FREE NEJM E-TOC    HOME   |   SUBSCRIBE   |   CURRENT ISSUE   |   PAST ISSUES   |   COLLECTIONS   |   Search Term  Advanced Search

Sign in | Get NEJM's E-Mail Table of Contents — Free | Subscribe

Previous Volume 321:80-85 July 13, 1989 Number 2 Next

	Add to Personal Archive Add to Citation Manager Notify a Friend E-mail When Cited PubMed Citation

Abstract

The microvascular complications of diabetes mellitus may be caused, in part, by poor glycemic control. Diabetic patients who have received renal allografts may have new glomerular lesions that are manifested structurally by increases in mesangial and glomerular volume. Successful pancreas transplantation produces long-term normoglycemia and provides a unique opportunity to evaluate the impact of the normalization of the blood glucose level on the development of the renal lesions typical of diabetes mellitus in transplanted kidneys. We obtained biopsy specimens from the functioning renal allografts of 12 patients with insulin-dependent (Type I) diabetes before successful pancreas transplantation (performed one to seven years after renal transplantation) and repeated the biopsy at least 1.9 years later. In renal biopsy specimens obtained before pancreas transplantation, the mesangial volume was normal or modestly increased and the glomerular basement membrane was moderately thickened. At follow-up, no progression could be detected in any structural measure in the glomerulus. Furthermore, the recipients of pancreas transplants had smaller glomerular volumes than 13 matched diabetic patients who were recipients of renal allografts but who did not undergo pancreas transplantation (mean +/- SD, 1.80 +/- 0.55 vs. 2.47 +/- 0.73 x 10(6) microns 3; P = 0.02) and showed markedly less mesangial expansion (mesangial-volume fraction, 0.19 +/- 0.07 vs. 0.31 +/- 0.10 microns 3 per cubic micrometer; P = 0.004). We conclude that successful pancreas transplantation is associated with significantly less severe diabetic glomerulopathy in kidneys previously transplanted into diabetic patients. These data support the hypothesis that normoglycemia can prevent the progression of diabetic glomerulopathy in humans.

Source Information

Department of Laboratory Medicine, University of Minnesota Medical School, Minneapolis.

This article has been cited by other articles:

• Mima, A., Arai, H., Matsubara, T., Abe, H., Nagai, K., Tamura, Y., Torikoshi, K., Araki, M., Kanamori, H., Takahashi, T., Tominaga, T., Matsuura, M., Iehara, N., Fukatsu, A., Kita, T., Doi, T. (2008). Urinary Smad1 Is a Novel Marker to Predict Later Onset of Mesangial Matrix Expansion in Diabetic Nephropathy. Diabetes 57: 1712-1722 [Abstract] [Full Text]  
• Fiorina, P., Perseghin, G., De Cobelli, F., Gremizzi, C., Petrelli, A., Monti, L., Maffi, P., Luzi, L., Secchi, A., Del Maschio, A. (2007). Altered Kidney Graft High-Energy Phosphate Metabolism in Kidney-Transplanted End-Stage Renal Disease Type 1 Diabetic Patients: A cross-sectional analysis of the effect of kidney alone and kidney-pancreas transplantation. Diabetes Care 30: 597-603 [Abstract] [Full Text]  
• Green, S J, Sidhu, P S, Deane, C R (2002). Imaging of simultaneous kidney pancreatic transplants. Imaging 14: 299-307 [Abstract] [Full Text]  
• GRUESSNER, A. C., SUTHERLAND, D. E. R., DUNN, D. L., NAJARIAN, J. S., HUMAR, A., KANDASWAMY, R., GRUESSNER, R. W. G. (2001). Pancreas after Kidney Transplants in Posturemic Patients with Type I Diabetes Mellitus. J. Am. Soc. Nephrol. 12: 2490-2499 [Abstract] [Full Text]  
• BECKER, B. N., ODORICO, J. S., BECKER, Y. T., GROSHEK, M., WERWINSKI, C., PIRSCH, J. D., SOLLINGER, H. W. (2001). Simultaneous Pancreas-Kidney and Pancreas Transplantation. J. Am. Soc. Nephrol. 12: 2517-2527 [Full Text]  
• Krishnamurti, U., Steffes, M. W. (2001). Glycohemoglobin: A Primary Predictor of the Development or Reversal of Complications of Diabetes Mellitus. Clin. Chem. 47: 1157-1165 [Abstract] [Full Text]  
• Macleod, J. M., White, K. E., Tate, H., Bilous, R. W. (2000). Measurement of glomerular volume in needle biopsy specimens. Nephrol Dial Transplant 15: 239-243 [Abstract] [Full Text]  
• Orloff, L. A., Orloff, M. S., Orloff, S. L., Orloff, M. J. (1999). Lifelong Prevention of Mesangial Enlargement by Whole Pancreas Transplantation in Rats With Diabetes Mellitus. Arch Surg 134: 889-897 [Abstract] [Full Text]  
• Steffes, M. (1999). Glomerular lesions of diabetes mellitus: preventable and reversible. Nephrol Dial Transplant 14: 19-21  
• Fioretto, P., Steffes, M. W., Sutherland, D. E.R., Goetz, F. C., Mauer, M. (1998). Reversal of Lesions of Diabetic Nephropathy after Pancreas Transplantation. NEJM 339: 69-75 [Abstract] [Full Text]  
• Groggel, G. C. (1996). Diabetic Nephropathy. Arch Fam Med 5: 513-520 [Abstract]  
• Carella, M. J., Gossain, V. V., Rovner, D. R. (1994). Early Diabetic Nephropathy: Emerging Treatment Options. Arch Intern Med 154: 625-630 [Abstract]  
• Brouhard, B. H., Rogers, D. G. (1993). Pancreatic and Islet Replacement Therapy For Insulin-Dependent Diabetes Mellitus. CLIN PEDIATR 32: 258-263 [Abstract]  
• Kirkpatrick, C. H., Rowlands, D. T. Jr (1992). Transplantation Immunology. JAMA 268: 2952-2958 [Abstract]  
• Shaffer, D., Madras, P. N., Sahyoun, A. I., Williams, M. E., Kaldany, A., D'Elia, J. A., Monaco, A. P. (1992). Combined Kidney and Pancreas Transplantation: A 3-Year Experience. Arch Surg 127: 574-578 [Abstract]  
• Nettles, A. T. (1992). Pancreas Transplantation: A University of Minnesota Perspective. The Diabetes Educator 18: 232-238  
• Morel, P., Goetz, F. C., Moudry-Munns, K., Freier, E., Sutherland, D. E. R. (1991). Long-term Glucose Control in Patients with Pancreatic Transplants. ANN INTERN MED 115: 694-699 [Abstract]  
• (1991). Questions and Answers. JAMA 265: 510-514  
• Molitch, M. E. (1990). Endocrinology. JAMA 263: 2639-2640 [Abstract]  
• Selby, J. V., Fitz-Simmons, S. C., Newman, J. M., Katz, P. P., Sepe, S., Showstack, J. (1990). The Natural History and Epidemiology of Diabetic Nephropathy: Implications for Prevention and Control. JAMA 263: 1954-1960 [Abstract]