Restoration of Corneal Transparency in a Patient with Corneal Scarring Using Mesenchyme Stem Cells: A Case Report

Article information

Korean J Ophthalmol. 2023;37(5):429-431
Publication date (electronic) : 2023 August 03
doi : https://doi.org/10.3341/kjo.2023.0037
1Department of Optometry, School of Rehabilitation Sciences, Shahid Beheshti University of Medical Sciences, Tehran, Iran
2Department of Cell Therapy, Red Crescent Pharmaceutical and Clinical Complex, Tehran, Iran
3Department of Molecular and Cell Biology; Faculty of Basic Sciences, University of Mazandaran, Babolsar, Iran
Corresponding Author: Masoumeh Ahadi, PhD student. Department of Optometry, School of Rehabilitation Sciences, Shahid Beheshti University of Medical Sciences, Damavand, Tehran 4561745735, Iran. Tel: 98-21-7754-2057, Fax: 98-21-7761-2051, Email: sepid01@yahoo.com
Received 2023 March 17; Revised 2023 July 14; Accepted 2023 July 26.

Dear Editor,

Corneal scarring is one of the leading causes of vision loss for millions of people worldwide. Studies has been reported therapeutic effects of stem cells. In this study, we evaluated the efficacy and safety of stem cell therapy in a patient with corneal scarring. Informed consent for the modality and publication of the research details was obtained from the patient.

A 60-year-old man presented to the eye clinic with a longstanding history of blurred vision in his right eye due to corneal scarring. He had a history of keratoconus in both eyes and herpes simplex keratitis in right eye. His best-corrected visual acuity (BCVA) was hand movement in right eye and 20 / 30 in left eye. Slit-lamp examination showed corneal scarring in right eye with nonmeasurable refractive errors. The patient asked any modality other than penetrating keratoplasty. We suggested stem cells therapy as a research method with potential positive or negative effects. For stem cells therapy, we used adipose-derived stem cells (ASCs) from adipose tissue in the abdomen. The prepared ASCs were injected into the corneal stroma. Surgical procedure was similar to intracorneal ring implantation. After local anesthesia of the cornea, using femtosecond laser (Technolas 520F, Technolas Perfect Vision GmbH), an intrastromal pocket was created in the corneal stroma (a depth of half of the cornea according to pachymetry data) with a diameter of 7.0 mm. A 30° anterior side cut incision was made. The intrastromal pocket was opened with a Morlet lamellar dissector. A volume of 1 mL of a solution containing 3 × 106 cells is injected into the stromal pocket. Finally, a bandage contact lens was fit on the cornea to close the incisions, which was removed a week after surgery. To prevent postoperative inflammation and infection, betamethasone and chloramphenicol eye drops were prescribed for 3 weeks.

One month after intrastromal injection of ASCs, a significant decrease in corneal haze was observed, which continued for the next 3 months. During the 6-month follow-up examinations, right cornea was transparent and similar to normal cornea (Fig. 1A–1D). After 3 months, the refractive errors of the patient were +4.0 / −6.0 × 165 diopters (D) and BCVA was 20 / 80 in left eye. At the 6-month examination, the refractive errors of the patient were +3.50 / −5.25 × 170 D and BCVA of the right eye was 20 / 60. Topographic images showed decreased irregularities and increased regularity in both anterior and posterior surfaces of cornea. No evidence of inflammation, infection and side effects were seen after 6 months.

Fig. 1

Changes in corneal transparency and topographical findings in a patient with corneal opacity after intrastromal transplantation of adipose-derived stem cells (ASCs). (A) Preoperative corneal photograph of the right eye. (B) Preoperative corneal topography of the right eye showing the corneal irregularities. Topographic assessments showed corneal remodeling. Initially, flat keratometry (K1), steep keratometry (K2), and maximum keratometry (Kmax) were 30.50, 39.50, and 53.00 diopters (D), respectively. (C) Postoperative (6 months) corneal photograph of the same eye. (D) Postoperative (6 months) corneal topography of the right eye showing the corneal remodeling. At the 6-month examination, K1, K2, and Kmax were 43.20, 45.80, and 53.00 D, respectively. Firstly, astigmatism of patient was 8.90 D, which was 2.50 D after 6 months. The preoperative thinnest corneal thickness was 301 μm, which reached to 384 μm after 6 months.

In this patient transplantation of ASCs led to significant improvement in corneal transparency due to stromal remodeling with regular rearrangement of collagen. For easier access to cells and their extraction from adipose tissue, lack of subsequent immune reactions, we used autologous ASCs from adipose tissue for cell therapy. The use of stem cells in the treatment of corneal diseases showed promising results in the initial studies [13]. Intrastromal injection of human stromal stem cells in mice with stromal opacity restored stromal thickness and improved collagen fibril defects. These cells reconstructed the structure of the stromal matrix and reorganized the corneal collagen and proteoglycans [1]. Intrastromal injection of human stromal stem cells in mice with stromal opacity restored stromal thickness and improved collagen fibril defects. These cells reconstructed the structure of the stromal matrix and reorganized the corneal collagen and proteoglycans [2]. Stem cells have the ability to regenerate a stable and non-regenerating tissue such as the corneal stroma. These cells regenerate collagenous matrix with uniform diameter and regular interfibrillar spacing, indistinguishable from native stroma [3]. Stem cells have immunosuppressive properties and antifibrotic wound healing properties [4]. Stem cells also release the molecule hepatocyte growth factor to suppress the expression of opacity-inducing α-smooth muscle actin and tumor necrosis factor α. Hepatocyte growth factor inhibits the conversion of corneal fibroblasts into myofibroblasts and inhibits the tissue infiltration of inflammatory cells [5]. In our view, the therapeutic effects of intrastromal injection of ASCs for corneal scars are related to a set of these factors.

In conclusion, intrastromal injection of ASCs could restore corneal transparency and improve visual acuity in the patient with corneal scarring. This modality was safe and less invasive than the common corneal transplantation. We suggest further studies with more patients and combined other therapies.

Acknowledgements

None.

Notes

Conflicts of Interest: None.

Funding: None.

References

1. Du Y, Carlson EC, Funderburgh ML, et al. Stem cell therapy restores transparency to defective murine corneas. Stem Cells 2009;27:1635–42.
2. Basu S, Hertsenberg AJ, Funderburgh ML, et al. Human limbal biopsy-derived stromal stem cells prevent corneal scarring. Sci Transl Med 2014. 6266ra172.
3. Wu J, Du Y, Watkins SC, et al. The engineering of organized human corneal tissue through the spatial guidance of corneal stromal stem cells. Biomaterials 2012;33:1343–52.
4. Hertsenberg AJ, Shojaati G, Funderburgh ML, et al. Corneal stromal stem cells reduce corneal scarring by mediating neutrophil infiltration after wounding. PLoS One 2017. 12e0171712.
5. Mittal SK, Omoto M, Amouzegar A, et al. Restoration of corneal transparency by mesenchymal stem cells. Stem Cell Reports 2016;7:583–90.

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Fig. 1

Changes in corneal transparency and topographical findings in a patient with corneal opacity after intrastromal transplantation of adipose-derived stem cells (ASCs). (A) Preoperative corneal photograph of the right eye. (B) Preoperative corneal topography of the right eye showing the corneal irregularities. Topographic assessments showed corneal remodeling. Initially, flat keratometry (K1), steep keratometry (K2), and maximum keratometry (Kmax) were 30.50, 39.50, and 53.00 diopters (D), respectively. (C) Postoperative (6 months) corneal photograph of the same eye. (D) Postoperative (6 months) corneal topography of the right eye showing the corneal remodeling. At the 6-month examination, K1, K2, and Kmax were 43.20, 45.80, and 53.00 D, respectively. Firstly, astigmatism of patient was 8.90 D, which was 2.50 D after 6 months. The preoperative thinnest corneal thickness was 301 μm, which reached to 384 μm after 6 months.