Category: Uncategorized

Online Bayesian optimization of vagus nerve stimulation

J Neural Eng. 2024 Mar 13. doi: 10.1088/1741-2552/ad33ae. Online ahead of print.

ABSTRACT

In bioelectronic medicine, neuromodulation therapies induce neural signals to the brain or organs, modifying their function. Stimulation devices capable of triggering exogenous neural signals using electrical waveforms require a complex and multi-dimensional parameter space to control such waveforms. Determining the best combination of parameters (waveform optimization or dosing) for treating a particular patient’s illness is therefore challenging. Comprehensive parameter searching for an optimal stimulation effect is often infeasible in a clinical setting due to the size of the parameter space. Restricting this space, however, may lead to suboptimal therapeutic results, reduced responder rates, and adverse effects.

Approach. As an alternative to a full parameter search, we present a flexible machine learning, data acquisition, and processing framework for optimizing neural stimulation parameters, requiring as few steps as possible using Bayesian optimization. This optimization builds a model of the neural and physiological responses to stimulations, enabling it to optimize stimulation parameters and provide estimates of the accuracy of the response model. The vagus nerve innervates, among other thoracic and visceral organs, the heart, thus controlling heart rate, making it an ideal candidate for demonstrating the effectiveness of our approach.

Main results. The efficacy of our optimization approach was first evaluated on simulated neural responses, then applied to vagus nerve stimulation intraoperatively in porcine subjects. Optimization converged quickly on parameters achieving target heart rates and optimizing neural B-fiber activations despite high intersubject variability. 

Significance. An optimized stimulation waveform was achieved in real time with far fewer stimulations than required by alternative optimization strategies, thus minimizing exposure to side effects. Uncertainty estimates helped avoiding stimulations outside a safe range. Our approach shows that a complex set of neural stimulation parameters can be optimized in real-time for a patient to achieve a personalized precision dosing. &#xD.

PMID:38479016 | DOI:10.1088/1741-2552/ad33ae

Cervical sympathetic schwannoma simulating a thyroid nodule

Med J Malaysia. 2002 Jun;57(2):218-20.

ABSTRACT

Schwannomas are rare tumours arising from peripheral nerve linings. A case of a schwannoma arising from cervical sympathetic chain is presented. The clinical presentation was that of a right solitary thyroid nodule. Intra-operatively, a 3 x 3 cm encapsulated lesion was seen arising posterior to the vagas nerve and attached to the cervical sympathetic trunk. The lesion was excised together with part of the nerve. Post-operatively, the patient developed Horner’s syndrome that persisted. Unitil 2000, less that 50 cased of cervical sympathetic schwannoma have been described in the Englidh literature. A brief description of the pathology, presentation, diagnosis and treatment of this condition is presented.

PMID:24326656