Outcome measures: visual acuity, visual field, pupillary function, ocular motility, and fundus examination. Influence of the mass volume and tumor location on the outcome was evaluated. The threshold value and risk group for the volume were evaluated using the receiver operating characteristic analysis; 8 orbital different quadrants, extraconal/intraconal position, and orbital apex extension were considered as variables to evaluate the location.

RESULTS

Postoperatively overall visual acuity (p = 0.0084), visual field (p < 0.0001), diplopia (p < 0.0001), proptosis (p < 0.0001), ocular motility (p = 0.02), ptosis (p = 0.033), choroidal fold (p < 0.0001), disk edema (p = 0.0004) were significantly improved. The commonest location was the lateral quadrant (28%). Choroidal folds were associated with tumor greater than 1100 mm3 (p = 0.001). Visual loss occurred in 2 patients (1.2%) and tonic pupil in 5 (3%,) Visual deterioration was associated with the apical extension (p = 0.001). Pupil efferent defect was associated with lateral quadrant location (p = 0.011) and apical extension (p = 0.05).

CONCLUSIONS

Surgical removal of orbital cavernous venous malformation is a useful treatment modality, particularly for large size tumors. Removal of cavernous venous malformations located at the lateral aspect of the orbit carries an increased risk of permanent tonic pupil. Postoperative blindness is rarely seen and is often associated with the apical extension. Tailoring the surgical approach, depending on the relative position to the optic nerve, may have an important bearing on outcome.

Intramuscular cavernous venous malformation of extraocular muscles. Fractionated stereotactic radiotherapy as a therapeutic alternative

Intramuscular cavernous venous malformations affecting extraocular muscles are extremely uncommon. Due to their location, complete resection could be difficult. A clinical case is presented of an inferior rectus muscle orbital cavernous malformation treated with fractionated stereotactic radiotherapy after post-surgical excision recurrence. The malformation responded to radiotherapy with a reduction in size and symptoms. Fractionated stereotactic radiotherapy is an alternative and effective treatment for cavernous venous malformations that are surgically challenging due to their radiotherapy sensitivity.

Multisession Gamma Knife Radiosurgery for Orbital Apex Tumors

OBJECTIVE

This study was performed to analyze the outcome of multisession gamma knife radiosurgery (GKS) in benign tumors located at the orbital apex.

METHODS

Medical records of 23 patients who underwent multisession GKS for benign orbital apex tumors were reviewed retrospectively. Three patients were diagnosed by histology, and the other 20 patients were given the diagnoses on the basis of clinical and radiological findings. Diagnoses included cavernous hemangioma (8 cases), meningioma (8 cases), and schwannoma (7 cases). All patients were treated with 4 sessions of GKS with 12 hours of interval. Median marginal dose in each session was 5 Gy (range, 4.5-5.5 Gy) at the 50% isodose line (range, 50%-55%).

RESULTS

Mean clinical and imaging follow-up duration after treatment were 52.1 and 34.2 months, respectively. Tumor control was achieved in 22 patients (95.7%). Significant tumor shrinkage was observed in 17 patients (73.9%), and mean tumor volume reduction rate was 53.9%. Visual function was improved in 16 patients (69.6%) and stable in 4 patients (17.4%). Deterioration of visual acuity was reported by 3 patients (13.0%). Clinical and radiological response to multisession GKS was most excellent in cavernous hemangiomas with tumor control in all patients, and the mean tumor volume reduction rate was 68.3%.

CONCLUSIONS

Multisession GKS proved to be an effective and safe management strategy for benign orbital apex tumors. Response to treatment was different according to the pathology, and multisession GKS may be considered as the initial treatment of choice for specific pathology such as cavernous hemangioma.