To the Editor: Recently evidence has emerged that supports a role for islet inflammation in the development of type 2 diabetes in man, suggesting that there may be certain common features underlying the pathology of beta cell loss in both type 1 and type 2 diabetes. In particular, data have recently been presented revealing an increased number of macrophages infiltrating the islets of nine type 2 diabetic patients, as well as in several animal models of type 2 diabetes (including high-fat-fed C57BL6/6J mice, GK rats and the db/db mouse) when compared with relevant controls [1]. Those authors argued that this evidence implies that macrophage infiltration could be involved in mediating beta cell dysfunction and loss in type 2 diabetes. In view of these conclusions, we considered it important to verify whether increased macrophage infiltration is also observed in a different and larger cohort of human patients with type 2 diabetes and to assess the magnitude of this response.

Serial sections of paraffin-embedded pancreas recovered at autopsy from 15 type 2 diabetic patients (mean age [±SEM] 69.2±1.8 years) and 16 non-diabetic controls (age 52.9±3.9 years) were processed and stained with antiinsulin and anti-CD68 antibodies (DAKO, Ely, UK) using a standard immunoperoxidase technique. The use of all tissue was undertaken with full ethical permission. A quantitative analysis of up to 50 randomly selected islets per individual was carried out and the number of CD68+ cells (taken to indicate the presence of macrophages) either within the islets or in the peri-islet area was counted. Statistical comparisons were performed by χ2 analysis. Within the control group, we did not observe any tendency for the number of macrophages present within islets to change with age. Therefore we consider that, although the mean age of the type 2 diabetic patients was slightly lower than the controls, this difference per se is unlikely to account for variations in macrophage infiltration. In order to confirm that the number of CD68+ cells counted per islet was not distorted by a change in islet size or area in the patients vs controls, random images were examined from slides stained for insulin from six cases of type 2 diabetes (mean age 62.7±2.3 years) and four controls (mean age 64.0±2.6 years). This revealed that the percentage of pancreatic tissue occupied by endocrine cells was similar in the two groups (1.99±0.23% in type 2 diabetes; 2.17±0.32% in controls). In addition, the mean endocrine cell area within the islets was also unchanged in the sections studied, implying that the overall size of the islets was not decreased in the cohort of patients with type 2 diabetes compared with the controls. A total of 545 and 564 islets were analysed