Radiology - Research Publications

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    Normative retrobulbar measurements of the optic nerve using ultra high field magnetic resonance imaging
    Nguyen, BN ; Cleary, JO ; Glarin, R ; Kolbe, SC ; Moffat, BA ; Ordidge, RJ ; Bui, BV ; McKendrick, AM (Association for Research in Vision and Ophthalmology, 2019-07-01)
    Purpose : We exploit the improved spatial resolution and signal-to-noise gain of ultra high field (7T) magnetic resonance imaging (MRI) with a dedicated eye coil for more accurate morphometric measurements of the optic nerve ~2.5mm behind the globe. Methods : Coronal T2-weighted oblique images (TR=2000ms, TE=64ms, FOV=155mm, matrix=384 x 384, slice thickness=0.7mm, scan time=2’34”) through the optic nerve were obtained in 21 healthy adults (20-41 years, 11 emmetropes: +0.75 to -0.50D, 10 myopes: -4.5 to -12D) using a 7T Siemens Magnetom scanner (Erlangen, Germany) and 6-channel eye coil (MRI.TOOLS GmbH, Berlin, Germany). Horizontal and vertical outer diameter of the optic nerve, subarachnoid space (fluid gap) and optic sheath were measured by hand using biomedical imaging software (OsiriX, Pixmeo, Switzerland) (Figure). Significant motion artefacts were avoided with customised fixation and preparation techniques. Results : Horizontal and vertical measurements were similar so were averaged. Right and left eye diameters did not differ and were highly correlated (optic nerve: Pearson r=0.9, p<0.001; fluid gap: r=0.8, p<0.001; optic sheath: r=0.7, p<0.001); hence we report left eye data only. Optic nerve diameter (average of horizontal and vertical diameters) ranged from 2.8-4.1mm in emmetropes and 1.5-4.2mm in myopes and correlated with refractive error (Spearman r=0.46, p=0.04). Similarly, fluid gap diameter (emmetropes: 3.6-5.5mm, myopes: 2.5-5.6mm), but not optic sheath diameter (emmetropes: 4.5-6.8mm, myopes: 4.2-6.8mm), correlated with refractive error (r=0.47, p=0.03). Conclusions : Ultra high field MRI with thinner slices enables more accurate demarcation of the optic nerve, surrounding fluid/subarachnoid space and optic sheath without overlapping of neighbouring anatomy (minimal partial volume artefact). Our 7T MRI-derived normative measurements of optic nerve, fluid gap and sheath diameter are comparable with published reports in healthy observers obtained at conventional MRI magnetic fields (1.5-3T). Our findings suggest a trend for retrobulbar optic nerve and subarachnoid space, but not optic sheath, to be smaller in high myopes.
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    Optic Nerve Diffusion Tensor Imaging after Acute Optic Neuritis Predicts Axonal and Visual Outcomes
    van der Walt, A ; Kolbe, SC ; Wang, YE ; Klistorner, A ; Shuey, N ; Ahmadi, G ; Paine, M ; Marriott, M ; Mitchell, P ; Egan, GF ; Butzkueven, H ; Kilpatrick, TJ ; Villoslada, P (PUBLIC LIBRARY SCIENCE, 2013-12-26)
    BACKGROUND: Early markers of axonal and clinical outcomes are required for early phase testing of putative neuroprotective therapies for multiple sclerosis (MS). OBJECTIVES: To assess whether early measurement of diffusion tensor imaging (DTI) parameters (axial and radial diffusivity) within the optic nerve during and after acute demyelinating optic neuritis (ON) could predict axonal (retinal nerve fibre layer thinning and multi-focal visual evoked potential amplitude reduction) or clinical (visual acuity and visual field loss) outcomes at 6 or 12 months. METHODS: Thirty-seven patients presenting with acute, unilateral ON were studied at baseline, one, three, six and 12 months using optic nerve DTI, clinical and paraclinical markers of axonal injury and clinical visual dysfunction. RESULTS: Affected nerve axial diffusivity (AD) was reduced at baseline, 1 and 3 months. Reduced 1-month AD correlated with retinal nerve fibre layer (RNFL) thinning at 6 (R=0.38, p=0.04) and 12 months (R=0.437, p=0.008) and VEP amplitude loss at 6 (R=0.414, p=0.019) and 12 months (R=0.484, p=0.003). AD reduction at three months correlated with high contrast visual acuity at 6 (ρ = -0.519, p = 0.001) and 12 months (ρ = -0.414, p=0.011). The time-course for AD reduction for each patient was modelled using a quadratic regression. AD normalised after a median of 18 weeks and longer normalisation times were associated with more pronounced RNFL thinning and mfVEP amplitude loss at 12 months. Affected nerve radial diffusivity (RD) was unchanged until three months, after which time it remained elevated. CONCLUSIONS: These results demonstrate that AD reduces during acute ON. One month AD reduction correlates with the extent of axonal loss and persistent AD reduction at 3 months predicts poorer visual outcomes. This suggests that acute ON therapies that normalise optic nerve AD by 3 months could also promote axon survival and improve visual outcomes.
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    Early imaging predictors of longer term multiple sclerosis risk and severity in acute optic neuritis
    Gajamange, S ; Stankovich, J ; Egan, G ; Kilpatrick, T ; Butzkueven, H ; Fielding, J ; van der Walt, A ; Kolbe, S (SAGE PUBLICATIONS INC, 2019)
    BACKGROUND: Biomarkers are urgently required for predicting the likely progression of multiple sclerosis (MS) at the earliest stages of the disease to aid in personalised therapy. OBJECTIVE: We aimed to examine early brain volumetric and microstructural changes and retinal nerve fibre layer thinning as predictors of longer term MS severity in patients with clinically isolated syndromes (CIS). METHODS: Lesion metrics, brain and regional atrophy, diffusion fractional anisotropy and retinal nerve fibre layer thickness were prospectively assessed in 36 patients with CIS over the first 12 months after presentation and compared with clinical outcomes at longer term follow-up [median (IQR) = 8.5 (7.8-8.9) years]. RESULTS: In total, 25 (69%) patients converted to MS and had greater baseline lesion volume (p = 0.008) and number (p = 0.03)than CIS patients. Over the initial 12 months, new lesions (p = 0.0001), retinal nerve fibre layer thinning (p = 0.04) and ventricular enlargement (p = 0.03) were greater in MS than CIS patients. In MS patients, final Expanded Disability Status Scale score correlated with retinal nerve fibre layer thinning over the first 12 months (ρ = -0.67, p = 0.001). CONCLUSIONS: Additional to lesion metrics, early measurements of fractional anisotropy and retinal nerve fibre layer thinning are informative about longer term clinical outcomes in CIS.
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    Functional correlates of cognitive dysfunction in clinically isolated syndromes
    Gajamange, S ; Shelton, A ; Clough, M ; White, O ; Fielding, J ; Kolbe, S ; Paul, F (PUBLIC LIBRARY SCIENCE, 2019-07-17)
    Cognitive dysfunction can be identified in patients with clinically isolated syndromes suggestive of multiple sclerosis using ocular motor testing. This study aimed to identify the functional neural correlates of cognitive dysfunction in patients with clinically isolated syndrome using MRI. Eighteen patients with clinically isolated syndrome and 17 healthy controls were recruited. Subjects underwent standard neurological and neuropsychological testing. Subjects also underwent functional MRI (fMRI) during a cognitive ocular motor task, involving pro-saccade (direct gaze towards target) and anti-saccade (direct gaze away from target) trials. Ocular motor performance variables (averaged response time and error rate) were calculated for each subject. Patients showed a trend towards a greater rate of anti-saccade errors (p = 0.09) compared to controls. Compared to controls, patients exhibited increased activation in the right postcentral, right supramarginal gyrus, and the right parietal operculum during the anti-saccade>pro-saccade contrast. This study demonstrated that changes in functional organisation of cognitive brain networks is associated with subtle cognitive changes in patients with clinically isolated syndrome.
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    Repeated mild traumatic brain injuries induce persistent changes in plasma protein and magnetic resonance imaging biomarkers in the rat
    Wright, DK ; Brady, RD ; Kamnaksh, A ; Trezise, J ; Sun, M ; McDonald, SJ ; Mychasiuk, R ; Kolbe, SC ; Law, M ; Johnston, LA ; O'Brien, TJ ; Agoston, DV ; Shultz, SR (Nature Publishing Group, 2019-10-10)
    A single mild traumatic brain injury (mTBI) typically causes only transient symptoms, but repeated mTBI (RmTBI) is associated with cumulative and chronic neurological abnormalities. Clinical management of mTBI is challenging due to the heterogeneous, subjective and transient nature of symptoms, and thus would be aided by objective biomarkers. Promising biomarkers including advanced magnetic resonance imaging (MRI) and plasma levels of select proteins were examined here in a rat model of RmTBI. Rats received either two mild fluid percussion or sham injuries administered five days apart. Rats underwent MRI and behavioral testing 1, 3, 5, 7, and 30 days after the second injury and blood samples were collected on days 1, 7, and 30. Structural and diffusion-weighted MRI revealed that RmTBI rats had abnormalities in the cortex and corpus callosum. Proteomic analysis of plasma found that RmTBI rats had abnormalities in markers indicating axonal and vascular injury, metabolic and mitochondrial dysfunction, and glial reactivity. These changes occurred in the presence of ongoing cognitive and sensorimotor deficits in the RmTBI rats. Our findings demonstrate that RmTBI can result in chronic neurological abnormalities, provide insight into potential contributing pathophysiological mechanisms, and supports the use of MRI and plasma protein measures as RmTBI biomarkers.
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    Novel Functional MRI Task for Studying the Neural Correlates of Upper Limb Tremor
    Boonstra, FMC ; Perera, T ; Noffs, G ; Marotta, C ; Vogel, AP ; Evans, AH ; Butzkueven, H ; Moffat, BA ; van der Walt, A ; Kolbe, SC (FRONTIERS MEDIA SA, 2018-07-02)
    Introduction: Tremor of the upper limbs is a disabling symptom that is present during several neurological disorders and is currently without treatment. Functional MRI (fMRI) is an essential tool to investigate the pathophysiology of tremor and aid the development of treatment options. However, no adequately or standardized protocols for fMRI exists at present. Here we present a novel, online available fMRI task that could be used to assess the in vivo pathology of tremor. Objective: This study aims to validate the tremor-evoking potential of the fMRI task in a small group of tremor patients outside the scanner and assess the reproducibility of the fMRI task related activation in healthy controls. Methods: Twelve HCs were scanned at two time points (baseline and after 6-weeks). There were two runs of multi-band fMRI and the tasks included a "brick-breaker" joystick game. The game consisted of three conditions designed to control for most of the activation related to performing the task by contrasting the conditions: WATCH (look at the game without moving joystick), MOVE (rhythmic left/right movement of joystick without game), and PLAY (playing the game). Task fMRI was analyzed using FSL FEAT to determine clusters of activation during the different conditions. Maximum activation within the clusters was used to assess the ability to control for task related activation and reproducibility. Four tremor patients have been included to test ecological and construct validity of the joystick task by assessing tremor frequencies captured by the joystick. Results: In HCs the game activated areas corresponding to motor, attention and visual areas. Most areas of activation by our game showed moderate to good reproducibility (intraclass correlation coefficient (ICC) 0.531-0.906) with only inferior parietal lobe activation showing poor reproducibility (ICC 0.446). Furthermore, the joystick captured significantly more tremulous movement in tremor patients compared to HCs (p = 0.01) during PLAY, but not during MOVE. Conclusion: Validation of our novel task confirmed tremor-evoking potential and reproducibility analyses yielded acceptable results to continue further investigations into the pathophysiology of tremor. The use of this technique in studies with tremor patient will no doubt provide significant insights into the treatment options.
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    Objective speech marker correlates with clinical scores in non-dysarthric MS
    Noffs, G ; Boonstra, F ; Kolbe, S ; Perera, T ; Shanahan, C ; Evans, A ; Butzkueven, H ; Vogel, A ; Van der Walt, A (SAGE PUBLICATIONS LTD, 2017-10-01)
    Background: Reduction of brain volume occurs in clinically active disease and correlates with progressive disability in multiple Sclerosis (MS). Although dysarthria is highly prevalent in MS, it only becomes clinically relevant in advanced stages of the disease. The relationship between early sub-clinical markers of dysarthria and overall disease severity is poorly understood. Aim: To examine the relationship between an objective marker of speech performance and validated clinical scores for disease severity in non-dysarthric subjects with relapsing-remitting and secondary progressive MS. Method: An experienced neurologist scored patients according to the Expanded Disability Status Scale (EDSS) and the Scale for the Assessment and Rating of Ataxia (SARA). Acoustic analysis was used to investigate the diadochokinetic speed in “as fast as possible” repetition of the meaningless word /pa/ta/ka/. Brain images were acquired using 3 Tesla magnetic resonance. Images were automatically segmented using FreeSurfer (5.7) to determine volumes for whole brain (excluding ventricules) and cerebellum. Lesions were automatically segmented by the lesion prediction algorithm as implemented in the Lesion Segmentation Tool version 2.0.15 for SPM (Statistical Parametric Mapping software). Statistical correlations were processed in SPSS (v 23.0) controlling for age. After adjustment for multiple comparisons, a p< 0.01 was considered for statistical significance. Results: We assessed 35 MS patients with normal speech (i.e. SARA speech sub-score 0-1; age=47.7±12years; disease duration=13.2±8.4). Diadochokinetic rate (mean=5.63±0.83 syllables per second) directly correlated with EDSS (Spearman's rho=0.454, 2-tailed p=0.007; median EDSS=3.5, interquartile range=3.5) and SARA (rho=0.515, p=0.002; SARA median=9, interquartile range 11.975), but not with whole brain volume (p=0.022), lesion load (p=0.032) or cerebellar volume (p=0.037). Conclusion: Changes in acoustic markers can be detected before overt dysarthria in MS and reflect overall disease severity. Larger and longitudinal studies are needed to understand if those markers can help monitoring disease progression.
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    Pathophysiology of MS tremor: an fMRI study
    Boonstra, FMC ; Noffs, G ; Perera, T ; Shanahan, CJ ; Vogel, AP ; Evans, A ; Butzkueven, H ; van der Walt, A ; Kolbe, SC (SAGE PUBLICATIONS LTD, 2017-10)
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    Subclinical speech signs correlate with MS disease severity and differentiates patients with and without clinical cerebellar dysfunction
    Noffs, G ; Boonstra, F ; Perera, T ; Kolbe, S ; Shanahan, C ; Evans, A ; Butzkueven, H ; Vogel, A ; van der Walt, A (SAGE PUBLICATIONS LTD, 2017-10-01)
    Background: Dysarthria is highly prevalent in Multiple Sclerosis (MS). The relationship between dysarthria, MS disease severity and other cerebellar manifestations (such as tremor) is poorly understood. Aim: To examine the relationship between objective markers of speech, disease severity and upper limb tremor in relapsing-remitting and secondary progressive MS. Method: An experienced neurologist determined A) the presence of upper limb tremor, B) the Expanded Disability Status Scale (EDSS) score and C) the degree of dysarthria (from 0, no disturbance to 4, unintelligible). We used acoustic analysis to investigate 4 speech domains: 1) stability of vocal pitch, in sustained utterance of the vowel /a/; 2) stability of loudness, in the same sustained vowel; 3) diadochokinetic speed, in fast repetition of the meaningless word /pa/ta/ka/ and 4) maximum speed of vocal tract movement (i.e. change in pharynx and mouth cavity shape), measured through change in the second formant frequency in the word “always”, from reading of the “Grandfather Passage”. After adjustment for multiple comparisons, a p< 0.0125 was considered for statistical significance. Results: We assessed 24 MS patients with upper limb tremor (47.2±12.3years, 75% female, EDSS=3.7±1.6) and 24 matched patients without tremor (51.2±10.7years, 75% female, EDSS=3.6±1.7). Clinical dysarthria (median=0, mean=0.375±0.76) moderately correlated with EDSS scores (Spearman's rho =.586, p< .001) and with syllable repetition rates (/pa/ta/ka/ rho=.561, p< .001), marginally correlated with speed of tract movement (rho=.363, p=.012), pitch stability (rho=.37, p=.011), loudness stability (rho=.37, p=.01) but not with upper limb tremor presence (p=.039). Only /pa/ta/ka/ rate correlated with EDSS (rho=.529, p< .001) and speed of tract movement differentiated tremor and non-tremor groups (2-tailed t-test p=0.002, rho=.418). Conclusion: Acoustic speech measurements correlate with MS disease severity and can differentiate overt cerebellar dysfunction. Further study is needed to understand the significance of this relationship longitudinally.
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    Objective analysis of speech correlates with disease severity in Multiple Sclerosis and differentiates groups with and without upper limb tremor
    Noffs, G ; Boonstra, F ; Perera, T ; Kolbe, SC ; Shanahan, CJ ; Evans, A ; Butzkueven, H ; Vogel, AP ; van der Walt, A (SAGE PUBLICATIONS LTD, 2017-11-01)
    Background: Dysarthria is highly prevalent in Multiple Sclerosis. The relationship between dysarthria, MS disease severity and other cerebellar manifestations (such as tremor) is poorly understood. Objective: To examine the relationship between objective markers of speech, disease severity and upper limb tremor in relapsing-remitting and secondary progressive Multiple Sclerosis. Design Methods: An experienced neurologist determined A) the presence of upper limb tremor, B) the Expanded Disability Status Scale (EDSS) score and C) the degree of dysarthria (from 0, no disturbance to 4, unintelligible). Through acoustic analysis of speech, we investigated: 1) stability of vocal pitch, in sustained utterance of the vowel /a/; 2) stability of loudness, in the same sustained vowel; 3) diadochokinetic speed, in fast repetition of the meaningless word /pa/ta/ka/ and 4) maximum speed of vocal tract movement (i.e. change in pharynx and mouth cavity shape), measured in the word “always” (from a standard reading passage). After adjustment for multiple comparisons, p<0.0125 was considered for statistical significance. Results: We assessed 24 participants with Multiple Sclerosis and upper limb tremor (47.2±12.3years, 75% female, EDSS=3.7±1.6) and 24 matched patients with Multiple Sclerosis without tremor (51.2±10.7years, 75% female, EDSS=3.6±1.7). Clinical dysarthria scores (median=0, mean=0.375±0.76) correlated with all acoustic variables measured: diadochokinetic speed Spearman’s rho=.561 (p<.001); pitch stability rho=.37 (p=.011); loudness stability rho=.37 (p=.01); and maximum speed of vocal tract movement rho=.363 (p=.012). Diadochokinetic speed strongly correlated with EDSS (rho=.529, p<.001). Speed of vocal tract movement correlated with tremor and differentiated tremor and non-tremor groups (2-tailed t-test p=0.002, rho=.418). Conclusions: In a typically non-to-mildly dysarthric cohort, acoustic speech measurements correlate with disease severity and can differentiate overt cerebellar dysfunction in Multiple Sclerosis. Further study is needed to understand the significance of this relationship longitudinally.