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01-11-2015 | Original Communication

Influence of glycaemic control on the outcomes of patients treated by intravenous thrombolysis for cerebral ischaemia

Authors: Rachel Litke, Solène Moulin, Charlotte Cordonnier, Pierre Fontaine, Didier Leys

Published in: Journal of Neurology | Issue 11/2015

Abstract

Whether the glycaemic control during the first hours of cerebral ischaemia treated by thrombolysis influences outcomes remains unsettled. We aimed at evaluating the quality of the glycaemic control and whether patients with well-controlled glycaemia after thrombolysis for acute cerebral ischaemia have better outcomes. We retrospectively analysed data prospectively collected in consecutive stroke patients who received i.v. thrombolysis at the Lille University Hospital. Patients with glycaemia >1.6 g/l (8.9 mmol/l) at any point during the first 48 h received insulin. We used 2 definitions of well controlled glycaemia: (i) “well controlled 100 %” when 100 % glycaemia were <1.6 g/l (8.9 mmol/l), and (ii) “well controlled 70 %” when at least 70 % glycaemia were <1.6 g/l (8.9 mmol/l). The outcome measures at 3 months were (1) independence [modified Rankin scale (mRS) score 0 or 1], (2) absence of handicap (mRS 0–2), (3) death, and (4) symptomatic intracerebral haemorrhage (sICH). Of 875 consecutive patients, 657 (75.2 %) were considered as well controlled with a threshold at 100 % and 736 (84.2 %) with a threshold at 70 %. The glycaemic control was not independently associated with any of the four outcome measures. In patients treated by insulin, hypoglycaemic events were rare (2.1 % of all patients) and of moderate intensity [>0.5 g/l (2.8 mmol/l)]. The quality of the glycaemic control was not associated with outcomes in patients treated by thrombolysis. A possible explanation is that the glycaemic control after thrombolysis has minor influence compared with glycaemic control before thrombolysis when the artery is not yet re-open and the penumbra area at maximum.

Van Swieten JC, Koudstaal PJ, Visser MC et al (1988) Interobserver agreement for the assessment of handicap in stroke patients. Stroke 19:604–607CrossRefPubMed

The National Institute of Neurological Disorders and Stroke rt-PA Stroke Study Group (1995) Tissue plasminogen activator for acute ischemic stroke. New Engl J Med 333:1581–1587CrossRef

Hacke W, Kaste M, Bluhmki E et al (2008) Thrombolysis with alteplase 3 to 4.5 hours after acute ischemic stroke. N Engl J Med 359:1317–1329CrossRefPubMed

Sandercock P, Wardlaw JM, Lindley RI et al (2012) The benefits and harms of intravenous thrombolysis with recombinant tissue plasminogen activator within 6 h of acute ischaemic stroke (the third international stroke trial [IST-3]): a randomised controlled trial. Lancet 379:2352–2363CrossRefPubMed

Wardlaw JM, Murray V, Berge E et al (2012) Recombinant tissue plasminogen activator for acute ischaemic stroke: an updated systematic review and meta-analysis. Lancet 379:2364–2372PubMedCentralCrossRefPubMed

Coutinho M, Gerstein HC, Wang Y, Yusuf S (1999) The relationship between glucose and incident cardiovascular events. A metaregression analysis of published data from 20 studies of 95,783 individuals followed for 12.4 years. Diabetes Care 22:233–240CrossRefPubMed

Mizock BA (1995) Alterations in carbohydrate metabolism during stress: a review of the literature. Am J Med 98:75–84CrossRefPubMed

Van den Berghe G, Wouters P, Weekers F et al (2001) Intensive insulin therapy in critically ill patients. New Engl J Med 345:1359–1367CrossRefPubMed

Malmberg K, Norhammar A, Wedel H, Rydén L (1999) Glycometabolic state at admission: important risk marker of mortality in conventionally treated patients with diabetes mellitus and acute myocardial infarction: long-term results from the diabetes and insulin-glucose infusion in acute myocardial infarction. Circulation 99:2626–2632CrossRefPubMed

10.

Williams LS, Rotich J, Qi R et al (2002) Effects of admission hyperglycemia on mortality and costs in acute ischemic stroke. Neurology 59:67–71CrossRefPubMed

11.

Baird TA, Parsons MW, Barber PA et al (2002) The influence of diabetes mellitus and hyperglycaemia on stroke incidence and outcome. J Clin Neurosci 9:618–626CrossRefPubMed

12.

Capes SE, Hunt D, Malmberg K et al (2001) Stress hyperglycemia and prognosis of stroke in nondiabetic and diabetic patients: a systematic overview. Stroke 32:2426–2432CrossRefPubMed

13.

Melamed E (1976) Reactive hyperglycaemia in patients with acute stroke. J Neurol Sci 29:267–275CrossRefPubMed

14.

Desilles JP, Meseguer E, Labreuche J et al (2013) Diabetes mellitus, admission glucose, and outcomes after stroke thrombolysis: a registry and systematic review. Stroke 44:1915–1923CrossRefPubMed

15.

Gnofam M, Leys D, Ponchelle-Dequatre N et al (2013) Baseline serum glucose concentration and symptomatic haemorrhagic transformation in non-diabetic stroke patients treated by intravenous thrombolysis. J Neurol 260:2786–2792CrossRefPubMed

16.

Demchuk AM, Morgenstern LB, Krieger DW et al (1999) Serum glucose level and diabetes predict tissue plasminogen activator-related intracerebral hemorrhage in acute ischemic stroke. Stroke; a journal of cerebral circulation 30:34–39CrossRefPubMed

17.

Parsons MW, Barber PA, Desmond PM et al (2002) Acute hyperglycemia adversely affects stroke outcome: a magnetic resonance imaging and spectroscopy study. Ann Neurol 52:20–28CrossRefPubMed

18.

The European Stroke Organisation (ESO) Executive Committee (2008) Guidelines for management of ischaemic stroke and transient ischaemic attack 2008. Cerebrovasc Dis 25:457–507 (see update at http://www.eso-stroke.org)

19.

Gray CS, Hildreth AJ, Sandercock PA et al (2007) Glucose-potassium-insulin infusions in the management of post-stroke hyperglycaemia: the UK Glucose Insulin in Stroke Trial (GIST-UK). Lancet Neurol 6:397–406CrossRefPubMed

20.

Bruno A, Kent TA, Coull BM et al (2008) Treatment of hyperglycemia in ischemic stroke (THIS): a randomized pilot trial. Stroke J Cereb Circ 39:384–389CrossRef

21.

Rosso C, Corvol J-C, Pires C et al (2012) Intensive versus subcutaneous insulin in patients with hyperacute stroke: results from the randomized INSULINFARCT trial. Stroke J Cereb Circ 43:2343–2349CrossRef

22.

Jauch EC, Saver JL, Adams HP et al (2013) Guidelines for the early management of patients with acute ischemic stroke: a guideline for healthcare professionals from the American Heart Association/American Stroke Association. Stroke J Cereb Circ 44:870–947CrossRef

23.

Cordonnier C, Girot M, Dorp E et al (2000) Stroke units from scientific evidence to practice: the experience of the Lille stroke unit. Cerebrovasc Dis 10(Suppl 4):17–20CrossRefPubMed

24.

Bodenant M, Leys D, Debette S et al (2010) Intravenous thrombolysis for acute cerebral ischaemia: comparison of outcomes between patients treated at working versus nonworking hours. Cerebrovasc Dis 30:148–156CrossRefPubMed

25.

Hacke W, Kaste M, Fieschi C et al (1998) Randomised double-blind placebo-controlled trial of thrombolytic therapy with intravenous alteplase in acute ischaemic stroke (ECASS II). Second European-Australasian Acute Stroke Study Investigators. Lancet 352:1245–1251CrossRefPubMed

26.

Lyden P, Brott T, Tilley B et al (1994) Improved reliability of the NIH Stroke Scale using video training. NINDS TPA Stroke Study Group. Stroke 25:2220–2226CrossRefPubMed

27.

Adams HP Jr, Bendixen BH, Kappelle LJ et al (1993) Classification of subtype of acute ischemic stroke. Definitions for use in a multicenter clinical trial. TOAST. Trial of Org 10172 in Acute Stroke Treatment. Stroke 24:35–41CrossRefPubMed

28.

Bendel RB, Afifi AA (1977) Comparison of stopping rules in forward regression. J Am Stat Ass 72:46–53

29.

Glantz SA, Slinker BK (1990) Primer of applied regression and analysis of variance. McGraw Hill, New York

30.

Wahlgren N, Ahmed N, Davalos A et al (2007) Thrombolysis with alteplase for acute ischaemic stroke in the Safe Implementation of Thrombolysis in Stroke-Monitoring Study (SITS-MOST): an observational study. Lancet 369:275–282CrossRefPubMed

31.

Wahlgren N, Ahmed N, Davalos A et al (2008) Thrombolysis with alteplase 3-4.5 h after acute ischaemic stroke (SITS-ISTR): an observational study. Lancet 372:1303–1309CrossRefPubMed

32.

Allport L, Baird T, Butcher K et al (2006) Frequency and temporal profile of poststroke hyperglycemia using continuous glucose monitoring. Diabetes Care 29:1839–1844CrossRefPubMed

33.

Middleton S, McElduff P, Ward J et al (2011) Implementation of evidence-based treatment protocols to manage fever, hyperglycaemia, and swallowing dysfunction in acute stroke (QASC): a cluster randomised controlled trial. Lancet 378:1699–1706CrossRefPubMed

34.

Ahmed N, Davalos A, Eriksson N et al (2010) Association of admission blood glucose and outcome in patients treated with intravenous thrombolysis: results from the Safe Implementation of Treatments in Stroke International Stroke Thrombolysis Register (SITS-ISTR). Arch Neurol 67:1123–1130CrossRefPubMed

35.

Gerstein HC, Miller ME, Genuth S et al (2011) Long-term effects of intensive glucose lowering on cardiovascular outcomes. New Engl J Med 364:818–828CrossRefPubMed

36.

Malmberg K, Rydén L, Wedel H et al (2005) Intense metabolic control by means of insulin in patients with diabetes mellitus and acute myocardial infarction (DIGAMI 2): effects on mortality and morbidity. Eur Heart J 26:650–661CrossRefPubMed

Title: Influence of glycaemic control on the outcomes of patients treated by intravenous thrombolysis for cerebral ischaemia
Authors: Rachel Litke
Solène Moulin
Charlotte Cordonnier
Pierre Fontaine
Didier Leys
Publication date: 01-11-2015
Publisher: Springer Berlin Heidelberg
Published in: Journal of Neurology / Issue 11/2015
Print ISSN: 0340-5354
Electronic ISSN: 1432-1459
DOI: https://doi.org/10.1007/s00415-015-7874-5

At a glance: The STEP trials

Springer Medicine

Influence of glycaemic control on the outcomes of patients treated by intravenous thrombolysis for cerebral ischaemia

Abstract

At a glance: The STEP trials

Springer Medicine

Abstract

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