Human eye diagram. From: Bioengineering an Optimised in vitro Model of the Outer Blood-Retinal Barrier Under Diabetic-like Conditions for the Screening of Novel Pharmacological Formulations for Diabetic Retinopathy, (2023) PhD thesis, University of Liverpool.
Retina: normal eye vs diabetic retinopathy. From: Bioengineering an Optimised in vitro Model of the Outer Blood-Retinal Barrier Under Diabetic-like Conditions for the Screening of Novel Pharmacological Formulations for Diabetic Retinopathy (2023), PhD thesis, University of Liverpool.
Metformin and Rapamycin mechanism of action. From: Bioengineering an Optimised in vitro Model of the Outer Blood-Retinal Barrier Under Diabetic-like Conditions for the Screening of Novel Pharmacological Formulations for Diabetic Retinopathy (2023), PhD thesis, University of Liverpool.
ABS mount support structure for 24-well plate inserts. From: Bioengineering an Optimised in vitro Model of the Outer Blood-Retinal Barrier Under Diabetic-like Conditions for the Screening of Novel Pharmacological Formulations for Diabetic Retinopathy (2023), PhD thesis, University of Liverpool.
Kirkstall Ldt QV500 + ABS mount support scheme. From: Bioengineering an Optimised in vitro Model of the Outer Blood-Retinal Barrier Under Diabetic-like Conditions for the Screening of Novel Pharmacological Formulations for Diabetic Retinopathy, (2023) PhD thesis, University of Liverpool.
Graphical abstract from: Bioengineering an Optimised in vitro Model of the Outer Blood-Retinal Barrier Under Diabetic-like Conditions for the Screening of Novel Pharmacological Formulations for Diabetic Retinopathy (2023), PhD thesis, University of Liverpool.
Nephron structure. From: Investigating the fate and immunology of intravenously injected mesenchymal stromal cells in mice (2022), PhD thesis, University of Liverpool
Healthy vs distrophic cornea (human)
Corneal cell transplant (horizontal flow)
Corneal cell transplant (U flow)
Ex vivo porcine corneal model
Corneal disease treatments
Rabbit in vivo corneal model
