Abstract
Lung cancer is the second most common primary site for intraocular metastatic tumors, with the most frequent metastatic site being the choroid. However, cases of intraocular metastasis of lung cancer presenting as anterior uveitis or secondary glaucoma are rare and often misdiagnosed. Here, we report a case of a lung adenocarcinoma stage IV patient, who presented with anterior uveitis as the initial symptom without respiratory symptoms. After 28 months of follow-up, the patient received targeted treatment with Alectinib hydrochloride capsules and a series of timely ophthalmic surgeries. Following these treatments, the patient’s intraocular and intracranial metastatic lesions disappeared, the primary pulmonary lesion significantly shrank, and the best corrected visual acuity (BCVA) improved from HM/30cm to 1.0. No significant toxic side effects were observed during the treatment, and the prognosis was favorable. The patient is currently living and working normally without complications. This case highlights the importance of considering metastatic tumors in patients with refractory anterior uveitis. Combined multimodal imaging and fluid biopsy can improve the early diagnosis rate of intraocular metastases. Targeted therapy based on genetic mutation detection, along with the appropriate timing for ophthalmic surgery, is crucial for improving patient prognosis.
1 Introduction
Lung cancer is the second most common primary site for intraocular metastatic tumors, accounting for 39% to 49% of all intraocular malignancies. The majority of these ocular metastases are located in the choroid (88%), with a small portion found in the iris (9%) and ciliary body (2%) (1–3). The clinical manifestations are varied, including iris masses, inflammation of the iris and ciliary body, and secondary glaucoma (4). This poses significant challenges for the early accurate identification of such rare cases and the development of appropriate treatment strategies (5). Comprehensive ocular and cranial examination are required, and diagnosis can be confirmed through histological or cytological analysis. Furthermore, imaging modalities such as magnetic resonance imaging (MRI) and positron emission tomography/computed tomography (PET/CT) are non-invasive techniques that do not exert mechanical disruption to tissues, thereby minimizing the potential risk of tumor cell dissemination or seeding. As such, they serve as effective alternatives or complementary tools to invasive diagnostic procedures (6, 7).
Human tumor genetic mutation testing is an important tool for guiding cancer targeted therapy (8). The anaplastic lymphoma kinase (ALK) fusion is one of the key driver genes in non-small cell lung cancer (NSCLC) (9). ALK-tyrosine kinase inhibitors (ALK-TKIs) have demonstrated significant therapeutic effects for ALK-positive NSCLC patients (10, 11). However, reports on targeted therapy for iris and ciliary body metastases based on ALK gene testing in NSCLC are rare. This case report discusses a patient with lung adenocarcinoma who initially presented with right eye anterior uveitis as a symptom and was treated with the ALK inhibitor Alectinib hydrochloride capsules. This study aims to provide insights and valuable information for the management of NSCLC with iris and ciliary body metastatic tumors.
2 Case description
The patient is a 36-year-old woman who had a 28-month history of right eye anterior uveitis and secondary glaucoma for two months. She also had a history of right eye vision loss, eye redness, and eye pain, but no other discomforts and no history of systemic diseases. Ocular examination revealed a BCVA of HM/30cm in the right eye. The intraocular pressure was 43 mmHg in the right eye. There was significant anterior segment inflammation in the right eye, with corneal edema, keratic precipitates (KP++), anterior chamber reaction (+), cells (++), with a shallowing of the anterior chamber. The pupil was irregular, dilated about 5 mm, with no light reflex, and the iris was fully adhered posteriorly. The iris texture was unclear, with numerous grayish-white nodules on the surface. The lens was partially cloudy, and the fundus was unclear (Figure 1). Pupillary block and obstruction of the aqueous humor outflow pathway were identified as the primary causes of elevated intraocular pressure in this patient. However, treatment with anti-inflammatory agents, mydriatics, and intraocular pressure-lowering drugs, the effect was unsatisfactory. A chest X-ray showed a nodule in the right hilar region, and further chest CT revealed a nodule in the right middle lobe (inner segment), measuring approximately 16.6 mm ×12.1 mm, with lobulated, spiculated edges (Figure 1). To clarify the nature of the lesion, a biopsy was performed through bronchoscopy, and pathological samples were obtained from the lung lesion. Histologically, the lung specimen showed scattered atypical cell clusters with a hemorrhagic background (Figure 2). Immunohistochemical staining showed positive expression of P-CK, CK7, TTF1, CD44V6, and Ki-67, with negative expression of P40 and CK5/6. The diagnosis was stage IV lung adenocarcinoma.
Figure 1
Figure 2
Given the rarity of ocular metastasis from lung cancer, an aqueous humor smear from the right eye was performed (Figure 3), revealing a small number of tumor cells in the smear, with small atypical cell clusters. The nuclear-to-cytoplasm ratio was increased, and both the cells and their nuclei showed atypical features. Cranial MRI also confirmed (Figure 4) a nodular lesion on the lower anterior wall of the right eyeball, with isointensity on T1-weighted imaging and slightly increased signal intensity on T2-weighted imaging. Based on ophthalmic anatomy, the lesion was identified to be located in the inferotemporal iris and ciliary body of the right eye. Additionally, multiple nodular abnormal signals were observed in the left pons, bilateral cerebellar hemispheres, frontal parietal lobes, and left temporal lobe. The signal intensity was slightly low on T1-weighted imaging and slightly increased on T2-weighted imaging. These findings were consistent with ocular and intracranial metastases from lung cancer.
Figure 3
Figure 4
To rule out other possible lesions, a positron emission tomography/computed tomography (PET/CT) scan was performed. The results confirmed intracranial and ocular metastases: a slightly higher-density nodule was observed in the right lower anterior wall of the eye, with ill-defined borders and increased glucose metabolism, with an SUVmax of approximately 4.6; a ring-shaped high-density nodule was found in the left frontal lobe, measuring about 8mm × 8mm, with an SUVmax of approximately 12.3. Additionally, small lymph nodes were noted to be enlarged in the right axillary tail region, with an SUVmax of about 2.0 (Figure 5).
Figure 5
Further testing with the human tumor 10-gene mutation panel revealed a positive result for the ALK fusion gene. On June 19, 2023, the patient began first-line anticancer treatment with oral 600mg Alectinib hydrochloride capsules twice daily. After two months of treatment, the results were surprisingly favorable: the ocular metastatic lesions completely regressed (Figure 6); the subpleural lesion in the right lower lung significantly absorbed, the solid nodule in the medial segment of the right middle lobe notably reduced in size, and the right hilar lymph nodes showed significant shrinkage, achieving partial remission (PR). By March 25, 2025, the right middle lobe nodule had shrunk from 16.6mm × 12.1mm to 7mm × 3mm (Figure 7).
Figure 6
Figure 7
In addition, the patient developed secondary glaucoma in the right eye with complete posterior iris adhesion. Despite the use of tobramycin-dexamethasone, pilocarpine, atropine sulfate, timolol eye drops, and oral acetazolamide, the intraocular pressure (IOP) remained consistently around 40mmHg. On May 10, 2023, the patient underwent right eye peripheral iridectomy, goniosynechialysis, and anterior chamber formation surgery, after which the IOP stabilized around 35mmHg. The patient also developed secondary cataracts in the right eye with a BCVA of 0.05. After the eye inflammation was relatively stable and after thorough communication with the patient, cataract phacoemulsification with intraocular lens implantation was performed on October 21, 2023. Post-surgery, the BCVA improved to 0.4, and the IOP was around 27mmHg. Due to poor IOP control, on January 28, 2024, the patient underwent right eye glaucoma valve implantation and anterior chamber formation surgery. Afterward, the IOP decreased to 18mmHg, and the BCVA recovered to 0.15. The patient was also prescribed non-steroidal and corticosteroid eye drops for inflammation, β-blockers, α2-adrenergic agonists, and prostaglandin F2α analogs for IOP reduction, as well as atropine sulfate gel for pupil dilation and prevention of iris-lens adhesions. The IOP stabilized at 18-20mmHg. On November 18, 2024, the patient developed significant posterior capsule opacification. After encouragement from the attending physician, posterior capsulotomy was performed, and the BCVA improved to 1.0. The BCVA has remained stable at 1.0 since then (comparative images of the anterior segment before and after targeted therapy are shown in Figure 8).
Figure 8
Overall, the patient exhibited good treatment tolerance. During the targeted therapy with Alectinib hydrochloride capsules, no obvious toxic effects were observed. The patient’s physical condition remained good, with no apparent immune toxicity or allergic reactions.
3 Discussion
This case report describes a 36-year-old female patient who initially presented with right eye anterior uveitis and secondary glaucoma, ultimately diagnosed with stage IV lung adenocarcinoma with intraocular and multi-system metastasis, a rare case. The clinical evolution, diagnostic challenges, and treatment response of this case provide important insights into the mechanisms of tumor metastasis and the clinical application of targeted therapy.
Ocular metastases account for 2-9% of all malignant tumors, with the majority originating from breast cancer and lung cancer, and 9-23% from pulmonary primary lesions (12). However, lung cancer metastasis to the eye presenting as anterior uveitis and secondary glaucoma is particularly rare and easily misdiagnosed as idiopathic inflammatory diseases. The uniqueness of this case lies in: 1) the patient is a young female with no smoking history, which does not fit the traditional high-risk group for lung cancer; 2) the patient presented with isolated anterior uveitis without typical respiratory symptoms. The patient initially exhibited typical signs of right eye anterior uveitis (corneal edema, KP (++), AR (+), cell (++), about 0.5mm hypopyon, irregular and dilated pupil (about 5mm), light reflex absent, complete posterior synechia, unclear iris texture, scattered grayish-white nodules on the surface) and significant intraocular pressure increase (43mmHg), with conventional anti-inflammatory and intraocular pressure-lowering treatments being ineffective, suggesting the need to consider non-inflammatory causes. A chest CT revealed a pulmonary primary lesion, which was confirmed as lung adenocarcinoma (TTF1+/CK7+) through bronchoscopy biopsy. Intraocular and central nervous system metastases were ultimately confirmed through aqueous humor cytology and brain MRI. This process highlights the importance of ocular symptoms as “sentinel manifestations” of systemic malignancies, especially in patients with treatment-resistant anterior uveitis, where tumor-related lesions should be actively ruled out. In the case of masquerade syndrome caused by ocular metastases, the high blood flow in the choroid makes it the most common site of metastasis (13). In contrast, the reduced blood flow in the anterior chamber makes anterior chamber metastases rarer, accounting for only 7-14% of intraocular metastases (14, 15). Notably, in rare cases, eye pain and symptoms resembling scleritis may indicate some potential metastases, and even serve as the initial manifestation of occult malignancies, with the mechanism related to tumor cells spreading hematogenously to the iris vasculature or the anterior ciliary arteries (16, 17).
The breakthrough in diagnosis for this case relied on multimodal imaging complementarity and integration of molecular pathology. Imaging-wise, the spiculated and lobulated features on chest CT (Figure 1) suggested malignancy, while the metabolic heterogeneity of the lesions seen on PET-CT (SUVmax 4.6-16.9) provided functional evidence for the localization of metastases. From the molecular pathology perspective, the tumor cells expressed TTF-1/CK7 and were negative for P40, which is characteristic of lung adenocarcinoma, while the detection of the ALK fusion gene directly changed the treatment strategy (18). ALK fusion occurs in about 5% of non-small cell lung cancer (NSCLC) cases and is most common in lung adenocarcinoma (19). Previous studies have shown that ALK-rearranged tumors are highly aggressive, prone to early metastasis, particularly to the central nervous system and eyes, at significantly higher rates than other subtypes (20, 21). In this case, besides ocular metastasis, the patient also had multiple brain parenchymal lesions (pons, cerebellum, frontal-parietal lobes). PET/CT further revealed involvement of mediastinal and axillary lymph nodes, which is consistent with the “multifocal metastasis” feature of ALK-positive tumors.
After 2 months of treatment with Alectinib hydrochloride capsules, the ocular lesions completely regressed (Figure 6) and the primary lesion shrank (PR), validating its excellent penetration to the central nervous system (22). Notably, the rapid relief of ocular metastasis after targeted therapy enabled subsequent vision reconstruction surgeries (cataract phacoemulsification + intraocular lens implantation, etc.) to achieve ideal results (BCVA 1.0). Continuous follow-up for 28 months showed the primary lesion stabilized at 7mm×3mm (Figure 7), far exceeding the median progression-free survival (PFS) of traditional chemotherapy (23). This provides a new paradigm for the long-term management of metastatic lung cancer.
The key to success in this case also lies in the timely selection of ophthalmic intervention: the patient underwent iris peripheral iridectomy + angle separation + anterior chamber formation surgery before systemic tumor control. Postoperatively, intraocular pressure was poorly controlled. However, after targeted drug therapy, cataract phacoemulsification + intraocular lens implantation and glaucoma valve implantation + anterior chamber formation were performed once the ocular inflammation stabilized. The patient’s ocular condition was effectively controlled after surgery, and no recurrence of ocular metastasis was observed. Furthermore, the patient’s adherence to treatment and regular follow-up visits exemplify the value of the doctor-patient relationship. This sequential treatment strategy allowed the patient to maintain functional vision while controlling the tumor, and the experience may be applicable to other patients with metastatic intraocular tumors.
4 Conclusion
This case emphasizes the need to include metastatic tumors in the differential diagnosis of treatment-resistant anterior uveitis. Combining multimodal imaging and fluid biopsies can improve the early diagnosis rate of intraocular metastases. Targeted drug use guided by human tumor 10 gene mutation combined detection highlights the importance of precision therapy. The timing of ophthalmic surgery should follow the principle of “systemic control first, functional reconstruction later.” Future research is needed to clarify the molecular mechanisms of intraocular metastases and the pharmacokinetic characteristics of targeted drugs in the eye to further optimize treatment strategies.
Statements
Data availability statement
The original contributions presented in the study are included in the article/supplementary material. Further inquiries can be directed to the corresponding author.
Ethics statement
Written informed consent was obtained from the individual for the publication of any potentially identifiable images or data included in this article. Written informed consent was obtained from the participant/patient(s) for the publication of this case report.
Author contributions
CZ: Software, Data curation, Methodology, Project administration, Visualization, Validation, Conceptualization, Funding acquisition, Writing – original draft, Formal Analysis, Investigation, Resources, Writing – review & editing. JC: Methodology, Conceptualization, Investigation, Validation, Supervision, Writing – review & editing. HL: Validation, Funding acquisition, Writing – review & editing, Resources, Project administration, Formal Analysis, Software, Writing – original draft, Methodology, Conceptualization, Data curation, Supervision, Investigation, Visualization. YD: Writing – review & editing.
Funding
The author(s) declare financial support was received for the research and/or publication of this article. This work was supported by the (National Natural Science Foundation of China) under Grant (number 82, 305, 324).
Conflict of interest
The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest.
Generative AI statement
The author(s) declare that no Generative AI was used in the creation of this manuscript.
Publisher’s note
All claims expressed in this article are solely those of the authors and do not necessarily represent those of their affiliated organizations, or those of the publisher, the editors and the reviewers. Any product that may be evaluated in this article, or claim that may be made by its manufacturer, is not guaranteed or endorsed by the publisher.
References
1
ShieldsJAShieldsCL. Intraocular tumors: an atlas and textbook. Alphen aan den Rijn, The Netherlands: Wolters Kluwer (2015).
2
ShieldsCLShieldsJAGrossNESchwartzGPLallySE. Survey of 520 eyes with uveal metastases. Ophthalmology. (1997) 104(8):1265–76. doi: 10.1016/s0161-6420(97)30148-1
3
ShieldsCLWelchRJMalikKAcaba-BerrocalLASelzerEBNewmanJHet al. Uveal metastasis: clinical features and survival outcome of 2214 tumors in 1111 patients based on primary tumor origin. Middle East Afr J Ophthalmol. (2018) 25(2):81–90. doi: 10.4103/meajo.MEAJO_6_18
4
GotoHHirakataKNakamotoKOkamotoFHoriJ. A case report of intravitreal aflibercept for iris metastasis from small cell lung carcinoma with neovascular glaucoma. Case Rep Ophthalmol. (2025) 16(1):215–20. doi: 10.1159/000544159
5
HataMInoueT. Iris metastasis from small-cell lung cancer. J Thorac Oncol. (2014) 9:1584–5. doi: 10.1097/jto.0000000000000201
6
ShieldsCLManquezMEEhyaHMashayekhiADanzigCJShieldsJAet al. Fine-needle aspiration biopsy of iris tumors in 100 consecutive cases: technique and complications. Ophthalmology. (2006) 113(11):2080–6. doi: 10.1016/j.ophtha.2006.05.042
7
SoANicolaouS. Spectral computed tomography: fundamental principles and recent developments. Korean J Radiol. (2021) 22:86–96. doi: 10.3348/kjr.2020.0144
8
VasuriFAlbertiniEMirandaLMalobertiTChillottiSColuccelliSet al. Morpho-molecular approach (NGS plus digital PCR) in diagnosis of Malignant biliary strictures. Pathologica. (2025) 117(1):10–7. doi: 10.32074/1591-951x-1117
9
Clinical practice guideline on anaplastic lymphoma kinase-tyrosine kinase inhibitors for non-small cell lung cancer (2025 edition). Zhonghua Zhong Liu Za Zhi. (2025) 47(4):283–97. doi: 10.3760/cma.j.cn112152-20241130-00546
10
LuoXZhouZZengXPengLLiuQ. Cost-effectiveness of ensartinib, crizotinib, ceritinib, alectinib, brigatinib and lorlatinib in patients with anaplastic lymphoma kinase-positive non-small cell lung cancer in China. Front Public Health. (2022) 10:985834. doi: 10.3389/fpubh.2022.985834
11
ZhengBJiangHYangWLiYLiangBZhuJet al. A Bayesian network meta-analysis of ALK inhibitor treatments in patients with ALK-positive non-small cell lung cancer. Cancer Med. (2023) 12(15):15983–97. doi: 10.1002/cam4.6241
12
KanthanGLJayamohanJYipDConwayRM. Management of metastatic carcinoma of the uveal tract: an evidence-based analysis. Clin Exp Ophthalmol. (2007) 35:553–65. doi: 10.1111/j.1442-9071.2007.01550.x
13
Dutta MajumderPKhetanVBiswasJ. Masquerade syndrome: A review of uveitic imposters. Asia Pac J Ophthalmol (Phila). (2024) 13:100054. doi: 10.1016/j.apjo.2024.100054
14
NguyenQLReynoldsSBPiriNRivas PerezHL. Ophthalmic anterior segment metastasis masquerading as uveitis. BMJ Case Rep. (2021) 14(3):e236405. doi: 10.1136/bcr-2020-236405
15
ShieldsCLKalikiSCrabtreeGSPeshtaniAMortonSAnandRAet al. Iris metastasis from systemic cancer in 104 patients: the 2014 Jerry A. Shields Lecture. Cornea. (2015) 34(1):42–8. doi: 10.1097/ico.0000000000000285
16
DeanerJDPointdujour-LimRSayEAShieldsCL. Unrelenting ocular pain as a masquerading symptom of occult choroidal metastasis. Ocul Oncol Pathol. (2017) 3(1):56–9. doi: 10.1159/000448720
17
PreechawaiPAmrithSYipCCGohKY. Orbital metastasis of renal cell carcinoma masquerading as cysticercosis. Orbit. (2008) 27(5):370–3. doi: 10.1080/01676830802316688
18
LiWZwierengaFAndiniKDBucherJMScherpenFHiltermannTJNet al. Presence of on-target resistant mutation in pre-treatment samples of ALK fusion gene positive lung cancer patients. Cancers (Basel). (2025) 17(7):1090. doi: 10.3390/cancers17071090
19
ShiCQiuYHeKLiYWanQYaoJet al. Case Report: Intestinal metastasis from ALK-rearranged pulmonary pleomorphic carcinomas mimicking inflammatory myofibroblastic tumors. Front Oncol. (2025) 15:1496752. doi: 10.3389/fonc.2025.1496752
20
NarlapatiHSpeirsCJonesRMBerenbergJ. Successful treatment with lorlatinib monotherapy for secondary central nervous system oligometastatic disease in refractory anaplastic lymphoma kinase positive non-small cell lung cancer. Cureus. (2024) 16(11):e73645. doi: 10.7759/cureus.73645
21
KongAWEngelmannARHosseiniMBonelliL. Bilateral optic neuropathy associated with lorlatinib monotherapy for ALK-positive metastatic lung adenocarcinoma. Am J Ophthalmol Case Rep. (2024) 34:102063. doi: 10.1016/j.ajoc.2024.102063
22
Van PhamTVuTHNguyenHTTPhamPCDoATNguyenTKet al. The effectiveness of afatinib as first-line treatment in Vietnamese patients with EGFR-mutant non-small cell lung cancer and brain metastases. Asia Pac J Clin Oncol. (2024). 21(3):281–9. doi: 10.1111/ajco.14147
23
MiuraSTanakaHMisumiTYoshiokaHTokitoTFukuharaTet al. Pragmatic randomized study of afatinib versus chemotherapy for patients with non-small cell lung cancer with uncommon epidermal growth factor receptor mutations: ACHILLES/TORG1834. J Clin Oncol. (2025) 43(18):2049–58. doi: 10.1200/jco-24-02007
Summary
Keywords
metastasis, non-small cell lung cancer, ALK mutation, alectinib, case report
Citation
Zhao C, Chen J, Liu H and Dai Y (2025) Case Report: Ocular metastasis from ALK-rearranged pulmonary adenocarcinoma presenting as a pseudo-syndrome of anterior uveitis. Front. Oncol. 15:1619667. doi: 10.3389/fonc.2025.1619667
Received
29 May 2025
Accepted
24 July 2025
Published
13 August 2025
Volume
15 - 2025
Edited by
Adrian Bogdan Tigu, University of Medicine and Pharmacy Iuliu Hatieganu, Romania
Reviewed by
Martina Suzani, San Gerardo Hospital, Italy
Sreekanth Sreekantam, Sandwell & West Birmingham Hospitals NHS Trust, United Kingdom
Updates
Copyright
© 2025 Zhao, Chen, Liu and Dai.
This is an open-access article distributed under the terms of the Creative Commons Attribution License (CC BY). The use, distribution or reproduction in other forums is permitted, provided the original author(s) and the copyright owner(s) are credited and that the original publication in this journal is cited, in accordance with accepted academic practice. No use, distribution or reproduction is permitted which does not comply with these terms.
*Correspondence: Hongji Liu, carol@sc-mch.cn
Disclaimer
All claims expressed in this article are solely those of the authors and do not necessarily represent those of their affiliated organizations, or those of the publisher, the editors and the reviewers. Any product that may be evaluated in this article or claim that may be made by its manufacturer is not guaranteed or endorsed by the publisher.