An Alternative and Validated Injection Method for Accessing the Subretinal Space &lt;i&gt;via&lt;/i&gt; a Transcleral Posterior Approach

Parikh, Sachin; Le, Andrew Nova; Davenport, Julian; Gorin, Michael B.; Nusinowitz, Steven; Matynia, Anna

doi:10.3791/54808

Cited by 15 publications

(14 citation statements)

References 16 publications

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“…; Wolff ; Parikh et al. ). Access through the sclera is commonly used in the subretinal implantation of retinal prosthesis (Lin et al.…”

Section: Introductionmentioning

confidence: 99%

Subretinal surgery: functional and histological consequences of entry into the subretinal space

Sørensen

2019

Acta Ophthalmologica

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Background and objectives: Gene-therapy, stem-cell transplantation and surgical robots hold the potential for treatment of currently untreatable retinal degenerative diseases. All of the techniques require entry into the subretinal space, which is a potential space located between the retina and the retinal pigment epithelium (RPE). Knowledge about obstacles and critical steps in relation to subretinal procedures is therefore needed. This thesis explores the functional and histological consequences of separation of the retina from the RPE, extensive RPE damage, a large cut in the retina (retinotomy) and RPE phagocytosis in a porcine model. Methods: Experiments were performed in 106 female domestic pigs of Danish landrace distributed over five studies. Under general anesthesia, different procedures for expansion of the subretinal space were conducted. Outcomes were visual function measured electrophysiologically with multifocal electroretinogram (mfERG) and retinal morphology examined histologically. Study I: The effect of anesthesia on mfERG was examined by repeated recordings for 3 hr in isoflurane or propofol anesthesia. Outcome was mfERG amplitude. Study II: Consequences of a large separation of the photoreceptors from the RPE were examined by injecting a perfluorocarbon-liquid (decalin) into the subretinal space. Two weeks after, in a second surgery, decalin was withdrawn. Outcomes were mfERG and histology 4 weeks after decalin injection. Study III: Extensive RPE damage was examined by expanding the subretinal space with saline and removing large sheets of RPE-cells through a retinotomy. Outcomes were mfERG and histology 2, 4 and 6 weeks after the procedure. Study IV: Consequences of a large retinotomy were examined by similar procedures as in Study III, but in study IV only a few RPE cells were removed. Outcomes were mfERG and histology 2 and 6 weeks after surgery. Study V: Clearance of the subretinal space was examined by injecting fluorescent latex beads of various sizes into the subretinal space. Outcome was histologic location of the beads at different time intervals after the procedure. Results: Study I: MfERG amplitudes decreased linearly as a function of time in propofol or isoflurane anesthesia. Duration of mfERG recording could be decreased without compromising quality, and thereby could time in anesthesia be reduced. Study II: MfERG and histology remained normal after reattachment of a large and 2-week long separation of the photoreceptors and RPE. Repeated entry into the subretinal space was well tolerated. Fluid injection into the subretinal space constitutes a risk of RPE-damage. Study III: Removal of large sheets of retinal pigment epithelial cells triggered a widespread rhegmatogenous-like retinal detachment resulting in visual loss. Study IV: A large retinotomy with limited damage of the RPE was well tolerated, and visual function was preserved. Study V: Subretinal latex beads up to 4 lm were phagocytosed by the RPE and passed into the sub-RPE space. Beads up to 2 lm travelled further through...

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“…; Wolff ; Parikh et al. ). Access through the sclera is commonly used in the subretinal implantation of retinal prosthesis (Lin et al.…”

Section: Introductionmentioning

confidence: 99%

Subretinal surgery: functional and histological consequences of entry into the subretinal space

Sørensen

2019

Acta Ophthalmologica

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“…Due to its high precision and efficacy, the sub-retinal route is considered as one of the most effective methods used for ocular drug delivery [38]. The sub-retinal space can be typically accessed by the posterior trans-scleral route or trans-choroidal route (passing through the choroid and Bruch's membrane without penetrating the retina) [39][40][41][42][43][44].…”

Section: Sub-retinal Routementioning

confidence: 99%

Regulation of the Ocular Cell/Tissue Response by Implantable Biomaterials and Drug Delivery Systems

Baino

Kargozar

2020

Bioengineering

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Therapeutic advancements in the treatment of various ocular diseases is often linked to the development of efficient drug delivery systems (DDSs), which would allow a sustained release while maintaining therapeutic drug levels in the target tissues. In this way, ocular tissue/cell response can be properly modulated and designed in order to produce a therapeutic effect. An ideal ocular DDS should encapsulate and release the appropriate drug concentration to the target tissue (therapeutic but non-toxic level) while preserving drug functionality. Furthermore, a constant release is usually preferred, keeping the initial burst to a minimum. Different materials are used, modified, and combined in order to achieve a sustained drug release in both the anterior and posterior segments of the eye. After giving a picture of the different strategies adopted for ocular drug release, this review article provides an overview of the biomaterials that are used as drug carriers in the eye, including micro- and nanospheres, liposomes, hydrogels, and multi-material implants; the advantages and limitations of these DDSs are discussed in reference to the major ocular applications.

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“…Basically, approaches for subretinal injections can be divided into 3 groups: (1) a transcorneal route through the pupil, passing the lens, vitreous, and retina [105,106] ; (2) a transscleral route entering the pars plana or limbus areas, crossing through the vitreous and the opposite side of retina into the subretinal space [9,107,108] ; and (3) a transscleral route through the choroid and Bruch's membrane without penetrating the retina [109][110][111] ( Fig. 2 ).…”

Section: Approaches For Subretinal Injectionmentioning

confidence: 99%

Subretinal Injection: A Review on the Novel Route of Therapeutic Delivery for Vitreoretinal Diseases

Peng

Tang

Zhou³

2017

Ophthalmic Res

119

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Compared to intravitreal injection, subretinal injection has more direct effects on the targeting cells in the subretinal space, which provides a new therapeutic method for vitreoretinal diseases, especially when gene therapy and/or cell therapy is involved. To date, subretinal delivery has been widely applied by scientists and clinicians as a more precise and efficient route of ocular drug delivery for gene therapies and cell therapies including stem cells in many degenerative vitreoretinal diseases, such as retinitis pigmentosa, age-related macular degeneration, and Leber's congenital amaurosis. However, clinicians should be aware of adverse events and possible complications when performing subretinal delivery. In the present review, the subretinal injection used in vitreoretinal diseases for basic research and clinical trials is summarized and described. Different methods of subretinal delivery, as well as its benefits and challenges, are also briefly introduced.

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An Alternative and Validated Injection Method for Accessing the Subretinal Space <i>via</i> a Transcleral Posterior Approach

Cited by 15 publications

References 16 publications

Subretinal surgery: functional and histological consequences of entry into the subretinal space

Subretinal surgery: functional and histological consequences of entry into the subretinal space

Regulation of the Ocular Cell/Tissue Response by Implantable Biomaterials and Drug Delivery Systems

Subretinal Injection: A Review on the Novel Route of Therapeutic Delivery for Vitreoretinal Diseases

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