Nicola Hunt scite author profile

To cite this version:Nicola C. Hunt, Liam M. Grover. Cell encapsulation using biopolymer gels for regenerative medicine. Biotechnology Letters, Springer Verlag, 2010, 32 (6), pp.733-742. <10.1007/s10529-010-0221-0>. Abstract There has been a consistent increase in the mean life expectancy of the population of the developed world over the past century. Healthy life expectancy, however, has not increased concurrently. As a result we are living a larger proportion of our lives in poor health and there is a growing demand for the replacement of diseased and damaged tissues. While traditionally tissue grafts have functioned well for this purpose, the demand for tissue grafts now exceeds the supply. For this reason, research in regenerative medicine is rapidly expanding to cope with this new demand. There is now a trend towards supplying cells with a material in order to expedite the tissue healing process. Hydrogel encapsulation provides cells with a three dimensional environment similar to that experienced in vivo and therefore may allow the maintenance of normal cellular function in order to produce tissues similar to those found in the body. In this review we discuss biopolymeric gels that have been used for the encapsulation of mammalian cells for tissue engineering applications as well as a brief overview of cell encapsulation for therapeutic protein production. This review focuses on agarose, alginate, collagen, fibrin, hyaluronic acid and gelatin since they are widely used for cell encapsulation. The literature on the regeneration of cartilage, bone, ligament, tendon, skin, blood vessels and neural tissues using these materials has been summarised.

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Encapsulation of fibroblasts causes accelerated alginate hydrogel degradation

Hunt

et al. 2010

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3D culture of human pluripotent stem cells in RGD-alginate hydrogel improves retinal tissue development

et al. 2017

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The burden of retinal disease is ever growing with the increasing age of the world-wide population. Transplantation of retinal tissue derived from human pluripotent stem cells (PSCs) is considered a promising treatment. However, derivation of retinal tissue from PSCs using defined media is a lengthy process and often variable between different cell lines. This study indicated that alginate hydrogels enhanced retinal tissue development from PSCs, whereas hyaluronic acid-based hydrogels did not. This is the first study to show that 3D culture with a biomaterial scaffold can improve retinal tissue derivation from PSCs. These findings indicate potential for the clinical application of alginate hydrogels for the derivation and subsequent transplantation retinal tissue. This work may also have implications for the derivation of other pigmented, neural or epithelial tissue.

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Impact of Cataract Surgery on Quality of Life in Patients with Early Age-Related Macular Degeneration

Lamoureux

Hooper

Lim

et al. 2007

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Decellularised extracellular matrix-derived peptides from neural retina and retinal pigment epithelium enhance the expression of synaptic markers and light responsiveness of human pluripotent stem cell derived retinal organoids

et al. 2019

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Clinical biomechanics of instability related to total knee arthroplasty

Athwal

Hunt

Davies

et al. 2014

Clinical Biomechanics

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Background: Tibiofemoral instability is a common reason for total knee arthroplasty failure, and may be attributed to soft tissue deficiency and incorrect ligament balancing. There are many different designs of implant with varying levels of constraint to overcome this instability; however there is little advice for surgeons to assess which is suitable for a specific patient, and soft tissue balance testing during arthroplasty is very subjective. Method: The current theories on primary and secondary soft tissue restraints to anterior/ posterior, varus/ valgus, and internal/ external rotational motion of the knee are discussed. The paper reviews biomechanics literature to evaluate instability in the intact and implanted knee. Findings: The paper highlights important intra-and extra-capsular structures in the knee and describes the techniques used by clinicians to assess instability perioperatively. In vitro cadaveric studies were found to be a very useful tool in comparing different implants and contributions of different soft tissues. Interpretation: In vitro cadaveric studies can be utilised in helping less experienced surgeons with soft tissue releases and determining the correct implant. For this to happen, more biomechanical studies must be done to show the impact of release sequences on implanted cadavers, as well as determining if increasingly constrained implants restore the stability of the knee to pre-deficient conditions.

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How does laxity after single radius total knee arthroplasty compare with the native knee?

et al. 2014

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Patients with total knee arthroplasties (TKAs) continue to report dissatisfaction in functional outcome. Stability is a major factor contributing to functionality of TKAs. Implants with single-radius (SR) femoral components are proposed to increase stability throughout the arc of flexion. Using computer navigation and loaded cadaveric legs, we characterized the "envelope of laxity" (EoL) offered by a SR cruciate retaining (CR)-TKA compared with that of the native knee through the arc of flexion in terms of anterior drawer, varus/valgus stress, and internal/external rotation. In both the native knee and the TKA laxity increased with increasing knee flexion. Laxities measured in the three planes of motion were generally comparable between the native knee and TKA from 0˚to 110o f flexion. Our results indicate that the SR CR-TKA offers appropriate stability in the absence of soft tissue deficiency. ß

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An alginate hydrogel matrix for the localised delivery of a fibroblast/keratinocyte co‐culture

Hunt

Shelton

Grover

2009

Biotechnology Journal

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International audienceThere is significant interest in the development of tissue engineered skin analogues which replace both the dermal and the epidermal layer, without the use of animal or human derived products such as collagen or de-epidermalised dermis (DED). In this study, we proposed that alginate hydrogel could be used to encapsulate fibroblasts and that keratinocytes could be cultured on the surface to form a bilayered structure which could be used to deliver the co-culture to a wound bed, initially providing wound closure and eventually expediting the healing process. Encapsulation of fibroblasts in 5% alginate hydrogel effectively inhibited their proliferation, whilst maintaining cell viability allowing keratinocytes to grow uninhibited by fibroblast overgrowth to produce a stratified epidermal layer. It was shown that the alginate degradation process was not influenced by the presence of fibroblasts within the hydrogel and that lowering the alginate concentration to 2% w/v increased the rate of degradation. Cells released from the scaffold were able to secrete extra-cellular matrix (ECM) and thus should replace the degrading scaffold with normal ECM following application to the wound site. These findings demonstrate that alginate hydrogel may be an effective delivery vehicle and scaffold for the healing of full-thickness skin wounds

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Nicola Hunt

Cell encapsulation using biopolymer gels for regenerative medicine

Encapsulation of fibroblasts causes accelerated alginate hydrogel degradation

3D culture of human pluripotent stem cells in RGD-alginate hydrogel improves retinal tissue development

Impact of Cataract Surgery on Quality of Life in Patients with Early Age-Related Macular Degeneration

Decellularised extracellular matrix-derived peptides from neural retina and retinal pigment epithelium enhance the expression of synaptic markers and light responsiveness of human pluripotent stem cell derived retinal organoids

Clinical biomechanics of instability related to total knee arthroplasty

How does laxity after single radius total knee arthroplasty compare with the native knee?

An alginate hydrogel matrix for the localised delivery of a fibroblast/keratinocyte co‐culture

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