REGIONAL CEREBRAL HYPOPERFUSION IN LONG-TERM TYPE-1 (INSULIN-DEPENDENT) DIABETIC-PATIENTS - RELATION TO HYPOGLYCEMIC EVENTS

被引：27

作者：

KEYMEULEN, B ^{[1
]}

JACOBS, A ^{[1
]}

DEMETZ, K ^{[1
]}

DESADELEER, C ^{[1
]}

BOSSUYT, A ^{[1
]}

SOMERS, G ^{[1
]}

机构：

[1] FREE UNIV BRUSSELS,DEPT INTERNAL MED,B-1090 BRUSSELS,BELGIUM

来源：

NUCLEAR MEDICINE COMMUNICATIONS | 1995年 / 16卷 / 01期

关键词：

D O I：

10.1097/00006231-199501000-00005

中图分类号：

R8 [特种医学]; R445 [影像诊断学];

学科分类号：

1002 ; 100207 ; 1009 ;

摘要：

Regional distribution of cerebral blood flow was determined semi-quantitatively with Tc-99(m)-HMPAO brain SPET under basal conditions in Type 1 (insulin-dependent) diabetic patients of recent onset and longer disease duration, and related to metabolic control and history of hypoglycaemic events. Longterm diabetic patients showed significantly more alterations in regional cerebral blood flow than diabetics of recent onset and healthy controls. Regional hypoperfusion, predominantly localized in the fronto-temporal cortex, was almost exclusively observed in patients with long-term diabetes. The latter finding was related to lower HbA1c levels (i.e. better metabolic control) and to the frequency of impending hypoglycaemia, but not to age of the patient, duration of diabetes or to chronic diabetes complications. The incidence of hypoperfusion was comparable in patient groups with or without a medical history of hypoglycaemic coma. However, regions of hypoperfusion were larger in the patients who had experienced hypoglycaemic coma. It is concluded that regional cerebral hypoperfusion in longterm Type 1 (insulin-dependent) diabetics, as evidenced by HMPAO-SPET, can be related to the frequency and degree of hypoglycaemic events and to tight metabolic control, which is however at the expense of an increased risk of recurrent hypoglycaemia.

引用

页码：10 / 16

页数：7

共 29 条

[1]

Reichard P., Nilsson B.Y., Rosenqvist U., The effect of long-term intensified insulin treatment on the development of microvascular complications of diabetes mellitus, N Engl J Med, 329, pp. 304-309, (1993)

[2]

Neil H.A., Gale E.A., Hamilton S.J., Et al., Cerebral blood flow increases during insulin-induced hypoglycaemia in Type 1 (Insulin-dependent) diabetic patients and control subjects, Diabetologia, 30, pp. 305-309, (1987)

[3]

Kerr D., Stanley J.C., Barron M., Et al., Symmetry of cerebral blood flow and cognitive responses to hypoglycaemia in humans, Diabetologia, 36, pp. 73-78, (1993)

[4]

Tallroth G., Ryding E., Agardh C.D., The influence of hypoglycaemia on regional cerebral blood flow and cerebral volume in Type 1 (Insulin-dependent) diabetes mellitus, Diabetologia, 36, pp. 530-535, (1993)

[5]

Tallroth G., Ryding E., Agardh C.D., Regional cerebral blood flow in normal man during insulm-induced hypoglycaemia and in the recovery period following glucose infusion, Metabolism, 41, pp. 717-721, (1993)

[6]

Frier B.M., Hilsted J., Does hypoglycaemia aggravate the complications of diabetes?, Lancet, 2, pp. 1175-1177, (1985)

[7]

Patrick A.W., Campbell IW. Fatal hypoglycaemia in insulin treated diabetes mellitus: Clinical features and neuropatho- logical changes, Diabetic Medicine, 7, pp. 349-354, (1990)

[8]

Holman B.L., Devous M.D., SPECT: The emergence of a powerful clinical method, J Nucl Med, 33, pp. 1888-1904, (1992)

[9]

Kahn R., Autonomic nervous system testing, Diabetes Care, 1095-1103, (1992)

[10]

Stenman U.H., Pesonen K., Ylinen K., Et al., Rapid chromato-graphic quantitation of glycosylated haemoglobins, Chro-Matography, 297, pp. 327-332, (1984)

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