Literature DB >> 31482101

Noninvasive optical assessment of resting-state cerebral blood flow in children with sickle cell disease.

Seung Yup Lee1, Kyle R Cowdrick1, Bharat Sanders1, Eashani Sathialingam1, Courtney E McCracken2, Wilbur A Lam1,2, Clinton H Joiner2,3, Erin M Buckley1,2,4.   

Abstract

Sickle cell disease (SCD) is a genetic blood disorder that has profound effects on the brain. Chronic anemia combined with both macro- and microvascular perfusion abnormalities that arise from stenosis or occlusion of blood vessels increased blood viscosity, adherence of red blood cells to the vascular endothelium, and impaired autoregulatory mechanisms in SCD patients all culminate in susceptibility to cerebral infarction. Indeed, the risk of stroke is 250 times higher in children with SCD than in the general population. Unfortunately, while transcranial Doppler ultrasound (TCD) has been widely clinically adopted to longitudinally monitor macrovascular perfusion in these patients, routine clinical screening of microvascular perfusion abnormalities is challenging with current modalities (e.g., positron emission tomography and magnetic resonance imaging) given their high-cost, requirement for sedation in children < 6 year, and need for trained personnel. We assess the feasibility of a low-cost, noninvasive optical technique known as diffuse correlation spectroscopy (DCS) to quantify an index of resting-state cortical cerebral blood flow (BFI) in 11 children with SCD along with 11 sex- and age-matched healthy controls. As expected, BFI was significantly higher in SCD subjects compared to healthy controls ( p < 0.001 ). Within SCD subjects, BFI was inversely proportional to resting-state arterial hemoglobin levels ( p = 0.012 ), consistent with expected anemia-induced compensatory vasodilation that aims to maintain adequate oxygen delivery to the tissue. Further, in a subset of patients measured with TCD ( n = 7 ), DCS-measured blood flow was correlated with TCD-measured blood flow velocity in middle cerebral artery ( R s = 0.68 ), although the trend was not statistically significant ( p = 0.11 ). These results are consistent with those of several previous studies using traditional neuroimaging techniques, suggesting that DCS may be a promising low-cost tool for assessment of tissue-level CBF in pediatric SCD.

Entities:  

Keywords:  cerebral blood flow; diffuse correlation spectroscopy; sickle cell disease

Year:  2019        PMID: 31482101      PMCID: PMC6699550          DOI: 10.1117/1.NPh.6.3.035006

Source DB:  PubMed          Journal:  Neurophotonics        ISSN: 2329-423X            Impact factor:   3.593


  42 in total

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Authors:  F J Kirkham; F Calamante; M Bynevelt; D G Gadian; J P Evans; T C Cox; A Connelly
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Authors:  W C Wang; D M Gallagher; C H Pegelow; E C Wright; E P Vichinsky; M R Abboud; F G Moser; R J Adams
Journal:  J Pediatr Hematol Oncol       Date:  2000 Jul-Aug       Impact factor: 1.289

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Journal:  Blood       Date:  2004-01-29       Impact factor: 22.113
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1.  Hematocrit significantly confounds diffuse correlation spectroscopy measurements of blood flow.

Authors:  Eashani Sathialingam; Evelyn Kendall Williams; Seung Yup Lee; Courtney E McCracken; Wilbur A Lam; Erin M Buckley
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2.  Accuracy of diffuse correlation spectroscopy measurements of cerebral blood flow when using a three-layer analytical model.

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4.  Quantifying the Cerebral Hemometabolic Response to Blood Transfusion in Pediatric Sickle Cell Disease With Diffuse Optical Spectroscopies.

Authors:  Seung Yup Lee; Rowan O Brothers; Katherine B Turrentine; Ayesha Quadri; Eashani Sathialingam; Kyle R Cowdrick; Scott Gillespie; Shasha Bai; Adam E Goldman-Yassen; Clinton H Joiner; R Clark Brown; Erin M Buckley
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5.  Cerebrovascular reactivity measured in awake mice using diffuse correlation spectroscopy.

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