A Clinical Study on Co-transplantation of Autologous Limbal Stem Cells and Corneal Stromal Stem Cells to Repair Corneal Injury

Study Results

Results pending

The study team has not published outcome measurements, participant flow, or safety data for this trial yet. Check back later for updates.

Basic Information

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Recruitment Status

NOT_YET_RECRUITING

Clinical Phase

PHASE1/PHASE2

Total Enrollment

60 participants

Study Classification

INTERVENTIONAL

Study Start Date

2024-12-01

Study Completion Date

2029-03-01

Brief Summary

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This study aims to: 1) verify the feasibility of treating limbal stem cell deficiency (LSCD) caused by chemical injury with autologous limbal stem cell transplantation combined with corneal stromal stem cell transplantation; 2) evaluate the corneal healing patterns following autologous stem cell transplantation; and 3) establish a clinical intervention protocol based on autologous corneal stem cell transplantation. Sixty cases of single-eye LSCD were included.

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Detailed Description

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Limbal Stem Cells (LSCs) are the sole source of corneal epithelial self-renewal and play a critical role in maintaining corneal transparency. Chemical or physical injury to the eye and inflammation can lead to limbal stem cell deficiency (LSCD), accompanied by a series of pathological changes, such as irreversible fibrosis of corneal stromal cells and neovascularization, ultimately resulting in blindness. The fundamental solution for such diseases is the replenishment of LSCs to reconstruct a functional cornea. However, traditional treatment methods, such as corneal transplantation, face bottlenecks, including a severe shortage of corneal donors and the risk of immune rejection. Additionally, donor corneas do not contain LSCs, making it impossible to reconstruct the patient's limbal region, resulting in poor long-term efficacy.

In 2015, autologous LSCs were approved by the European Union as a commercial stem cell product for treating patients with chemically induced LSCD. However, LSCD patients are often accompanied by damage to the corneal stroma; while LSC transplantation can restore the limbal region and corneal epithelium, it cannot repair stromal opacities. Research indicates that transplantation of corneal stromal stem cells can reconstruct organized collagen structures and restore stromal transparency. Over the past decade, clinical studies using LSCs and corneal stromal stem cells to treat LSCD patients have been conducted in multiple countries, demonstrating the safety and efficacy of these stem cell therapies for corneal blindness.

Based on these findings above, the investigators have established a serum-free, carrier-free culture system that enables efficient and uniform in vitro expansion of functional LSCs and corneal stromal stem cells. By obtaining a 2 x 5 mm limbal tissue sample from the healthy eye of the patient, the investigators can acquire a sufficient number of cells for transplantation. Preclinical studies have confirmed that the expanded cells are effective and safe for treating LSCD animal models. This study aims to use autologous LSCs combined with corneal stromal stem cell transplantation to treat patients with unilateral LSCD, restoring their corneal transparency and visual function. This approach provides a novel treatment method for patients and promotes the application of stem cell regenerative medicine for the treatment of corneal blindness in China.

Conditions

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Limbal Stem Cells Deficiency

Study Design

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Allocation Method

RANDOMIZED

Intervention Model

PARALLEL

Primary Study Purpose

TREATMENT

Blinding Strategy

SINGLE

Outcome Assessors

Study Groups

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Cornea limbal stem cell transplantation group

The corneal limbal tissue (2mm x 5mm) was harvested from the patient's healthy eye, and ex vivo amplification was performed to obtain an adequate quantity of transplantable corneal limbal stem cells The patient was followed up and re-examined for 2 years postoperatively.

Group Type EXPERIMENTAL

Cornea limbal stem cell transplantation group

Intervention Type BIOLOGICAL

The corneal limbal tissue (2mm x 5mm) was harvested from the patient's healthy eye, and ex vivo amplification was performed to obtain an adequate quantity of transplantable corneal limbal stem cells.

Cornea limbal stem cell transplantation combined corneal stromal stem cell group

The corneal limbal tissue (2mm x 5mm) was harvested from the patient's healthy eye, and ex vivo amplification was performed to obtain an adequate quantity of transplantable corneal limbal stem cells and corneal stromal stem cells. The patient was followed up and re-examined for 2 years postoperatively.

Group Type EXPERIMENTAL

Cornea limbal stem cell transplantation combined corneal stromal stem cell group

Intervention Type BIOLOGICAL

The corneal limbal tissue (2mm x 5mm) was harvested from the patient's healthy eye, and ex vivo amplification was performed to obtain an adequate quantity of transplantable corneal limbal stem cells and corneal stromal stem cells.

Corneal transplantation group

The patient awaited allogeneic corneal donation and underwent corneal transplantation surgery. Postoperatively, the patient was followed up and re-examined for 2 years.

Group Type ACTIVE_COMPARATOR

Corneal transplantation

Intervention Type PROCEDURE

The patient awaited allogeneic corneal donation and underwent corneal transplantation surgery.

Interventions

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Cornea limbal stem cell transplantation group

The corneal limbal tissue (2mm x 5mm) was harvested from the patient's healthy eye, and ex vivo amplification was performed to obtain an adequate quantity of transplantable corneal limbal stem cells.

Intervention Type BIOLOGICAL

Corneal transplantation

The patient awaited allogeneic corneal donation and underwent corneal transplantation surgery.

Intervention Type PROCEDURE

Cornea limbal stem cell transplantation combined corneal stromal stem cell group

The corneal limbal tissue (2mm x 5mm) was harvested from the patient's healthy eye, and ex vivo amplification was performed to obtain an adequate quantity of transplantable corneal limbal stem cells and corneal stromal stem cells.

Intervention Type BIOLOGICAL

Eligibility Criteria

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Inclusion Criteria

* Chemical injury from acid or alkali exposure
* Extensive limbal stem cell deficiency (greater than 180 degrees), with corneal stromal opacity not exceeding a depth of 250 μm
* Corneal epithelial conjunctivalization and fibrosis, with neovascularization extending into more than half of the quadrants
* Unilateral ocular involvement, with normal limbal stem cell function in the contralateral healthy eye
* No significant improvement in ocular surface signs and symptoms after pharmacological or surgical interventions, stable for over three months

Exclusion Criteria

* Bilateral corneal stem cell deficiency, such as in Stevens-Johnson syndrome, ocular cicatricial pemphigoid, or congenital aniridia
* Subclinical limbal stem cell deficiency in the contralateral eye
* Signs of corneal endothelial decompensation, such as corneal bullae or corneal edema
* Presence of infectious inflammation on the ocular surface
* Severe dry eye
* Eyelid abnormalities requiring corrective surgery to restore normal anatomical structure
* Presence of chronic dacryocystitis, cataracts, uveitis, diabetic retinopathy, retinal detachment, or other ocular diseases
* Patients who have undergone cataract surgery or other intraocular procedures
* Glaucoma patients requiring long-term topical ocular medications
* History of corneal perforation in the affected eye
* Severe primary cardiovascular, hepatic, renal, endocrine, or hematologic disorders, diabetes, or immune deficiency in the medical history
* Pregnant or lactating women
* Positive screening for infectious diseases (HIV, HBV, HTLV, EBV, CMV, or syphilis)
* Other vision-impairing diseases present
* Allergy to bovine serum products
* History of multiple drug allergies or hypersensitive constitution
* Concurrent participation in other drug clinical trials
* History of mental health disorders affecting the ability to comply with study requirements
* Judged unsuitable for participation by the investigator

Minimum Eligible Age

18 Years

Maximum Eligible Age

60 Years

Eligible Sex

ALL

Accepts Healthy Volunteers

No