Patient-reported outcome measures for a large cohort of serum eye drops recipients in the UK.

INTRODUCTION: Serum eye drops (SED) are an important treatment for patients with chronic and severe ocular surface disease (OSD). Despite a long history of use, there is a paucity of information on patient-reported outcomes, particularly comparing autologous SED (Auto-SED) and allogeneic SED (Allo-SED). National Health Service Blood and Transplant is the national provider of SED service for patients in the UK. PURPOSE: To evaluate and compare patient-reported outcome measures (PROMs) in patients receiving Auto-SED and Allo-SED for severe OSD. MATERIALS AND METHODS: PROMs were retrospectively collected from all new patients commencing treatment with Auto-SED and Allo-SED between January 2017 and September 2018, using the Ocular Surface Disease Index (OSDI) 12-item questionnaire. A linear mixed model was used to evaluate the change in OSDI scores between baseline and follow-up. RESULTS: During the study period, 279 patients who received either Auto-SED (n = 71) or Allo-SED (n = 208) were included in the analysis. Baseline and follow-up OSDI scores were available for 161 of these (49 Auto-SED and 112 Allo-SED). There was a significant reduction in mean OSDI score for both Auto-SED (59.06-24.63, p < 0.001) and Allo-SED (64.21-34.37, p < 0.001). There was no significant difference between Auto-SED and Allo-SED patients in terms of the reduction in the OSDI score (p = 0.27). CONCLUSION: Both Auto-SED and Allo-SED were associated with improvements in the quality of life of patients with chronic and severe OSD. Auto-SED and Allo-SED were equally effective in relieving the symptoms of OSD.

A standardised protocol for the validation of banking methodologies for arterial allografts.

The objective of this study was to design and test a protocol for the validation of banking methodologies for arterial allografts. A series of in vitro biomechanical and biological assessments were derived, and applied to paired fresh and banked femoral arteries. The ultimate tensile stress and strain, suture pullout stress and strain, expansion/rupture under hydrostatic pressure, histological structure and biocompatibility properties of disinfected and cryopreserved femoral arteries were compared to those of fresh controls. No significant differences were detected in any of the test criteria. This validation protocol provides an effective means of testing and validating banking protocols for arterial allografts.

The implementation of nucleic acid amplification technology testing for living tissue donors.

There is a significant requirement within the United Kingdom for tissue grafts from living donors. To ensure safety, blood samples from these donors are tested for pathogens at donation, and at 180 days post donation. Nucleic acid amplification technology (NAT) permits more sensitive detection of pathogens in blood samples than serum antigen testing. NAT testing can be applied to samples from living tissue donors to eliminate the need to re-test these donors 180 days post-donation before grafts can be implanted. This has major financial and operational advantages for a tissue bank, and this manuscript describes how NAT testing was assessed and implemented by NHSBT Tissue Services. When compared to traditional serum antigen testing, NAT testing was more cost effective, more convenient for donors and resulted in a greater proportion of donated grafts being made available for transplant.

Effects of a peracetic acid disinfection protocol on the biocompatibility and biomechanical properties of human patellar tendon allografts.

Patellar tendon allografts, retrieved from cadaveric human donors, are widely used for replacement of damaged cruciate ligaments. In common with other tissue allografts originating from cadaveric donors, there are concerns regarding the potential for disease transmission from the donor to the recipient. Additionally, retrieval and subsequent processing protocols expose the graft to the risk of environmental contamination. For these reasons, disinfection or sterilisation protocols are necessary for these grafts before they are used clinically. A high-level disinfection protocol, utilising peracetic acid (PAA), has been developed and investigated for its effects on the biocompatibility and biomechanics of the patellar tendon allografts. PAA disinfection did not render the grafts either cytotoxic or liable to provoke an inflammatory response as assessed in vitro . However, the protocol was shown to increase the size of gaps between the tendon fibres in the matrix and render the grafts more susceptible to digestion with collagenase. Biomechanical studies of the tendons showed that PAA treatment had no effect on the ultimate tensile stress or Young's modulus of the tendons, and that ultimate strain was significantly higher in PAA treated tendons.

Application of a high-level peracetic acid disinfection protocol to re-process antibiotic disinfected skin allografts.

Skin allografts, derived from cadaveric donors, are widely used for the treatment of burns and ulcers. Prior to use in clinical situations, these allografts are disinfected using a cocktail of antibiotics and then cryopreserved. Unfortunately, this antibiotic disinfection procedure fails to decontaminate a significant proportion and these contaminated grafts can not be used clinically. We have investigated whether it is possible to apply a second, more potent disinfection procedure to these contaminated grafts and effectively to re-process them for clinical use. Cadaveric skin grafts, treated with antibiotics and cryopreserved, were thawed and a peracetic acid (PAA) disinfection protocol applied. The grafts were then preserved in a high concentration of glycerol or propylene glycol, and properties thought to be essential for successful clinical performance assessed. The cytotoxicity of the grafts was assessed using both extract and contact assays; damage to the skin collagen was assessed using a collagenase susceptibility assay and the capacity of the grafts to elicit an inflammatory response in vitro was assessed by quantifying the production of the pro-inflammatory cytokine TNF-alpha by human peripheral blood mononuclear phagocytes. PAA disinfection, in conjunction with either glycerol or propylene glycol preservation, did not render the grafts cytotoxic, pro-inflammatory, or increase their susceptibility to collagenase digestion. The rates of penetration of glycerol and propylene glycol into the re-processed skin were comparable to those of fresh skin. This study has demonstrated that PAA disinfection combined with immersion in high concentrations of either glycerol or propylene glycol was an effective method for re-processing contaminated skin allografts, and may justify their clinical use.

Assessment of the biological properties of human split skin allografts disinfected with peracetic acid and preserved in glycerol.

Skin allografts derived from cadaveric human donors are widely used in the treatment of serious burn injuries and other conditions, such as ulcers. In order to render these allografts safe for clinical use, and to enable them to be preserved and banked for long periods, effective methods of decontamination and preservation are required. These methods must not adversely affect graft properties essential for clinical performance. We have investigated the application of a peracetic acid (PAA) disinfection protocol, coupled with preservation in either glycerol or propylene glycol to achieve these goals. An effective decontamination procedure, comprising of a 3h exposure to 0.1% (v/v) PAA in phosphate buffered saline (PBS) at pH 7.0, was developed and had no significant detrimental effects on the structure of skin. Cadaveric skin allografts were then treated with this disinfection protocol and subsequently preserved in either 85% (v/v) glycerol or propylene glycol in PBS, and the biological properties of the allografts thought to be essential to successful clinical performance were assessed. The cytotoxicity of the grafts was assessed using both extract and contact assays; damage to the skin collagen was assessed using a collagenase susceptibility assay and the capacity of the grafts to elicit an inflammatory response in vitro was assessed by quantifying the production of the pro-inflammatory cytokine TNF-alpha by human peripheral blood mononuclear phagocytes. Neither the disinfection protocol nor either of the preservation techniques rendered the grafts cytotoxic or pro-inflammatory. The PAA disinfection and glycerol preservation protocol had no effects on collagenase susceptibility, whereas the disinfection protocol in combination with propylene glycol rendered some of the test samples significantly more susceptible to collagenase digestion. Therefore, this study has demonstrated that PAA disinfection combined with glycerol preservation is suitable for skin allografts. The use of propylene glycol as a preservation agent for skin requires further development.

An evaluation of the capacity of differently prepared demineralised bone matrices (DBM) and toxic residuals of ethylene oxide (EtOx) to provoke an inflammatory response in vitro.

Demineralised bone matrix (DBM) is a form of allogeneic tissue graft widely used in oral and maxillofacial procedures. There is a long history of controversy relating to the suitability of ethylene oxide gas (EtOx) as a terminal sterilisation agent for this graft, relating to its effects on the clinical performance of the grafts. Furthermore, the generation of a toxic residual chemical (ethylene chlorohydrin, ECl) during the ethylene oxide sterilisation of patellar tendon allografts has been implicated in the failure of these grafts owing to the induction of a localised inflammatory response. In this study we have investigated the capacity of a range of different DBM preparations, and ECl dilutions, to induce the production of three pro-inflammatory cytokines, interleukin-6 (IL-6), interleukin-1beta (IL-1beta), and tumour necrosis factor alpha (TNF-alpha) from human peripheral blood mononuclear cells (PBMNCs). The levels of EtOx and ECl in EtOx terminally sterilised DBM and mineralised bone grafts were measured by gas chromatography. It was found that the only factor capable of rendering DBM pro-inflammatory was the presence of small (<20 micrometre diameter) DBM particles. No other processing or sterilisation technique resulted in the DBM becoming pro-inflammatory. Although it was also found that DBM, when EtOx-sterilised, retained more ECI than mineralised bone grafts following a standard EtOx sterilisation protocol, ECl did not provoke an inflammatory response in vitro at levels up to and including those which are cytotoxic to PBMNCs.