The book is divided into five parts, with each providing significant updates on topics including interactions between biomaterials and the ocular surface, strategies for corneal tissue reconstruction, keratoprotheses, strategies for retinal tissue construction, biomaterials for ocular drug delivery, implants for treating glaucoma, implants for monitoring intraocular pressure, intraocular lenses, vitreal substitutes, retinal prostheses, and orbital implants.
Beginning with the ocular surface, the book progressively moves deeper into the eye as it explores the use of biomaterials, when either applied alone or in conjunction with living cells, as a means of restoring structure and/or function to ocular tissues. Notably, some chapters cover the essential background to understanding interactions between biomaterials and ocular cells and tissues, while others provide case studies of research translation from the laboratory bench to the clinic and subsequent commercialization.
Biomaterials and Regenerative Medicine in Ophthalmology, 3rd Edition, is therefore a valuable source of information for all postgraduate students, academics, clinicians, and industry-based researchers who are seeking a deeper understanding of the issues relating to the application of biomaterials and regenerative medicine in ophthalmology.
Table of Contents
Part One: Biomaterial-Ocular Surface Interface1. Ocular biotribology and the ocular/contact lens interface
2. The ageing tear film and ocular surface: biomaterials challenges
3. The design and development of hydrogels and silicone hydrogels for contact lens applications
4. Advances in contact lens design
Part Two: Strategies for Corneal Reconstruction
5. The strengths and limitations of primary corneal cells
6. Potential for corneal cells from iPS cells
7. Biomaterials for repairing the corneal epithelium
8. Biomaterials for stromal reconstruction
9. Kuragel Liquid cornea
10. Biomaterials for corneal endothelial cell transplantation
Part Three: Strategies for Retinal Reconstruction
11. Biomaterials for retinal tissue engineering
12. Neural retina
13. RPE and choroid
14. Optic nerve
Part Four: Biomaterials for Ocular Drug Delivery
15. Topical delivery of ophthalmic drugs
16. Slow-release drug platforms for ophthalmology
17. Slow-release glaucoma drug delivery systems
18. Intra-vitreal drug delivery
Part Five: Other Applications
19. Hydrogels for ophthalmological use: physiochemical and structural considerations
20. Polymer science in glaucoma implants
21. Advances in intraocular lenses
22. Vitreal substitutes
23. Keratoprotheses
24. Orbital implants
25. Retinal prostheses lessons learned
26. IOP monitoring systems

