2024
VEGF-C prophylaxis favors lymphatic drainage and modulates neuroinflammation in a stroke model
Boisserand L, Geraldo L, Bouchart J, Kamouh M, Lee S, Sanganahalli B, Spajer M, Zhang S, Lee S, Parent M, Xue Y, Skarica M, Yin X, Guegan J, Boyé K, Leser F, Jacob L, Poulet M, Li M, Liu X, Velazquez S, Singhabahu R, Robinson M, Askenase M, Osherov A, Sestan N, Zhou J, Alitalo K, Song E, Eichmann A, Sansing L, Benveniste H, Hyder F, Thomas J. VEGF-C prophylaxis favors lymphatic drainage and modulates neuroinflammation in a stroke model. Journal Of Experimental Medicine 2024, 221: e20221983. PMID: 38442272, PMCID: PMC10913814, DOI: 10.1084/jem.20221983.Peer-Reviewed Original ResearchConceptsVascular endothelial growth factor-CDeep cervical lymph nodesCentral nervous systemEffect of vascular endothelial growth factor-CMeningeal lymphatic vesselsAmeliorated motor performanceCervical lymph nodesIschemic strokeVEGF-C overexpressionIncreased BDNF signalingAcute ischemic strokeBrain cellsIncreased CSF drainageIschemic stroke outcomesModel of ischemic strokeMouse model of ischemic strokeImmune surveillanceCSF drainageLymph nodesFluid drainageNucleus RNA sequencingLymphatic growthLymphatic drainageMouse modelBDNF signaling
2023
Cross-hemicord spinal fiber reorganization associates with cortical sensory and motor network expansion in the rat model of hemicontusion cervical spinal cord injury
Mihailovic J, Sanganahalli B, Hyder F, Chitturi J, Elkabes S, Heary R, Kannurpatti S. Cross-hemicord spinal fiber reorganization associates with cortical sensory and motor network expansion in the rat model of hemicontusion cervical spinal cord injury. Neuroscience Letters 2023, 820: 137607. PMID: 38141752, PMCID: PMC10797561, DOI: 10.1016/j.neulet.2023.137607.Peer-Reviewed Original ResearchConceptsSpinal cord injuryCervical spinal cord injuryDiffusion tensor imagingCord injurySpinal cordCervical spinal cordState functional connectivitySpinal cord samplesSpinal cord diffusion tensor imagingMagnetic resonance imagingBrain functional MRIInjury epicenterSpinal reorganizationPost-SCINeuroplastic changesCord samplesCortical sensoryRat modelTraumatic injuryMD changeMotor networkNervous systemResonance imagingSingle-subject levelFunctional MRIFluorescent liposomal nanocarriers for targeted drug delivery in ischemic stroke therapy
Arul M, Alahmadi I, Turro D, Ruikar A, Abdulmalik S, Williams J, Sanganahalli B, Liang B, Verma R, Kumbar S. Fluorescent liposomal nanocarriers for targeted drug delivery in ischemic stroke therapy. Biomaterials Science 2023, 11: 7856-7866. PMID: 37902365, PMCID: PMC10697427, DOI: 10.1039/d3bm00951c.Peer-Reviewed Original ResearchConceptsSurgical clot removalPEGylated liposomal formulationPreclinical mouse modelsShorter treatment durationPurinergic receptor P2X4Reduced infarct volumeAcute CNS injuryCNS infiltrationLong-term disabilitySystemic deliveryTreatment optionsLiposomal formulationIschemic stroke therapyVulnerable brain regionsAdministered 4Clot removalInfarct volumeLow dosesTreatment durationMouse modelNeuroprotective therapiesCNS injuryLiposomal nanocarriersStroke therapyIschemic strokeA multi-laboratory preclinical trial in rodents to assess treatment candidates for acute ischemic stroke
Lyden P, Diniz M, Bosetti F, Lamb J, Nagarkatti K, Rogatko A, Kim S, Cabeen R, Koenig J, Akhter K, Arbab A, Avery B, Beatty H, Bibic A, Cao S, Simoes Braga Boisserand L, Chamorro A, Chauhan A, Diaz-Perez S, Dhandapani K, Dhanesha N, Goh A, Herman A, Hyder F, Imai T, Johnson C, Khan M, Kamat P, Karuppagounder S, Kumskova M, Mihailovic J, Mandeville J, Morais A, Patel R, Sanganahalli B, Smith C, Shi Y, Sutariya B, Thedens D, Qin T, Velazquez S, Aronowski J, Ayata C, Chauhan A, Leira E, Hess D, Koehler R, McCullough L, Sansing L. A multi-laboratory preclinical trial in rodents to assess treatment candidates for acute ischemic stroke. Science Translational Medicine 2023, 15: eadg8656. PMID: 37729432, DOI: 10.1126/scitranslmed.adg8656.Peer-Reviewed Original ResearchConceptsPreclinical assessmentFocal cerebral ischemic insultAcute ischemic strokeCerebral ischemic insultLarge clinical trialsDiet-induced obesityNew clinical interventionsIntravascular thrombectomyIschemic strokeStroke treatmentHypertensive ratsIschemic insultBlinded assessmentClinical trialsYoung miceTreatment candidatesExclusion criteriaAnimal modelsYoung ratsFutile interventionsPreclinical trialsClinical interventionsFutility boundariesMiceDisease areasSpatiotemporal features of neurovascular (un)coupling with stimulus-induced activity and hypercapnia challenge in cerebral cortex and olfactory bulb
James S, Sanggaard S, Akif A, Mishra S, Sanganahalli B, Blumenfeld H, Verhagen J, Hyder F, Herman P. Spatiotemporal features of neurovascular (un)coupling with stimulus-induced activity and hypercapnia challenge in cerebral cortex and olfactory bulb. Cerebrovascular And Brain Metabolism Reviews 2023, 43: 1891-1904. PMID: 37340791, PMCID: PMC10676132, DOI: 10.1177/0271678x231183887.Peer-Reviewed Original ResearchConceptsVasodilatory responseCerebral cortexNeurovascular couplingOlfactory bulbNeuronal activityBrief sensory stimuliRegional neurovascular couplingStimulus-induced activityHypercapnia challengeVascular toneNeuronal deactivationHemodynamic responseNeuronal excitabilityNeuronal responsesCalcium transientsBrain functionHemodynamic signalsSensory stimuliVasodilationHypercapniaCortexMiceCareful appraisalStimuliMetabolic wasteA consensus protocol for functional connectivity analysis in the rat brain
Grandjean J, Desrosiers-Gregoire G, Anckaerts C, Angeles-Valdez D, Ayad F, Barrière D, Blockx I, Bortel A, Broadwater M, Cardoso B, Célestine M, Chavez-Negrete J, Choi S, Christiaen E, Clavijo P, Colon-Perez L, Cramer S, Daniele T, Dempsey E, Diao Y, Doelemeyer A, Dopfel D, Dvořáková L, Falfán-Melgoza C, Fernandes F, Fowler C, Fuentes-Ibañez A, Garin C, Gelderman E, Golden C, Guo C, Henckens M, Hennessy L, Herman P, Hofwijks N, Horien C, Ionescu T, Jones J, Kaesser J, Kim E, Lambers H, Lazari A, Lee S, Lillywhite A, Liu Y, Liu Y, López -Castro A, López-Gil X, Ma Z, MacNicol E, Madularu D, Mandino F, Marciano S, McAuslan M, McCunn P, McIntosh A, Meng X, Meyer-Baese L, Missault S, Moro F, Naessens D, Nava-Gomez L, Nonaka H, Ortiz J, Paasonen J, Peeters L, Pereira M, Perez P, Pompilus M, Prior M, Rakhmatullin R, Reimann H, Reinwald J, Del Rio R, Rivera-Olvera A, Ruiz-Pérez D, Russo G, Rutten T, Ryoke R, Sack M, Salvan P, Sanganahalli B, Schroeter A, Seewoo B, Selingue E, Seuwen A, Shi B, Sirmpilatze N, Smith J, Smith C, Sobczak F, Stenroos P, Straathof M, Strobelt S, Sumiyoshi A, Takahashi K, Torres-García M, Tudela R, van den Berg M, van der Marel K, van Hout A, Vertullo R, Vidal B, Vrooman R, Wang V, Wank I, Watson D, Yin T, Zhang Y, Zurbruegg S, Achard S, Alcauter S, Auer D, Barbier E, Baudewig J, Beckmann C, Beckmann N, Becq G, Blezer E, Bolbos R, Boretius S, Bouvard S, Budinger E, Buxbaum J, Cash D, Chapman V, Chuang K, Ciobanu L, Coolen B, Dalley J, Dhenain M, Dijkhuizen R, Esteban O, Faber C, Febo M, Feindel K, Forloni G, Fouquet J, Garza-Villarreal E, Gass N, Glennon J, Gozzi A, Gröhn O, Harkin A, Heerschap A, Helluy X, Herfert K, Heuser A, Homberg J, Houwing D, Hyder F, Ielacqua G, Jelescu I, Johansen-Berg H, Kaneko G, Kawashima R, Keilholz S, Keliris G, Kelly C, Kerskens C, Khokhar J, Kind P, Langlois J, Lerch J, López-Hidalgo M, Manahan-Vaughan D, Marchand F, Mars R, Marsella G, Micotti E, Muñoz-Moreno E, Near J, Niendorf T, Otte W, Pais-Roldán P, Pan W, Prado-Alcalá R, Quirarte G, Rodger J, Rosenow T, Sampaio-Baptista C, Sartorius A, Sawiak S, Scheenen T, Shemesh N, Shih Y, Shmuel A, Soria G, Stoop R, Thompson G, Till S, Todd N, Van Der Linden A, van der Toorn A, van Tilborg G, Vanhove C, Veltien A, Verhoye M, Wachsmuth L, Weber-Fahr W, Wenk P, Yu X, Zerbi V, Zhang N, Zhang B, Zimmer L, Devenyi G, Chakravarty M, Hess A. A consensus protocol for functional connectivity analysis in the rat brain. Nature Neuroscience 2023, 26: 673-681. PMID: 36973511, PMCID: PMC10493189, DOI: 10.1038/s41593-023-01286-8.Peer-Reviewed Original ResearchConcerted roles of LRRTM1 and SynCAM 1 in organizing prefrontal cortex synapses and cognitive functions
de Arce K, Ribic A, Chowdhury D, Watters K, Thompson G, Sanganahalli B, Lippard E, Rohlmann A, Strittmatter S, Missler M, Hyder F, Biederer T. Concerted roles of LRRTM1 and SynCAM 1 in organizing prefrontal cortex synapses and cognitive functions. Nature Communications 2023, 14: 459. PMID: 36709330, PMCID: PMC9884278, DOI: 10.1038/s41467-023-36042-w.Peer-Reviewed Original ResearchConceptsPrefrontal cortexDKO miceSynCAM 1Aberrant neuronal activityDendritic spine numberPrefrontal cortex synapsesSynapse organizersSynapse numberMature brainNeuronal activityKnockout miceSpine numberSynapse developmentCognitive functionTrans-synaptic complexesImmunoglobulin family membersMiceFamily membersSynapsesLRRTM1Behavioral domainsHippocampusCognitive tasksConcerted roleCortexDecreased but diverse activity of cortical and thalamic neurons in consciousness-impairing rodent absence seizures
McCafferty C, Gruenbaum B, Tung R, Li J, Zheng X, Salvino P, Vincent P, Kratochvil Z, Ryu J, Khalaf A, Swift K, Akbari R, Islam W, Antwi P, Johnson E, Vitkovskiy P, Sampognaro J, Freedman I, Kundishora A, Depaulis A, David F, Crunelli V, Sanganahalli B, Herman P, Hyder F, Blumenfeld H. Decreased but diverse activity of cortical and thalamic neurons in consciousness-impairing rodent absence seizures. Nature Communications 2023, 14: 117. PMID: 36627270, PMCID: PMC9832004, DOI: 10.1038/s41467-022-35535-4.Peer-Reviewed Original ResearchConceptsThalamic neuronsAbsence seizuresSeizure onsetNeuronal firingConsciousness-impairing seizuresFemale rat modelLow-frequency electroencephalographic activityFunctional magnetic resonanceBehavioral arrestRat modelRhythmic firingTransient initial peakFiring increasesSeizuresNeuronal mechanismsElectroencephalographic activityNeuronsBrain state changesBrief episodesFiring decreasesInitial peakFiringMagnetic resonanceDistinct patternsOnsetEmbracing Heterogeneity in The Multicenter Stroke Preclinical Assessment Network (SPAN) Trial
Morais A, Locascio J, Sansing L, Lamb J, Nagarkatti K, Imai T, van Leyen K, Aronowski J, Koenig J, Bosetti F, Lyden P, Ayata C, Bosetti F, Koenig J, Lyden P, Lamb J, Nagarkatti K, Hess D, Kamat P, Khan M, Dhandapani K, Arbab A, Siddiqui S, Smith C, Nisar M, Leira E, Chauhan A, Dhanesha N, Patel R, Kumskova M, Thedens D, Wang K, Ayata C, Morais A, Imai T, Qin T, Jin X, Erdogan T, Yu L, Mandeville J, Kimberly W, Whittier J, Lo E, Arai K, Van Leyen K, Sansing L, Hyder F, Mihailovic J, Sanganahalli B, Diaz-Perez S, Velazquez S, Beatty H, Johnson C, Herman A, Boisserand L, Immakavar E, Koehler R, Dawson T, Dawson V, Shi Y, Avery B, Lannon S, Bibic A, Akhter K, Karuppagounder S, Aronowski J, McCullough L, Obertas L, Goh A, Huang S, Chauhan A. Embracing Heterogeneity in The Multicenter Stroke Preclinical Assessment Network (SPAN) Trial. Stroke 2023, 54: 620-631. PMID: 36601951, PMCID: PMC9870939, DOI: 10.1161/strokeaha.122.040638.Peer-Reviewed Original ResearchConceptsTotal anesthesia durationAnesthesia durationIndependent predictorsMultivariable analysisClinical trialsTransient focal cerebral ischemiaFocal cerebral ischemiaCerebral blood flowLaser Doppler flowCentralized randomizationModified intentionTreat populationExperimental strokeCerebral ischemiaDoppler flowRodent modelsMCAOBlood flowNetwork trialFlow dropPreclinical trialsMouse cohortsStudy designTrialsTrial onset
2022
Thalamic activations in rat brain by fMRI during tactile (forepaw, whisker) and non-tactile (visual, olfactory) sensory stimulations
Sanganahalli BG, Thompson GJ, Parent M, Verhagen JV, Blumenfeld H, Herman P, Hyder F. Thalamic activations in rat brain by fMRI during tactile (forepaw, whisker) and non-tactile (visual, olfactory) sensory stimulations. PLOS ONE 2022, 17: e0267916. PMID: 35522646, PMCID: PMC9075615, DOI: 10.1371/journal.pone.0267916.Peer-Reviewed Original ResearchConceptsDorsal lateral geniculate nucleusVentral posterior medialVentral posterior lateralThalamic activationFunctional MRIPosterior medial thalamic nucleusMedial thalamic nucleiSensory stimuliLateral geniculate nucleusPost-mortem humanOlfactory stimuliHigh-field functional MRIField functional MRIWhisker stimuliDeep brain regionsRat thalamusThalamic nucleiGeniculate nucleusMediodorsal nucleusRat brainInferior colliculusThalamusDifferent sensory stimuliCortical activationCortical activityThe Stroke Preclinical Assessment Network: Rationale, Design, Feasibility, and Stage 1 Results
Lyden PD, Bosetti F, Diniz MA, Rogatko A, Koenig JI, Lamb J, Nagarkatti KA, Cabeen RP, Hess DC, Kamat PK, Khan MB, Wood K, Dhandapani K, Arbab AS, Leira EC, Chauhan AK, Dhanesha N, Patel RB, Kumskova M, Thedens D, Morais A, Imai T, Qin T, Ayata C, Boisserand LSB, Herman AL, Beatty HE, Velazquez SE, Diaz-Perez S, Sanganahalli BG, Mihailovic JM, Hyder F, Sansing LH, Koehler RC, Lannon S, Shi Y, Karuppagounder SS, Bibic A, Akhter K, Aronowski J, McCullough LD, Chauhan A, Goh A, Siddiqui S, Sheth K, Matouk C, Cruz C, Zhou J, Dawson V, Dawson T, Liang J, van Zijl P, Zeiler S, Taylor Kimberly W, Erdogan T, Yu L, Mandeville J, Whittier J. The Stroke Preclinical Assessment Network: Rationale, Design, Feasibility, and Stage 1 Results. Stroke 2022, 53: 1802-1812. PMID: 35354299, PMCID: PMC9038686, DOI: 10.1161/strokeaha.121.038047.Peer-Reviewed Original ResearchConceptsPreclinical assessmentStroke treatmentCandidate treatmentMiddle cerebral artery occlusion (MCAO) surgeryClinical stroke trialsSuccessful stroke treatmentInclusion/exclusion criteriaStroke clinical trialsClinical trial designYoung male animalsComorbid diseasesOcclusion surgeryCerebral ischemiaNeurological disabilityComorbid conditionsStroke trialsProtocol adherenceBlinded assessmentSuch therapyClinical trialsClinical studiesExclusion criteriaTrial designAged animalsOutcome assessment
2021
Supraspinal Sensorimotor and Pain-Related Reorganization after a Hemicontusion Rat Cervical Spinal Cord Injury
Sanganahalli BG, Chitturi J, Herman P, Elkabes S, Heary R, Hyder F, Kannurpatti SS. Supraspinal Sensorimotor and Pain-Related Reorganization after a Hemicontusion Rat Cervical Spinal Cord Injury. Journal Of Neurotrauma 2021, 38: 3393-3405. PMID: 34714150, PMCID: PMC8713267, DOI: 10.1089/neu.2021.0190.Peer-Reviewed Original ResearchConceptsSpinal cord injuryCervical spinal cord injuryAnterior cingulate cortexFunctional magnetic resonance imagingPre-frontal cortexNociceptive regionsCord injuryPresence of painSecondary somatosensory cortexFunctional connectivity densityElectrical forepaw stimulationFemale adult ratsTranslational animal modelsMost cortical regionsMagnetic resonance imagingDiscernable lesionsIpsilesional forelimbKdyn forceRSFC decreasesRsFC increasesSupraspinal changesMotor recoveryThermal hyperalgesiaT2 lesionsPain behaviorSmall loci of astroglial glutamine synthetase deficiency in the postnatal brain cause epileptic seizures and impaired functional connectivity
Farina MG, Sandhu MRS, Parent M, Sanganahalli BG, Derbin M, Dhaher R, Wang H, Zaveri HP, Zhou Y, Danbolt NC, Hyder F, Eid T. Small loci of astroglial glutamine synthetase deficiency in the postnatal brain cause epileptic seizures and impaired functional connectivity. Epilepsia 2021, 62: 2858-2870. PMID: 34536233, PMCID: PMC9006438, DOI: 10.1111/epi.17072.Peer-Reviewed Original ResearchConceptsPostnatal brainFunctional connectivityContinuous video-electroencephalographic recordingSpontaneous recurrent seizuresPathogenesis of epilepsyGlutamine synthetase deficiencyVideo-electroencephalographic recordingsSpecific animal modelsEx vivo studySeizure thresholdAdult patientsRecurrent seizuresFocal epilepsyAdeno-associated virusHippocampal formationAnimal modelsFocal mannerEpileptic seizuresGS deficiencySmall lociSynthetase deficiencyEpilepsyGradual returnVivo studiesBrain
2020
Association Between Magnetic Resonance Imaging-Based Spinal Morphometry and Sensorimotor Behavior in a Hemicontusion Model of Incomplete Cervical Spinal Cord Injury in Rats
Chitturi J, Sanganahalli BG, Herman P, Hyder F, Ni L, Elkabes S, Heary R, Kannurpatti SS. Association Between Magnetic Resonance Imaging-Based Spinal Morphometry and Sensorimotor Behavior in a Hemicontusion Model of Incomplete Cervical Spinal Cord Injury in Rats. Brain Connectivity 2020, 10: 479-489. PMID: 32981350, PMCID: PMC7698856, DOI: 10.1089/brain.2020.0812.Peer-Reviewed Original ResearchConceptsNeurological outcomeFunctional connectivity changesSpinal cordMagnetic resonance imagingComplete neural axisNeural axisCervical SCIMorphometric changesIncomplete cervical spinal cord injuryC4/C5 levelResonance imagingCervical spinal cord injurySpinal cord injury patientsFunctional connectivityConnectivity changesCord injury patientsT2-weighted lesionsCervical spinal cordSpinal cord injuryYoung adult ratsFunctional connectivity assessmentC5 levelSCI ratsInjury patientsSham ratsAPOE genotype-dependent pharmacogenetic responses to rapamycin for preventing Alzheimer's disease
Lin AL, Parikh I, Yanckello LM, White RS, Hartz AMS, Taylor CE, McCulloch SD, Thalman SW, Xia M, McCarty K, Ubele M, Head E, Hyder F, Sanganahalli BG. APOE genotype-dependent pharmacogenetic responses to rapamycin for preventing Alzheimer's disease. Neurobiology Of Disease 2020, 139: 104834. PMID: 32173556, PMCID: PMC7486698, DOI: 10.1016/j.nbd.2020.104834.Peer-Reviewed Original ResearchConceptsCerebral blood flowAsymptomatic APOE4 carriersE4FAD miceAPOE4 carriersAlzheimer's diseaseCerebrovascular reactivityNeurotransmitter levelsE3FAD micePharmacogenetic responsePharmacogenetic differencesSomatosensory responsesBlood-brain barrier functionBrain functionStrongest genetic risk factorBrain metabolic changesFree fatty acid levelsAmyloid-beta plaquesHuman APOE4 geneDifferent APOE allelesAPOE ε3 alleleFuture clinical testingGenetic risk factorsFatty acid levelsWhite matter integrityAβ transportOrthonasal versus retronasal glomerular activity in rat olfactory bulb by fMRI
Sanganahalli BG, Baker KL, Thompson GJ, Herman P, Shepherd GM, Verhagen JV, Hyder F. Orthonasal versus retronasal glomerular activity in rat olfactory bulb by fMRI. NeuroImage 2020, 212: 116664. PMID: 32087375, PMCID: PMC9362851, DOI: 10.1016/j.neuroimage.2020.116664.Peer-Reviewed Original ResearchConceptsRat olfactory bulbOlfactory bulbWhole olfactory bulbOlfactory receptor neuronsFunctional MRINasal cavityRetronasal stimuliGlomerular sheetDorsal-medial regionsDelivery routeRetronasal stimulationSimilar response amplitudesGlomerular activityFMRI activation mapsSame odorReceptor neuronsDorsal regionNeural responsesOdor representationsLateral regionsSame odorantOrthonasalUnderlie differencesResponse amplitudeResponse patternsKaempferol Treatment after Traumatic Brain Injury during Early Development Mitigates Brain Parenchymal Microstructure and Neural Functional Connectivity Deterioration at Adolescence
Parent M, Chitturi J, Santhakumar V, Hyder F, Sanganahalli BG, Kannurpatti SS. Kaempferol Treatment after Traumatic Brain Injury during Early Development Mitigates Brain Parenchymal Microstructure and Neural Functional Connectivity Deterioration at Adolescence. Journal Of Neurotrauma 2020, 37: 966-974. PMID: 31830867, PMCID: PMC7175625, DOI: 10.1089/neu.2019.6486.Peer-Reviewed Original ResearchConceptsTraumatic brain injuryKaempferol treatmentDiffusion tensor imagingFractional anisotropyBrain injuryParenchymal microstructureCallosal fractional anisotropyInterhemispheric structural connectivityH post-TBINeural connectivitySelect brain regionsFunctional magnetic resonance imagingMagnetic resonance imagingTBI prognosisCerebrovascular reactivityFunctional outcomeImaging outcomesNeurovascular couplingPost-TBITBI outcomesTBI pathophysiologyMetabolic benefitsResting-state functional connectivity networksRsFC changesWhole brain
2018
Alterations of Parenchymal Microstructure, Neuronal Connectivity, and Cerebrovascular Resistance at Adolescence after Mild-to-Moderate Traumatic Brain Injury in Early Development
Parent M, Li Y, Santhakumar V, Hyder F, Sanganahalli BG, Kannurpatti SS. Alterations of Parenchymal Microstructure, Neuronal Connectivity, and Cerebrovascular Resistance at Adolescence after Mild-to-Moderate Traumatic Brain Injury in Early Development. Journal Of Neurotrauma 2018, 36: 601-608. PMID: 29855211, PMCID: PMC6354598, DOI: 10.1089/neu.2018.5741.Peer-Reviewed Original ResearchConceptsTraumatic brain injuryDevelopmental traumatic brain injuryResting-state functional connectivityDiffusion tensor imagingCerebrovascular resistanceIpsilateral hippocampusBrain injuryLateral fluid percussion traumatic brain injuryFluid percussion traumatic brain injuryNeuronal connectivityFunctional MRIModerate traumatic brain injuryParenchymal microstructureInterhemispheric structural connectivityFluid percussion injuryCortical blood flowNeural connectivityMicrostructural integrityInterhemispheric asymmetryIpsilateral thalamusNeurovascular functionCerebrovascular reactivityMotor cortexRSFC strengthSubcortical alterationsSpontaneous activity forms a foundation for odor-evoked activation maps in the rat olfactory bulb
Thompson GJ, Sanganahalli BG, Baker KL, Herman P, Shepherd GM, Verhagen JV, Hyder F. Spontaneous activity forms a foundation for odor-evoked activation maps in the rat olfactory bulb. NeuroImage 2018, 172: 586-596. PMID: 29374582, PMCID: PMC5910178, DOI: 10.1016/j.neuroimage.2018.01.051.Peer-Reviewed Original Research
2016
Metabolic demands of neural-hemodynamic associated and disassociated areas in brain
Sanganahalli BG, Herman P, Rothman DL, Blumenfeld H, Hyder F. Metabolic demands of neural-hemodynamic associated and disassociated areas in brain. Cerebrovascular And Brain Metabolism Reviews 2016, 36: 1695-1707. PMID: 27562867, PMCID: PMC5076793, DOI: 10.1177/0271678x16664531.Peer-Reviewed Original ResearchConceptsVentral posterolateral thalamic nucleusFunctional magnetic resonance imagingMulti-unit activityLocal field potentialsMetabolic demandsPosterolateral thalamic nucleusBlood oxygenation level-dependent (BOLD) responseSensory-evoked responsesCortical local field potentialsThalamic local field potentialsMagnetic resonance imagingLevel-dependent responsesSimilar metabolic demandThalamic nucleiForelimb cortexBlood flowBlood volumeCBV responseResonance imagingLatency differenceHemodynamicsBOLD signalOxidative metabolismDifferent metabolic demandsField potentials