分水岭区梗死及影像学表现.ppt

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1、分水岭区梗死,Watershed Infarcts Watershed infarcts occur at the border zones between major cerebral arterial territories as a result of hypoperfusion.There are two patterns of border zone infarcts:Cortical border zone infarctionsInfarctions of the cortex and adjacent subcortical white matter located at th

2、e border zone of ACA/MCA and MCA/PCA Internal border zone infarctions Infarctions of the deep white matter of the centrum semiovale and corona radiata at the border zone between lenticulostriate perforators and the deep penetrating cortical branches of the MCA or at the border zone of deep white mat

3、ter branches of the MCA and the ACA.,Cortica watershed strokes(CWS),or outer brain infarcts,are located between the cortical territories of the anterior cerebral artery(ACA),middle cerebral artery(MCA),and posterior cerebral artery(PCA).Internal watershed strokes(IWS),or subcortical brain infarcts,a

4、re located in the white matter,along and slightly above the lateral ventricle,between the deep and the superficial arterial systems of the MCA,or between the superficial systems of the MCA and ACA.,Watersheds or border zones are areas that lie at the junction of two different drainage areas.The vasc

5、ular supply of the cerebral parenchyma can be envisioned in a similar manner,with defined boundaries between different arterial systems.Cerebral infarcts in border zones were first discussed in 1883 and were defined as ischemic lesions in an area between two neighboring vascular territories.These te

6、rritories can be further classified in two broad categories as(a)external(cortical)or(b)internal(subcortical)border zones.Border zone infarcts constitute approximately 10%of all cerebral infarcts.Various theories have been proposed to explain their pathogenesis.It is believed that repeated episodes

7、of severe systemic hypotension are the most frequent cause.Susceptibility of border zones to ischemia was proved in an autopsy study of patients with border zone infarcts.Various neuropathologic studies have shown neuronal necrosis from hypotension in these regions and have advanced our understandin

8、g of the preferential distribution of border zone infarcts.,The appearances of border zone infarcts depicted by standard imaging modalities are well described.Advanced imaging techniques can help identify areas of misery perfusion associated with these infarcts.Misery perfusion(低灌注)represents a chro

9、nic failure of cerebral autoregulation associated with decreased cerebral perfusion pressures in the presence of extracranial and intracranial atheromatous disease.The important information derived from imaging can be useful for patient management and disease prognosis,The external or cortical borde

10、r zones are located at the junctions of the anterior,middle,and posterior cerebral artery territories.Infarcts in the anterior external border zones and paramedian white matter are found at the junction of the territories supplied by the anterior and middle cerebral arteries,and those in the parieto

11、-occipital areas(posterior external border zones)are found at the junction of the territories supplied by the middle and posterior cerebral arteries.,The internal or subcortical border zones are located at the junctions of the anterior,middle,and posterior cerebral artery territories with the Heubne

12、r,lenticulostriate,and anterior choroidal artery territories.Internal border zone infarcts thus may be designated as infarcts of the lenticulostriatemiddle cerebral artery,lenticulostriateanterior cerebral artery,Heubneranterior cerebral artery,anterior choroidalmiddle cerebral artery,and anterior c

13、horoidalposterior cerebral artery territories.Infarcts of the lenticulostriatemiddle cerebral artery border zone,which is supplied by the end branches of deep perforating lenticulostriate arteries and medullary penetrators from the pialmiddle cerebral artery,are the most commonly seen at imaging and

14、 are described in detail in this article.,Color overlays on axial T2-weighted magnetic resonance(MR)images of normal cerebrum show probable locations of external(blue)and internal(red)border zone infarcts.,Border zone infarcts involve the junction of the distal fields of two nonanastomosing arterial

15、 systems.The conventional theory implicates hemodynamic compromise produced by repeated episodes of hypotension in the presence of a severe arterial stenosis or occlusion.The lower perfusion pressure found within the border zone areas in this setting confers an increased susceptibility to ischemia,w

16、hich can lead to infarction.This causal role of severe arterial hypotension has been well described and confirmed by the results of experimental studies in animals.The typical clinical manifestations of syncope(晕厥),hypotension,and episodic fluctuating(情感波动)or progressive weakness of the hands are al

17、so supportive of this theory of hemodynamic failure.Radiologic studies also support the hypothesis that border zone infarcts distal to internal carotid artery disease are more likely to occur in the presence of a noncompetent circle of Willis.,Pathophysiology of Border Zone Infarcts,In sharp contras

18、t with this widely prevalent interpretation,several pathologic investigations have emphasized an association between border zone infarction and microemboli,and embolic material has been found within areas of border zone infarction in autopsy series.Preferential propagation of emboli in the border zo

19、ne regions also has been found in experimental studies.Border zone infarction may be better explained by invoking a combination of two often interrelated processes:hypoperfusion and embolization.Hypoperfusion,or decreased blood flow,is likely to impede the clearance(washout)of emboli.Because perfusi

20、on is most likely to be impaired in border zone regions,clearance of emboli will be most impaired in these regions of least blood flow.Severe occlusive disease of the internal carotid artery causes both embolization and decreased perfusion.Similarly,cardiac disease is often associated with microembo

21、lization from the heart and aorta with periods of diminished systemic and brain perfusion.This theory,although it seems reasonable,remains unproved and has been challenged on many accounts.,Imaging Appearance The external,cortical border zones are located between the anterior,middle,and posterior ce

22、rebral arteries and are usually wedge-shaped or ovoid.However,their location may vary with differences in the arterial supply.It is sometimes difficult to determine whether a person has sustained a border zone infarct on the basis of the location of the infarct in relation to the vessels on a CT or

23、MR imag.Because of this extensive anatomic variation,minimum and maximum distribution territories of each vessel have been defined.It is not uncommon to describe a cortical infarct as a“territorial”infarct if it lies completely within the expected or possible maximum area of a vascular territory or

24、as a“potential”infarct if it is outside these maxima.Furthermore,the location of cortical border zones may vary because of the development of leptomeningeal collaterals.The anatomy of cortical border zones can be complex,with marked variability due to individual differences in the territories suppli

25、ed by the major arteries of the brain.,(a,b)Coronal fluid-attenuated inversion recovery MR images show the distribution of external(cortical)border zone infarcts at the junctions of the anterior cerebral artery and middle cerebral artery territories(a)and the middle cerebral artery and posterior cer

26、ebral artery territories(b).(c)Diffusion-weighted MR images show a cortical border zone infarct at the junction of the anterior cerebral artery and middle cerebral artery territories.Angiography of the right-sided common carotid and internal carotid arteries in the same patient showed normal vessels

27、 with no occlusion or stenosis.,Causal Mechanisms The mechanism of external border zone infarction has been widely debated.Many studies have documented hemodynamic abnormalities in the anterior watershed or frontal cortical border zone.However,in many recent studies,no evidence of such hemodynamic i

28、mpairment was found.In other studies,substantially fewer severe stenoses or occlusions of major vessels than border zone infarcts were found.The cerebral or carotid vessels may appear entirely normal or show mild or moderate narrowing without hemodynamic compromise.Isolated cortical border zone infa

29、rcts may be embolic in nature and are less frequently associated with hemodynamic compromise.Microemboli from the heart or atherosclerotic plaques in major arteries may preferentially propagate to cortical border zones,which have lower perfusion than other areas of the vasculature,and,thus,a limited

30、 ability to wash out these emboli.Many patients with cortical border zone infarcts have concomitant smaller cortical infarcts.These findings support the hypothesis that an embolic mechanism plays a crucial role in the pathogenesis of external border zone infarcts,Clinical Course Patients with extern

31、al border zone infarcts have a more benign clinical course and a better prognosis than those with internal border zone infarcts,although the severity of clinical signs and symptoms and the score on the National Institutes of Health Stroke Scale at the time of admission might not differ substantially

32、 between the two patient groups.The external border zone is closer to the cortical surface,where penetrating arteries originate,and thus it has a better chance of developing a collateral supply through leptomeningeal or dural anastomoses.However,when external border zone infarcts occur in associatio

33、n with internal border zone infarcts,there is a higher probability of hemodynamic impairment,and the prognosis may not be good.,Internal Border Zone InfarctsImaging Appearance Internal border zone infarcts appear in multiples,in a rosarylike pattern.In one report,this pattern was described as a seri

34、es of three or more lesions,each with a diameter of 3 mm or more,arranged in a linear fashion parallel to the lateral ventricle in the centrum semiovale or corona radiata.Internal border zone infarcts are classified on the basis of their radiologic appearance as either confluent or partial Partial i

35、nfarcts are usually large,cigar shaped,and arranged in a pattern resembling the beads of a rosary,parallel and adjacent to the lateral ventricle.The duration of hemodynamic compromise has been postulated as the cause of the varied radiologic appearances,with a brief episode of compromise leading to

36、a partial infarct,and a longer period of compromise,to confluent infarcts.Confluent internal border zone infarcts may be manifested by a stepwise onset of contralateral hemiplegia.They also may be associated with a poorer recovery than is typical for partial infarcts,Internal border zone infarcts mu

37、st be differentiated from superficial perforator(medullary)infarcts,which may have a similar appearance on MR images.Superficial perforator infarcts,which are caused by the occlusion of medullary arteries from pial plexuses,are smaller,superficially located,and widely scattered,whereas internal bord

38、er zone infarcts tend to localize in paraventricular regions.Superficial perforator infarcts are associated with less severe vascular stenoses and a better prognosis than internal border zone infarcts.Because of the difficulty of differentiating between the two types of infarcts on radiologic images

39、,they have sometimes been collectively described as subcortical white matter infarcts,but that term is diagnostically nonspecific.,Causal MechanismsIn contrast to external border zone infarcts,internal border zone infarcts are caused mainly by arterial stenosis or occlusion,or hemodynamic compromise

40、.The greater vulnerability of internal border zones to hemodynamic compromise has been explained on the basis of anatomic characteristics of the cerebral arterioles within these zones.the internal border zones are supplied by medullary penetrating vessels of the middle and anterior cerebral arteries

41、 and by deep perforating lenticulostriate branches.The medullary penetrating arteries are the most distal branches of the internal carotid artery and have the lowest perfusion pressure.The deep perforating lenticulostriate arteries have little collateral supply,and there are no anastomoses between t

42、he deep perforators and the white matter medullary arterioles.Therefore,the centrum semiovale and corona radiata are more susceptible than other regions to ischemic insults in the setting of hemodynamic compromise.,Clinical Course Internal border zone infarcts are associated with a poor prognosis an

43、d clinical deterioration.Patients may undergo prolonged hospitalization,and they have an increased likelihood of remaining in a disabled state during clinical follow-up.The results of diffusion-weighted imaging studies suggest that patients with internal border zone infarcts have an increased risk f

44、or stroke during the first few days after infarction.Perfusion studies in patients with such infarcts have shown a far greater area of misery perfusion than is reflected on diffusion-weighted images.Involvement of the adjacent cortex also has been found on perfusion images.Thus,the typically small i

45、nternal border zone infarcts represent the“tip of the iceberg”of decreased perfusion reserve and may be predictive of impending stroke.This hypothesis was tested further with quantitative carbon 11flumazenil positron emission tomography(PET),which showed a decrease in benzodiazepine receptors,a find

46、ing suggestive of neuronal damage beyond the region of infarction seen on MR images.,a)Color overlay on a coronal MIP image from CT angiography in a healthy volunteer shows the probable location of the internal border zone(blue dots).,(b)Diffusion-weighted MR images,obtained in a 52-year-old woman w

47、ith progressive weakness and numbness for 6 months and a complete foot drop,show multiple internal border zone infarcts in a rosarylike pattern along the left centrum semiovale.(c)Left internal carotid angiogram in the same patient demonstrates severe stenosis of the M1 segment of the left middle ce

48、rebral artery.,Posterior External(Cortical)Border Zone Infarcts Anterior external border zone infarcts are more common than posterior ones because of the high prevalence of internal carotid artery disease.Vertebrobasilar system disease with superimposed fetal circulation(ie,a fetal-type posterior ce

49、rebral artery)may lead to posterior external border zone infarcts.Unilateral posterior external border zone infarcts have been related to cerebral emboli either of cardiac origin or from the common carotid artery,whereas bilateral infarcts are more likely to be caused by underlying hemodynamic impai

50、rment(vascular stenosis).,Axial diffusion-weighted MR image and apparent diffusion coefficient map show bilateral posterior cortical border zone infarcts.,Vascular Border Zone Changes The lesions produced by neurotoxic effects of cyclosporine therapy have a distinct distribution in vascular anastomo

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