In-vivo transcranial ultrasound imaging of induced Substantia Nigra hyperechogenicity using adaptive sparse Third Order Volterra Filter

Background: Ultrasound is ideal for displaying intracranial great vessels but not intracranial microvessels and terminal vessels. Even with contrast agents, the imaging effect is still unsatisfactory. In recent years, significant theoretical advances have been achieved in super-resolution imaging. The latest commonly used ultrafast plane-wave ultrasound Doppler imaging of the brain and microbubble-based super-resolution ultrasound imaging have been applied to the imaging of cerebral microvessels and blood flow in small animals such as mice but have not been applied to in vivo imaging of the cerebral microvessels in monkeys and larger animals. In China, preliminary research results have been obtained using super-resolution imaging in certain fields but rarely in fundamental and clinical experiments on large animals. In recent years, we have conducted a joint study with the Xi'an Jiaotong University to explore the application and performance of this new technique in the diagnosis of cerebrovascular diseases in large animals.Objective: To explore the characteristics and advantages of microbubble-based super-resolution ultrasound imaging of intracranial vessels in rhesus monkeys compared with conventional transcranial ultrasound.Methods: First, the effectiveness and feasibility of the super-resolution imaging technique were verified by modular simulation experiments. Then, the imaging parameters were adjusted based on in vitro experiments. Finally, two rhesus monkeys were used for in vivo experiments of intracranial microvessel imaging.Results: Compared with conventional plane-wave imaging, super-resolution imaging could measure the inner diameters of cerebral microvessels at a resolution of 1 mm or even 0.7 mm and extract blood flow information. In addition, it has a better signal-to-noise ratio (5.625 dB higher) and higher resolution (~30-fold higher). The results of the experiments with rhesus monkeys showed that microbubble-based super-resolution ultrasound imaging can achieve an optimal resolution at the micron level and an imaging depth >35 mm.Conclusion: Super-resolution imaging can realize the monitoring imaging of high-resolution and fast calculation of microbubbles in the process of tissue damage, providing an important experimental basis for the clinical application of non-invasive transcranial ultrasound.

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Substantia nigra hyperechogenicity and CSF dopamine depletion in HIV

Aktuelle Neurologie ◽

10.1055/s-0028-1086479 ◽

2008 ◽

Vol 35 (S 01) ◽

Author(s):

J Thiermann ◽

M Obermann ◽

M Küper ◽

O Kastrup ◽

Ö Yaldizli ◽

...

Keyword(s):

Substantia Nigra ◽

Dopamine Depletion ◽

Substantia Nigra Hyperechogenicity

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Analysis of grey scale distribution does not disclose a typical pattern in substantia nigra hyperechogenicity

Ultraschall in der Medizin - European Journal of Ultrasound ◽

10.1055/s-0033-1354927 ◽

2013 ◽

Vol 34 (S 01) ◽

Author(s):

S Behnke ◽

S Tretbar ◽

B Kleffner ◽

W Bost ◽

M Fournelle

Keyword(s):

Substantia Nigra ◽

Typical Pattern ◽

Substantia Nigra Hyperechogenicity ◽

Grey Scale

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Substantia nigra neuromelanin magnetic resonance imaging in patients with different subtypes of Parkinson disease

Journal of Neural Transmission ◽

10.1007/s00702-020-02295-8 ◽

2021 ◽

Author(s):

Lu Wang ◽

Yayun Yan ◽

Liyao Zhang ◽

Yan Liu ◽

Ruirui Luo ◽

...

Keyword(s):

Magnetic Resonance Imaging ◽

Magnetic Resonance ◽

Substantia Nigra ◽

Parkinson Disease ◽

Clinical Symptoms ◽

Dopamine Neurons ◽

Substantia Nigra Pars Compacta ◽

Resonance Imaging ◽

Mean Values

AbstractNeuromelanin (NM) is a dark pigment that mainly exists in neurons of the substantia nigra pars compacta (SNc). In Parkinson disease (PD) patients, NM concentration decreases gradually with degeneration and necrosis of dopamine neurons, suggesting potential use as a PD biomarker. We aimed to evaluate associations between NM concentration in in vivo SN and PD progression and different motor subtypes using NM magnetic resonance imaging (NM-MRI). Fifty-four patients with idiopathic PD were enrolled. Patients were divided into groups by subtypes with different clinical symptoms: tremor dominant (TD) group and postural instability and gait difficulty (PIGD) group. Fifteen healthy age-matched volunteers were enrolled as controls. All subjects underwent clinical assessment and NM-MRI examination. PD patients showed significantly decreased contrast-to-noise ratio (CNR) values in medial and lateral SN (P < 0.05) compared to controls. CNR values in lateral SN region decreased linearly with PD progression (P = 0.001). PIGD patients showed significant decreases in CNR mean values in lateral SN compared to TD patients (P = 0.004). Diagnostic accuracy of using lateral substantia nigra (SN) in TD and PIGD groups was 79% (sensitivity 76.5%, specificity 78.6%). NM concentration in PD patients decreases gradually during disease progression and differs significantly between PD subtypes. NM may be a reliable biomarker for PD severity and subtype identification.

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Effects of Transcranial Ultrasound Stimulation on Trigeminal Blink Reflex Excitability

Brain Sciences ◽

10.3390/brainsci11050645 ◽

2021 ◽

Vol 11 (5) ◽

pp. 645

Author(s):

Andrea Guerra ◽

Edoardo Vicenzini ◽

Ettore Cioffi ◽

Donato Colella ◽

Antonio Cannavacciuolo ◽

...

Keyword(s):

Substantia Nigra ◽

Superior Colliculus ◽

Blink Reflex ◽

Transcranial Ultrasound ◽

Recovery Cycle ◽

Brain Areas ◽

Nucleus Raphe Magnus ◽

Ultrasound Stimulation ◽

Raphe Magnus ◽

Interstimulus Intervals

Recent evidence indicates that transcranial ultrasound stimulation (TUS) modulates sensorimotor cortex excitability. However, no study has assessed possible TUS effects on the excitability of deeper brain areas, such as the brainstem. In this study, we investigated whether TUS delivered on the substantia nigra, superior colliculus, and nucleus raphe magnus modulates the excitability of trigeminal blink reflex, a reliable neurophysiological technique to assess brainstem functions in humans. The recovery cycle of the trigeminal blink reflex (interstimulus intervals of 250 and 500 ms) was tested before (T0), and 3 (T1) and 30 min (T2) after TUS. The effects of substantia nigra-TUS, superior colliculus-TUS, nucleus raphe magnus-TUS and sham-TUS were assessed in separate and randomized sessions. In the superior colliculus-TUS session, the conditioned R2 area increased at T1 compared with T0, while T2 and T0 values did not differ. Results were independent of the interstimulus intervals tested and were not related to trigeminal blink reflex baseline (T0) excitability. Conversely, the conditioned R2 area was comparable at T0, T1, and T2 in the nucleus raphe magnus-TUS and substantia nigra-TUS sessions. Our findings demonstrate that the excitability of brainstem circuits, as evaluated by testing the recovery cycle of the trigeminal blink reflex, can be increased by TUS. This result may reflect the modulation of inhibitory interneurons within the superior colliculus.

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