Acute ischemic stroke treatment

Acute ischemic stroke treatment

In the complete absence of blood flowneuronal death occurs within 2–3 minutes from the exhaustion of energy stores. However, in most strokes, there is a salvageable penumbra (tissue at risk) that retains viability for a period of time through suboptimal perfusion from collaterals. Local cerebral edema from the stroke results in a compromise of these collaterals and progression of the ischemic penumbra to infarction if the flow is not restored and maintained. Prevention of this secondary neuronal injury drives the treatment of stroke and has led to the creation of designated Primary Stroke Centers that offer appropriate and timely triage and treatment of all potential stroke patients.

Time delays from initial CTA acquisition to neuroendovascular surgery (NES) team notification can prevent expedient treatment with endovascular thrombectomy (ET). Process improvements and automated stroke detection on imaging with automated notification of the NES team may ultimately improve the time to reperfusion 1).

American Heart Association Guidelines for the Early Management of Patients With Acute Ischemic Stroke

see Endovascular intervention for ischemic stroke treatment..

see Hypothermia for acute ischemic stroke treatment.


Brain ischemia and treatment are one of the important topics in neurological science. Free oxygen radicals and inflammation formed after ischemia are accepted as the most important causes of damage. Currently, there are studies on many chemopreventive agents to prevent cerebral ischemia damage. The aim of Aras et al is to research the preventive effect of the active ingredient in genistein There is currently no promising pharmacotherapy aside from intravenous or intra-arterial thrombolysis. Yet because of the narrow therapeutic time window involved, thrombolytic application is very restricted in clinical settings. Accumulating data suggest that non-pharmaceutical therapies for stroke might provide new opportunities for stroke treatment 2).

Progression of focal stroke symptoms still constitutes a serious clinical problem for which heparin has insufficient effectiveness in clinical practice. New therapies, ideally preventive, are needed 3).

Omega 3 fatty acid enhance cerebral angiogenesis and provide long-term protection after stroke 4).

After cerebral ischemia, revascularization in the ischemic boundary zone provides nutritive blood flow as well as various growth factors to promote the survival and activity of neurons and neural progenitor cells. Enhancement of angiogenesis and the resulting improvement of cerebral microcirculation are key restorative mechanisms and represent an important therapeutic strategy for ischemic stroke.

Improvements in acute ischemic stroke (AIS) outcomes have been achieved with intravenous thrombolytics (IVT) and intra-arterial thrombolytics vs supportive medical therapy. Given its ease of administration, noninvasiveness, and most validated efficacy, IVT is the standard of care in AIS patients without contraindications to systemic fibrinolysis. However, patients with large-vessel occlusions respond poorly to IVT. Recent trials designed to select this population for randomization to IVT vs IVT with adjunctive endovascular therapy have not shown improvement in clinical outcomes with endovascular therapy. This could be due to the lack of utilization of modern thrombectomy devices such as Penumbra aspiration devices, Solitaire stent-trievers, or Trevo stent-trievers, which have shown the best recanalization results. Continued improvement in the techniques with using these devices as well as randomized controlled trials using them is warranted 5).

With the emergence of new technologies in imaging, thrombolysis and endovascular intervention, the treatment modalities of acute ischemic stroke will enter a new era 6).

Within 3 h from symptom onset, the existence of FLAIR-positive lesions on pretreatment MRI is significantly associated with an increased bleeding risk due to systemic thrombolysis. Therefore, considering FLAIR-positive lesions on baseline MRI might guide treatment decisions in ischemic stroke 7).

see Acute ischemic stroke thrombolysis

see Blood Pressure Management


1)

Yaeger KA, Rossitto CP, Marayati NF, Lara-Reyna J, Ladner T, Hardigan T, Shoirah H, Mocco J, Fifi JT. Time from image acquisition to endovascular team notification: a new target for enhancing acute stroke workflow. J Neurointerv Surg. 2021 Apr 8:neurintsurg-2021-017297. doi: 10.1136/neurintsurg-2021-017297. Epub ahead of print. PMID: 33832969.
2)

Chen F, Qi Z, Luo Y, Hinchliffe T, Ding G, Xia Y, Ji X. Non-pharmaceutical therapies for stroke: Mechanisms and clinical implications. Prog Neurobiol. 2014 Jan 6. pii: S0301-0082(13)00147-0. doi: 10.1016/j.pneurobio.2013.12.007. [Epub ahead of print] PubMed PMID: 24407111.
3)

Rödén-Jüllig A, Britton M. Effectiveness of heparin treatment for progressing ischaemic stroke: before and after study. J Intern Med. 2000 Oct;248(4):287-91. PubMed PMID: 11086638.
4)

Wang J, Shi Y, Zhang L, Zhang F, Hu X, Zhang W, Leak RK, Gao Y, Chen L, Chen J. Omega-3 polyunsaturated fatty acids enhance cerebral angiogenesis and provide long-term protection after stroke. Neurobiol Dis. 2014 Apr 29. pii: S0969-9961(14)00103-X. doi: 10.1016/j.nbd.2014.04.014. [Epub ahead of print] PubMed PMID: 24794156.
5)

Serrone JC, Jimenez L, Ringer AJ. The role of endovascular therapy in the treatment of acute ischemic stroke. Neurosurgery. 2014 Feb;74 Suppl 1:S133-41. doi: 10.1227/NEU.0000000000000224. PubMed PMID: 24402482.
6)

Lu AY, Ansari SA, Nyström KV, Damisah EC, Amin HP, Matouk CC, Pashankar RD,Bulsara KR. Intra-arterial treatment of acute ischemic stroke: the continued evolution. Curr Treat Options Cardiovasc Med. 2014 Feb;16(2):281. doi:10.1007/s11936-013-0281-2. PubMed PMID: 24398801.
7)

Hobohm C, Fritzsch D, Budig S, Classen J, Hoffmann KT, Michalski D. Predicting intracerebral hemorrhage by baseline magnetic resonance imaging in stroke patients undergoing systemic thrombolysis. Acta Neurol Scand. 2014 Jul 18. doi: 10.1111/ane.12272. [Epub ahead of print] PubMed PMID: 25040041.
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