AS-OCT Guided Treatment Of Diffuse Conjunctival Squamous Cell Carcinoma With Resection, Amniotic Membrane Graft And Topical Mitomycin C.

PURPOSE: To evaluate the efficacy of combined limited surgical resection, amniotic membrane graft and topical mitomycin C in treatment of diffuse conjunctival squamous cell carcinoma (CSCC) diagnosed and followed up by anterior segment optical coherence tomography (AS-OCT). SUBJECTS AND METHODS: A prospective study was performed on 24 eyes with diffuse CSCC. Fifteen eyes underwent lesion limited resection followed by postoperative topical mitomycin C 0.04% eye drop (MMC group) while nine eyes underwent complete excision and cryotherapy (no MMC group). Amniotic membrane graft was applied in all cases. The diagnosis was based on clinical and AS-OCT specific criteria of CSCC and was confirmed by histopathological results.
RESULTS: The study population was similar between the two groups. Mean postoperative follow-up was 27.1±4.1 months. The mean extent of the limbal involvement was 7.0±0.7 and 7.25±0.6 clock hours in MMC and no MMC groups, respectively. The mean size of conjunctival defect after tumor excision in MMC group (60.8±9.2 mm2) was significantly lower than in no MMC group (92.4±17.3 mm2). Histopathological diagnosis revealed invasive SCC in all specimens. The mean preoperative conjunctival epithelial thickness decreased significantly in both groups at 2-year follow-up. It decreased from 267±24.2 and 256±19.1 μm preoperatively to 56.7±11.6 and 60.4±9.6 μm at 2-year follow-up in MMC and no MMC groups, respectively. The mean number of MMC treatment cycles was 2.1±0.85 cycles. Recurrence was recorded in zero (0%) and 1 (11%) patients at 2-year follow-up in MMC and no MMC groups, respectively. Histopathological diagnosis revealed invasive SCC in all specimens. The mean preoperative conjunctival epithelial thickness decreased significantly in both groups at 2-year follow-up. It decreased from 267±24.2 and 256±19.1 μm preoperatively to 56.7±11.6 and 60.4±9.6 μm at 2-year follow-up in MMC and no MMC groups, respectively. The mean number of MMC treatment cycles was 2.1±0.85 cycles. Recurrence was recorded in zero (0%) and 1 (11%) patients at 2-year follow-up in MMC and no MMC groups, respectively.
CONCLUSION: The treatment of diffuse CSCC with AS-OCT guided combined therapy includes limited surgical resection, AMG, and postoperative topical MMC, achieves a complete tumor resolution and good functional and cosmetic outcomes minimizing the burden of surgery, and improves postoperative patient comfort in our study cohort.

Introduction

Ocular surface squamous neoplasia (OSSN) is the most common malignant tumor of the ocular surface with a high incidence in men between 50 and 75 years of age and at latitude of 16 degree south.1,2

Conjunctival squamous cell carcinoma (CSCC) has been causally related to UV-B radiation, human papilloma virus, cigarette smoking, immunosuppressant, and HIV infection.3

CSCC involves the conjunctival interpalpebral zone in a diffuse, nodular, papilliform, gelatinous, leukoplakic or invasive fashion.4

Tumor sizes were divided into small, medium, and large tumors. Large and diffuse tumors were defined as those more than 5 limbal clock hours or more than 8 mm in largest diameter.5,6

The mainstays for the diagnosis of OSSN encompass the spectrum of conjunctival and corneal intraepithelial neoplasia and CSCC remains histopathologic evaluation after a surgical excision.7

Anterior segment optical coherent tomography (AS-OCT) can yield an optical biopsy of tissue, helping in the diagnosis and follow-up of ocular surface lesions. The appearance of OSSN on HR-OCT is a thickened, hyper-reflective epithelium, and an abrupt transition between the normal and affected epithelium.8,9

CSCC is considered a low-grade malignancy. Recurrence is generally higher for severe grades of OSSN and depends also on the adequacy of malignancy free margins at the primary excision. Ascertainment of tumor edges and deep margins are difficult.10–12

The treatment options for conjunctival epithelial malignancies include tumor removal with or without cryotherapy, radiotherapy, electron-based external beam radiation therapy, or topical chemotherapy (i.e., interferon, mitomycin C, or 5-fluorouracil). Primary chemotherapy has also been used as an isolated therapy. Larger, multifocal, or aggressive tumors have required combinations of all previous lines of therapy.13–15

Mitomycin C (MMC) has a significant anti-tumor activity and is effective for treatment of superficial OSSN allowing the treatment of the entire ocular surface including the conjunctival fornices, destroy subclinical disease and prevent new tumors growth elsewhere on the ocular surface.14,16

Amniotic membrane graft (AMG) has been proven to be an effective technique for the management of ocular surface reconstructions following the excision of ocular surface squamous tumors.17,18

Diffuse CSCC has been considered as a therapeutic challenge, despite the available therapeutic modalities. In this cohort, we carried out a prospective analysis to assess the outcomes of diffuse CSCC management. This treatment regimen included surgical resection accompanied with AMG then was followed by postoperative topical MMC 0.04% course. Limited surgical resection of conjunctiva lesion was followed in this cohort to minimize tissue loss.

Subjects And Methods

Patient Selection And Data Collection

Twenty-four cases of diffuse CSCC were included in this nonrandomized prospective study. Diffuse CSCC was defined as a lesion spread more than five clock hours in limbal extent or more than 8 mm in largest diameter.5,6 Fifteen patients underwent amniotic membrane graft after limited resection of diffuse CSSC followed by postoperative topical mitomycin C 0.04% eye drop (MMC group). Nine patients underwent amniotic membrane graft after excision of diffuse CSCC (no MMC group). One surgeon (T.E.) performed all surgeries.

Complete ophthalmic examinations, anterior segment slit-lamp photography, AS-OCT was performed preoperatively and at all subsequent follow-up visits. Data collection included age, sex, laterality, visual acuity, neoplasm characters, AM graft size, histopathological results, recurrence, complications, surface healing, patient comfort (according to the Ocular Surface Disease Index (OSDI) questionnaire) and cosmetic appearance (according to the grades of conjunctival injection as none: 0, mild: 1, moderate: 2, and severe: 3).18

Exclusion criteria were lesions with localized spread (less than five clock hours in limbal extent) and primary chemotherapy treatment.

Imaging

Slit-lamp photography: anterior segment digital images were taken by slit-lamp cam (5.0, integrated and 5 megapixels) attached to the slit-lamp microscope (Zeiss 220 SL, Carl Zeiss Meditec AG, Jena, Germany).

AS-OCT: Anterior Segment 5 Line Raster scanning protocol of Cirrus HD-OCT 5000 system (Carl Zeiss Meditec AG, Jena, Germany) was used in ocular surface lesions imaging. The epithelial thickness of the tumor was measured on its greatest dimension by the distance-measuring tool. Hyper-reflectivity and hypo-reflectivity of conjunctival epithelium and subepithelial component were defined as increased whiteness and darkness compared to normal subjects, respectively.9

The appearance of CSCC on HR-OCT is a thickened, hyper-reflective epithelium and an abrupt transition between the normal and affected epithelium.8,9

The diagnosis was based on clinical and AS-OCT specific criteria of CSSC and was confirmed by histopathological results. Staging of tumors was done according to AJCC classification.

Treatment

Surgery

In MMC group, clinically apparent healthy conjunctiva was marked. The corneal and conjunctival lesions were excised after corneal epithelial scraping. In no MMC group, the corneal and conjunctival lesions excision involves 2-mm margin of normal-looking epithelium was done, then double freeze-thaw cryotherapy was applied to all surgical margins and allowed to thaw. A “no-touch” excision technique was used in both groups.19,20

Excised specimens were sent for histopathologic diagnosis. The amniotic membrane graft (Amnio Tek [3*3 cm]; ISP Surgical) was cut to fit the size of conjunctival defect then was secure with the epithelial side facing up and attached to the sclera and conjunctiva using fibrin glue (Tisseel®, Baxter Inc., Deerfield, IL, USA). Eye pressure patch was applied for 24 hrs to provide a tight graft adherence.

Postoperatively,

Topical mitomycin C 0.04% eye drop is prescribed 4 times daily per treatment cycle (1 cycle=1 week on & 1 week off) in MMC group. The treatment cycles were repeated if any tumor persistence or recurrence detected clinically and on AS-OCT images.

Tobramycin–dexamethasone eye drops four times daily on a tapered regimen and a lubricating eye drop were prescribed for a month.

Follow-up visits were performed weekly during the 1st month following the treatment, monthly for 1st year, then twice yearly.

The Primary Outcome Measure

The recurrence of tumor which was detected clinically and/or on AS-OCT at 2-year follow-up while the secondary outcomes included cosmetic appearance and surgical or MMC-related complications.

Study Approval

The study was approved by the local ethics committee of advanced center for daycare surgery, Abu Dhabi, UAE. This study has followed the Tenets of the Declaration of Helsinki and its later amendments or comparable ethical standards. Informed consent was obtained from all individual participants included in the study.

ClinicalTrials.gov ID is NCT03515954

Statistical Analysis

Variables were revealed as a mean±standard deviation or percentage. Paired Student’s t-test was used for variables analysis. A P-value less than 0.05 was considered statistically significant. Statistical analysis was performed using Windows SPSS software version 16.0 (SPSS, Inc., Chicago, IL) (Figures 1 and 2).

Figure 1

Case 1 (MMC group); a 32-year-old male with OSSN of the left eye (A–C): slit-lamp photographs: (A) preoperative; shows a diffuse gelatinous lesion on the temporal conjunctiva with extensive corneal involvement. (B) One week postoperative; the conjunctiva was edematous and reconstructed with AMG (C) 2-year follow-up shows a complete resolution of the lesion. (D,E) AS-OCT images: (D) preoperative shows a thickened, hyper-reflective epithelium (red arrow) and abrupt transitions between normal and abnormal epithelium. (E) 2-year follow-up; in the area of the previous lesion shows back to a normal thin epithelial thickness and appearance (red arrow). (F,G) Histopathological specimen [H&E, low power (F) & high power (G)]; sections reveal squamous cell proliferation forming sheets & solid nests extending from the surface epithelium down to the subepithelial level. The squamous cells are atypical showing large nuclei, multiple eosinophilic nucleoli with frequent mitosis and atypical forms. The intercellular bridges between the squamous cells are readily seen. There are many individually keratinized cells with small pearl-like structures. This is consistent with invasive squamous cell carcinoma, moderately differentiated.

Figure 2

Case 2 (MMC group); a 56-year-old male with OSSN of the left eye, A–C: slit-lamp photographs: (A) preoperative shows a diffuse papillary lesion on the temporal conjunctiva with conjunctival fornices extension. (B) 1-week post-operative shows congested ocular surface which was reconstructed with AMG. (C) 2-year follow-up shows a complete resolution of the lesion. (D, E) AS-OCT images: (D) preoperative shows a thickened and hyper-reflective epithelium (red arrow). (E) 2-year follow-up; in the area of the previous lesion shows back to a normal thin epithelial thickness and appearance (red arrow). (F–I) Histopathological specimen [H&E, low power (F, G) & high power (H, I)]; sections reveal fibrovascular tissue with many congested blood vessels lined by stratified squamous epithelium. In some areas, there is atypia throughout the full thickness of epithelium with individual tumor cells and nests extending into underlying stroma. The tumor cells (yellow arrow) show eosinophilic cytoplasm, intercellular bridges and atypical nuclei with prominent nucleoli and coarse chromatin. Frequent mitotic figures, including atypical mitoses, are also seen. This is consistent with invasive squamous cell carcinoma; moderately differentiated and adjacent area shows moderate to severe dysplasia and intraepithelial neoplasia (carcinoma-in-situ).

Results

This is a prospective study included 24 eyes of 24 patients. Mean postoperative follow-up was 27.1±4.1 (range, 19–31) months. The study population was similar between the two groups; the mean age of patients was 57.4±12.6 years with 11 males (73.3%) and 4 females (26.7%) in MMC group and 60.4±3.8 years with 6 males (66.7%) and 3 females (33.3%) in no MMC group. One patient showed an atypical presentation of CSCC; the patient was young (35 years old) and HIV negative.

The mean extent of the limbal involvement was 7.0±0.7 and 7.25±0.6 clock hours in MMC group and no MMC group, respectively. According to AJCC classification, there were 7 (46.7%) T2 tumors and 8 (53.3%) T3 tumors in MMC group and 3 (22.2%) T2 tumors and 6 (77.8%) T3 tumors in no MMC group. The mean size of conjunctival defect after tumor excision in MMC group (60.8±9.2 mm2) was significantly lower than in no MMC group (92.4±17.3mm2) (P value <0.0001). Mean operative time was 38.6±2.7and 39.8±3.2 mins in MMC group and no MMC group, respectively.

Histopathological diagnosis revealed invasive CSCC in all specimens. Severe dysplasia was associated with invasive SCC in 3 patients in MMC group. Involvement of the excision margin was reported in 6 (40%) and 1 (11%) specimens in MMC and no MMC groups, respectively.

BCVA changed insignificantly from 0.3±0.25 and 0.32±0.18 log MAR preoperatively to 0.25±0.17 and 0.27±0.17 log MAR at 2-year follow-up in MMC group and no MMC group, respectively.

The mean OSDI score changed insignificantly from 10.8±0.25 and 10.4±2.9 preoperatively to 10.0±3.1 and 0.27±3.5 at 2-year follow-up in MMC group and no MMC group, respectively.

According to conjunctival injection grades, there were 12 (80%) grade 0 and 3 (20%) grade 1 in MMC group and 6 (75%) grade 0 and 2 (25%) grade 1 in no MMC group.

The mean preoperative conjunctival epithelial thickness decreased significantly in both groups at 2-year follow-up. It decreased from 267±24.2 & 256±19.1 μm preoperatively to 56.7±11.6 & 60.4±9.6 μm at 2-year follow-up in MMC group and no MMC group, respectively (P value <0.0001). AS-OCT images showed characteristic appearance of CSCC in the form of a thickened, hyper-reflective epithelium and an abrupt transition between the normal and affected epithelium which correlate with histopathology results of primary, postoperative subclinical disease, and recurrent cases. The mean number of MMC treatment cycles was 2.1±0.85 cycles. Recurrence was recorded in zero (0%) and 1 (11%) patients at 2year follow-up in MMC and no MMC groups, respectively (Table 1).

Table 1

Summary Of Demographic And Clinical Results

Variable	Result (Mean±SD) Or Total (%)
Age (years):
MMC group No MMC group	57.4±12.660.4±3.8
Gender, male & female (%):
MMC group	11 (73.3%) & 4 (26.7%)
No MMC group	6 (66.7%) & 3 (33.3%)
Follow-up period (months):	27.1±4.1 (range, 19–31)
Extent of the limbal involvement (clock hours):
MMC group	7.0±0.7
No MMC group	7.25±0.6
Operative time(minutes):
MMC group	38.6±2.7
No MMC group	39.8±3.2
Conjunctival defects(mm2):*
MMC group	63.6±19.3
No MMC group	92.4±17.3
BCVA preoperative & 2-year follow-up (log MAR):
MMC group	0.3±0.25 & 0.25±0.17
No MMC group	0.32±0.18 & 0.27±0.17
The conjunctival epithelial thickness preoperative & 2-year follow-up (μm):*
MMC group	267±24.2 & 56.7±11.6
No MMC group	256±19.1 & 60.4±9.6
Number of MMC treatment cycle (cycles)	2.1±0.85
Recurrence, total (%)
MMC group	Zero (0%)
No MMC group	1(11%)

Note: *A significant different at P value <0.05.

Abbreviations: SD, standard deviation; MMC, mitomycin C; CSCC, conjunctival squamous cell carcinoma.

In MMC group, 3 patients suffered from epiphora, which was relived after nasolacrimal syringing and conjunctival hyperemia and punctuate keratopathy but disappeared on cessation topical MMC. No major operative or MMC-related complications were recorded.

Discussion

We conducted a prospective study on 24 eyes with diffuse CSCC. Fifteen eyes underwent combined surgical and topical chemotherapy treatment lines starting with lesion resection followed by postoperative topical mitomycin C 0.04% eye drop (MMC group) while nine eyes underwent complete excision and cryotherapy (no MMC group). The conjunctival defect was covered with AMT secured by fibrin glue. The diagnosis and treatment of CSCC was monitored by AS-OCT.

The study results were similar between the two groups except the size of conjunctival defect after tumor excision was significantly lower in MMC group than in no MMC group and we think that minimized the burden of surgery on ocular surface and improved postoperative patient comfortless. The recurrence rate was 0% and 11% in MMC and no MMC groups, respectively.

Early diagnosis and proper management of OSSN can prevent significant ocular morbidity.13

The treatment of larger CSCC is a challenging task for all forms of therapy.21

A perfect treatment of OSSN should achieve complete tumor eradication, proper reconstruction of the lost tissue and achieving good functional and cosmetic appearance.22

The primary surgical resection with lesion-free margins is the mainstay of treatment for OSSN providing advantages of surgical debulking, confirming a definitive histopathological diagnosis and exclude life-threatening invasive carcinoma.20,23

The use of topical or intralesional chemotherapeutic agents such as mitomycin C or IFNa2b has become widespread. However, in the review of the literature, it appears that most centers selectively treat large (>8 mm in diameter) tumors with surgery and adjuvant cryotherapy or chemotherapy.24–26

The lack of prior surgical debulking resulted in the higher persistence and recurrence rates noted in cases with diffuse disease. On the other hand, surgical excision of diffuse conjunctival lesions is potentially hazardous due to the risk of limbal stem cell failure and marked tissue loss in the attempt for achieving clear surgical margins. Moreover, the recurrence rate is still high, ranging from 15% to 52%, with the sole primary excision even with lesion-free margins.10,27,28

AS-OCT is a useful adjunctive tool for the diagnosis and management of ocular surface lesions. AS-OCT is a noninvasive technique, able to detect subclinical disease, monitoring for OSSN resolution during medical treatment and prevent the premature termination of topical therapy. Disadvantage of AS-OCT concerning OSSN is the inability to exclude invasive disease and assess intracellular characteristics. Besides, the fornix and caruncle lesions are difficult to be scanned.29–31

In our cohort, AS-OCT showed a characteristic appearance of CSCC in all cases helping not only the diagnosis of primary and postoperative subclinical, persistent or recurrent cases, but also monitoring postoperative topical therapy. AS-OCT is a very helpful and adjunctive tool in diagnosis and management of CSCC but the mainstay for the diagnosis of CSCC remains histopathologic evaluation.

Topical chemotherapy such as MMC, 5FU, and IFN a2b has been used as treatment for OSSN. Some case series of large CSCC showed complete tumor resolution with the use of sole topical chemotherapy.5,24,32

On the other hand, some publications reported that not only the efficacy of isolated chemotherapy in large or invasive OSSN is low but also it is contraindicated for invasive tumors explaining that, topical agents unlikely penetrate to the required level to reach the invasive cells.33,34

Topical chemotherapy needs long treatment duration and patient compliance. IFNa2b shows favorable outcomes in the treatment of primary and recurrent OSSN but it requires a longer duration of treatment than is required with MMC, which may be a disadvantage.23,35

Although zero recurrence rate with sole chemotherapy in Shields et al report, they recommended that extensive tumors may be managed by topical mitomycin C following appropriate biopsy. In Albert et al's study, which carried out excisional biopsy and adjunctive cryotherapy for OSSN treatment, nonetheless, the majority of incompletely excised OSSN (25/28) showed no recurrence. Our study and Bello et al case report of giant OSSN carried out the same therapeutic combination by performing an early tumor excision and followed by topical treatment with MMC and IFNa2b, respectively (Table 2).5,6,14,20,22–24,28,35,37–39

Table 2

Previous Reports On Treatment For Diffuse CSCC

Author(s)/Year	Surgical Technique	Recurrence (%)	Number Of Eyes	Follow-Up Months
Shield et al6/2002	Topical mitomycin C 0.04% four times daily for 7 days followed by 7 days off (repeated until completely regressed using slit-lamp biomicroscopy)	0%	10 extensive CSCC	6–50
Frucht-Pery et al37/2002	(Topical MMC, 0.02% or 0.04%, four times daily for 14 days per course/2-3 courses)Histologic evaluation was done 1 month after the final treatment	0%	5 incompletely excised CSCC.	18 - 37
Khokhar et al38/2002	Excision+cryotherapy+0.02% MMC at the time of surgery.	0%	5 recurrent OSSN	More than 12
Shields et al13/2005	Chemoreduction: MMC (0.04% four times a day/week on –week off per cycle/2–3 cycles until no further regression or patient intolerance or toxicity)+ surgical resection of the residua (2 weeks after cessation of MMC)	0%	3 extensive thick CSCC	N/A
Gupta, Muecke5/2010	Primary topical MMC (0.04% four times a day/week on –week off per cycle/2–3 cycles)	● 10% (one case) with partial Regression● 20% (two) with recurrence.	10 diffuse CSCC	5.8–119.8
Kim et al24/2012	Topical and/or intralesional IFN‑α2b	● Complete control in 72%● Reduction in size in 28%	18 giant OSSN	Median follow-up of 11
Palamar et al45/2014	Excision+AMG secured by suture	0% (good cosmetic and functional)	10 OSSN	13–75
Albert et al22/2015	Excision+cryotherapy±AMG	7% (3/43; all from +ve margin group)	28 incomplete excision OSSN	18.4–44.3
Joag et al28/2016	Primary topical 5FU	11% (4 patients)	44 OSSN	2–77
Bello et al23/2016	A surgical excision without safety margins+IFNα2b.	0%	Case study of giant OSSN	24
Hanada et al21/2017	Excision +0.04% MMC treatment for the exposed sclera+AMG	25%	8	36–78
Joag et al28/2016	5-Fluorouracil 1% 4 times daily for 1 week followed by a drug holiday of 3 weeks	18%	44 OSSN	The median follow-up 10 months (range, 2–77 months)
Parrozzani et al45/2017	1% 5-FU four times a day for 4 weeks Adjunctive courses were administered after 1 month of chemotherapy-free interval.	17% (effective treatment for patients affected by preinvasive OSSN and for a limited proportion (50%) of invasive OSSN).	41	Mean follow-up was 105±32 months (range 60–171 months)
Chaugule et al35/2018	IFN α2b and/or 5 1% 5FU.Exfoliative biopsy to confirm the diagnosis	0%	10 giant OSSN	3–25
Meel et al44/2018.	Immunoreduction(intraorbital IFα2b of 3 injections at week interval)+ A wide surgical excision and cryotherapy and intraoperative 0.04% MMC +Topical interferon (1 million IU/mL – four times a day) drops 3 months after surgery.	0%	Case report of locally advanced orbito-conjunctival	24 months
Current study	Modified excision+AMG+MMC (0.04% four times a day/week on –week off per cycle)/(repeated until completely regressed clinically using slit-lamp biomicroscopy and AS-OCT)	0%	15 diffuse CSCC	19 –31

Abbreviations: OSSN, ocular surface squamous cell neoplasia; CSCC, conjunctival squamous cell carcinoma; AMT, amniotic membrane transplant; MMC, mitomycin C; IFNα2b, interferon alpha 2b; 5FU, 5 fluorouracil; AS-OCT, anterior segment optical coherent tomography.

Reports of successful treatment of giant OSSN with topical treatment may give a false sense of clinical effectiveness of topical therapies for all degrees of invasive disease. Until the depth at which topical therapies lose their anti-neoplastic effectiveness is known, treating CSCC with topical agents alone must be cautious.40

The conjunctival defect created by excision of CSCC was repaired with primary closure techniques, but large one often required tissue replacement. The use of AMG has improved the outcomes for CSCC surgery, as a biological bandage covers underlying ocular structures, facilitates healing. Many publications have reported the successful use of AMG in the reconstruction of conjunctival defects following different types of conjunctival tumors and mentioned little postoperative complication as symblepharon, pyogenic granuloma, and fibrosis. Using fibrin glue shortens the operating time and promotes postoperative patient comfort.22,39,41–43

Immunoreduction with interferons or topical MMC chemoreduction allow complete excision of giant or diffuse conjunctival SCC not involving orbit.24,44

Based on previous discussion, we believe that CSSC management notably diffuse type is an enigma and challenge for ocular surgeons. All lines of therapy either isolated or combined have their advantages and disadvantages.

In our cohort, we started with limited surgical resection of the lesion followed by topical treatment with MMC. An early surgical excision gave the advantage of confirmation of diagnosis and lesion debulking to decrease recurrence and persistence of tumor with the minimal tissue loss. Limited excision had advantage of minimal tissue loss but carried the risk of incomplete excision and tumor persistence.

We think that postoperative topical chemotherapy; as MMC can overcome the possibility of incomplete lesion excision and give advantage of assuring tumor resolution, besides, manage any subtle residual epithelial malignancy. AMG application helps in ocular surface reconstruction attains a good cosmetic appearance.

Prospective study compares current approach (limited excision followed by adjuvant MMC chemotherapy) and chemoreduction followed by surgical excision would answer the question of superiority of either technique in the treatment of diffuse and giant CSSC. Limitations of this study include a relatively small cohort size.

Conclusion

The treatment of diffuse CSCC with AS-OCT guided combined therapy includes limited surgical resection, AMG and postoperative topical MMC achieves a complete tumor resolution and good functional and cosmetic outcomes. This combination minimizes the burden of surgery on ocular surface and improves postoperative patient comfortless in our study cohort.