Microbiological safety of the first clinical pig islet xenotransplantation trial in New Zealand

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Abstract

Xenotransplantation using pig cells, tissues, or organs may be associated with the transmission of porcine microorganisms and the development of zoonoses. Among all porcine microorganisms porcine endogenous retroviruses (PERVs) represent a special risk because they are integrated in the genome of all pigs and able to infect human cells. In previous preclinical and retrospective clinical trials of xenotransplantation, no transmission of PERV was observed. The first clinical trial of (alginate-encapsulated) porcine islet cell transplantation in New Zealand, which was approved by the New Zealand Government as an open-label phase I/IIa safety/efficacy trial, offers the possibility to analyze microbiological safety in a prospective clinical study. Before the trial started, a multilevel testing strategy was used to screen for 26 microorganisms in donor pigs of the Auckland Island strain and the islet cell preparations used for treatment. Donor testing was performed using molecular methods including multiplex real-time PCR. Blood samples from 14 pig islet cell recipients were also investigated by molecular biological methods at weeks 1, 4, 8, 12, 24, and 52 post-transplant for the transmission of porcine microorganisms. Sera were also monitored at these time points for antibodies against PERVs. Beginning in 2009, fourteen patients with severe unaware hypoglycemia were treated with one of four different dosages of alginate-encapsulated porcine islets ranging from 5000-20,000 islet equivalents delivered in a single dose. No transmission of either PERVs or other porcine microorganisms was detected by PCR and immunological methods. These findings support previous results and strongly indicate the safety of xenotransplantation as performed here. © 2014 John Wiley & Sons A/S Published by John Wiley & Sons Ltd.

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Incidence trends for childhood type 1 diabetes in Europe during 1989-2003 and predicted new cases 2005-20: a multicentre prospective registration study.

Christopher C. Patterson, Gisela Dahlquist, Eva Gyürüs … (2009)

The incidence of type 1 diabetes in children younger than 15 years is increasing. Prediction of future incidence of this disease will enable adequate fund allocation for delivery of care to be planned. We aimed to establish 15-year incidence trends for childhood type 1 diabetes in European centres, and thereby predict the future burden of childhood diabetes in Europe. 20 population-based EURODIAB registers in 17 countries registered 29 311 new cases of type 1 diabetes, diagnosed in children before their 15th birthday during a 15-year period, 1989-2003. Age-specific log linear rates of increase were estimated in five geographical regions, and used in conjunction with published incidence rates and population projections to predict numbers of new cases throughout Europe in 2005, 2010, 2015, and 2020. Ascertainment was better than 90% in most registers. All but two registers showed significant yearly increases in incidence, ranging from 0.6% to 9.3%. The overall annual increase was 3.9% (95% CI 3.6-4.2), and the increases in the age groups 0-4 years, 5-9 years, and 10-14 years were 5.4% (4.8-6.1), 4.3% (3.8-4.8), and 2.9% (2.5-3.3), respectively. The number of new cases in Europe in 2005 is estimated as 15 000, divided between the 0-4 year, 5-9 year, and 10-14 year age-groups in the ratio 24%, 35%, and 41%, respectively. In 2020, the predicted number of new cases is 24 400, with a doubling in numbers in children younger than 5 years and a more even distribution across age-groups than at present (29%, 37%, and 34%, respectively). Prevalence under age 15 years is predicted to rise from 94 000 in 2005, to 160 000 in 2020. If present trends continue, doubling of new cases of type 1 diabetes in European children younger than 5 years is predicted between 2005 and 2020, and prevalent cases younger than 15 years will rise by 70%. Adequate health-care resources to meet these children's needs should be made available. European Community Concerted Action Program.

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Validation of laboratory-developed molecular assays for infectious diseases.

Eileen M. Burd (2010)

Molecular technology has changed the way that clinical laboratories diagnose and manage many infectious diseases. Excellent sensitivity, specificity, and speed have made molecular assays an attractive alternative to culture or enzyme immunoassay methods. Many molecular assays are commercially available and FDA approved. Others, especially those that test for less common analytes, are often laboratory developed. Laboratories also often modify FDA-approved assays to include different extraction systems or additional specimen types. The Clinical Laboratory Improvement Amendments (CLIA) federal regulatory standards require clinical laboratories to establish and document their own performance specifications for laboratory-developed tests to ensure accurate and precise results prior to implementation of the test. The performance characteristics that must be established include accuracy, precision, reportable range, reference interval, analytical sensitivity, and analytical specificity. Clinical laboratories are challenged to understand the requirements and determine the types of experiments and analyses necessary to meet the requirements. A variety of protocols and guidelines are available in various texts and documents. Many of the guidelines are general and more appropriate for assays in chemistry sections of the laboratory but are applied in principle to molecular assays. This review presents information that laboratories may consider in their efforts to meet regulatory requirements.