The Role of Fine Needle Aspiration of Orbital Lesions: A Case Series

[Differential diagnosis of intraorbital masses - a narrative review]

OBJECTIVE

Intraorbital masses represent a condition that is frequently threatening for the visual system. A rigorous differential diagnosis is essential to promptly initiate appropriate therapy and optimize prognosis.

MATERIALS/METHODS

Narrative review of current literature and expert recommendations. For further illustration we describe the case of a 71-year-old male admitted to our department three months after sinus surgery. Postoperative intraorbital hematoma of the right orbit had been treated conservatively with antibiotics/corticosteroids, leading to a near-complete unilateral visual loss. The immediate surgical intervention aimed at decompression of the orbit and the optical nerve. Due to the delay, the intervention could not prevent formation of a lipogranuloma. Inflammatory phases associated with the lipogranuloma are successfully managed by conservative treatment based on multidisciplinary recommendations.

RESULTS

In the case reported, delay of surgical therapy acted as a cause of intraorbital lipogranuloma formation. Literature supports our recommendation of immediate surgical intervention in case of acute retrobulbar hematoma. Besides acute conditions, intraorbital masses can be a sign of systemic disease. In every case, a multidisciplinary therapeutic approach is required for adequate management.

CONCLUSIONS

Intraorbital masses can occur as a complication of trauma or e.g. sinus surgery. On the other hand they can be a sign of systemic disease. Timely diagnosis and treatment prevents from visual loss. That is why rigorous differential diagnosis is essential for every discipline managing intraorbital lesions.

Evaluation of cytology and histopathology for the diagnosis of feline orbital neoplasia: 81 cases (2004-2019) and review of the literature

OBJECTIVE

To provide an updated overview of feline orbital neoplasia, to compare diagnostic utility of cytology and histopathology, and to evaluate minimally invasive sampling modalities.

PROCEDURES

A medical records search was performed to identify cats with orbital neoplasia. Data were collected regarding signalment, diagnosis, vision status, imaging modalities, and sample collection methods. A reference population with orbital neoplasia was also identified via literature search for comparison with regard to final diagnosis.

RESULTS

Eighty-one cats met selection criteria and 140 cases were identified in the literature. In the study and reference populations, respectively, diagnoses were grouped as follows: round cell tumors 47% and 24%, epithelial tumors 38% and 40%, mesenchymal tumors 14% and 34%, and neurologic origin tumors 1% and 2%. The most common diagnoses in both groups were lymphoma and squamous cell carcinoma (SCC). Feline restrictive orbital myofibroblastic sarcoma (FROMS) was common in the reference population but not diagnosed in the study population. Cytology results were available for 41 cats; histopathology results were available for 65 cats. Both cytology and histopathology results were available for 25 cats, in 44% of which cytologic results were overturned. No significant complications were associated with any sampling method. Lack of cats with multiple samples available for histopathology limited comparison between tissue sampling methods.

CONCLUSIONS

Orbital neoplasia is common in cats, with round cell and epithelial tumors diagnosed most commonly in the study population. Histopathology is superior to cytology in providing a definitive diagnosis. Minimally invasive tissue biopsy techniques appear to be safe and effective.

Evaluation of cytology and histopathology for the diagnosis of canine orbital neoplasia: 112 cases (2004-2019) and review of the literature

OBJECTIVE

To provide an updated overview of canine orbital neoplasia, to compare diagnostic utility of cytology and histopathology, and to evaluate alternative sampling modalities, particularly image-guided core needle biopsy.

PROCEDURES

A medical records search was performed to identify dogs with orbital neoplasia. Data were collected regarding signalment, diagnosis, vision status, imaging modalities, and sample collection methods. A reference population with orbital neoplasia was also identified via literature search for comparison with regard to final diagnosis.

RESULTS

One hundred and twelve dogs met selection criteria. In the study and reference populations, respectively, diagnoses were grouped as follows: mesenchymal tumors 40% and 35%, epithelial tumors 35% and 18%, tumors of neural origin 8% and 37%, and round cell 17% and 10%. The most common diagnoses in the study group were nasal adenocarcinoma, osteosarcoma, lymphoma, and meningioma. Cytology results were available for 47 dogs and histopathology results were available for 95 dogs. Both cytology and histopathology results were available for 30 dogs, in 53% of which results were discordant. Cytology samples were nondiagnostic or provided a diagnosis that was later overturned in 32% of cases in which they were obtained. Results from core needle biopsy samples were nondiagnostic or overturned by surgical biopsy results in only 13% of cases. No significant complications were associated with any sampling method.

CONCLUSIONS

Orbital neoplasia is common in dogs. Histopathology is superior to cytology in providing a definitive diagnosis. Image-guided core needle biopsy appears to be a safe and effective means of obtaining samples.

Orbital metastasis diagnosed by ultrasound-guided fine-needle aspiration biopsy: Case report of unknown primary site

Twenty five percent of orbital metastasis is usually of unknown primary origin and it requires histopathological and immunohistochemical confirmation. The fine-needle aspiration biopsy of the orbit is an alternative procedure to conventional orbitotomy. The case is presented of a 60 year-old woman with a right orbit tumour mass and neoplastic lesions in her brain and cranium. As an incidental finding, she had a thrombus in her left atrium, and so an orbitotomy procedure was ruled out. An ultrasound-guided fine-needle aspiration biopsy was performed instead with rapid on-site evaluation of biopsy samples. These showed malignant cells of a lung adenocarcinoma, which was confirmed with immunohistochemistry and chest diagnostic images. In conclusion, biopsy samples obtained by fine-needle aspiration biopsy, together with cytopathological and immunohistological analysis, enabled orbital metastasis to be identified in the case described, and showed that fine-needle aspiration biopsy is a safe, effective, and minimally invasive alternative.

Diagnosis of orbital mass lesions: clinical, radiological, and pathological recommendations

The orbit can harbor mass lesions of various cellular origins. The symptoms vary considerably according to the nature, location, and extent of the disease and include common signs of proptosis, globe displacement, eyelid swelling, and restricted eye motility. Although radiological imaging tools are improving, with each imaging pattern having its own differential diagnosis, orbital mass lesions often pose a diagnostic challenge. To provide an accurate, specific, and sufficiently comprehensive diagnosis, to optimize clinical management and estimate prognosis, pathological examination of a tissue biopsy is essential. Diagnostic orbital tissue biopsy is obtained through a minimally invasive orbitotomy procedure or, in selected cases, fine needle aspiration. The outcome of successful biopsy, however, is centered on its representativeness, processing, and interpretation. Owing to the often small volume of the orbital biopsies, artifacts in the specimens should be limited by careful peroperative tissue handling, fixation, processing, and storage. Some orbital lesions can be characterized on the basis of cytomorphology alone, whereas others need ancillary molecular testing to render the most reliable diagnosis of therapeutic, prognostic, and predictive value. Herein, we review the diagnostic algorithm for orbital mass lesions, using clinical, radiological, and pathological recommendations, and discuss the methods and potential pitfalls in orbital tissue biopsy acquisition and analysis.

The role of ultrasound-guided tissue sampling techniques in the management of extra-ocular orbital lesions

Background

Multiple disease processes may arise within the orbit and imaging plays a vital role in the evaluation of such lesions. The anterior orbital contents are readily amenable to evaluation by ultrasonography. Furthermore, the modality can be used to guide tissue sampling (fine needle aspiration or core biopsy) and may obviate the requirement for invasive surgical biopsy.

Methods

We carried out a retrospective review of ultrasound-guided fine needle aspirations/core biopsies of extra-ocular orbital lesions undertaken at our institution. The anatomical locations, sonographic appearances and sampling techniques were analysed.

Results

There were 7 fine needle aspirations and 1 core biopsy carried out during the period analysed. Multimodality imaging was available in all cases. The majority of lesions were located in the region of the lacrimal gland. All procedures were well-tolerated and there were no post-procedure complications.

Conclusion

Many extra-ocular, orbital neoplasms are amenable to ultrasound-guided tissue sampling and the procedure is well tolerated. However, a clear understanding of orbital anatomy, differential diagnosis and technique is required to enable safe sampling. Furthermore, a collaborative, multimodality approach is imperative for optimal patient management.