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1.
BMC Bioinformatics ; 25(1): 162, 2024 Apr 24.
Article in English | MEDLINE | ID: mdl-38658834

ABSTRACT

BACKGROUND: The results of high-throughput biology ('omic') experiments provide insight into biological mechanisms but can be challenging to explore, archive and share. The scale of these challenges continues to grow as omic research volume expands and multiple analytical technologies, bioinformatic pipelines, and visualization preferences have emerged. Multiple software applications exist that support omic study exploration and/or archival. However, an opportunity remains for open-source software that can archive and present the results of omic analyses with broad accommodation of study-specific analytical approaches and visualizations with useful exploration features. RESULTS: We present OmicNavigator, an R package for the archival, visualization and interactive exploration of omic studies. OmicNavigator enables bioinformaticians to create web applications that interactively display their custom visualizations and analysis results linked with app-derived analytical tools, graphics, and tables. Studies created with OmicNavigator can be viewed within an interactive R session or hosted on a server for shared access. CONCLUSIONS: OmicNavigator can be found at https://github.com/abbvie-external/OmicNavigator.


Subject(s)
Computational Biology , Software , Computational Biology/methods , User-Computer Interface , Computer Graphics
2.
J Comp Neurol ; 529(13): 3321-3335, 2021 09.
Article in English | MEDLINE | ID: mdl-34008863

ABSTRACT

Nitrergic neurons (NNs) are inhibitory neurons capable of releasing nitric oxide (NO) that are labeled with nicotinamide adenine dinucleotide phosphate diaphorase histochemistry. The rat primary somatosensory (S1) and motor (M1) cortices are a favorable model to investigate NN populations by comparing their morphology, since these areas share the border of forepaw representation. The distribution of the Type I NN of the forepaw representation in the S1 and M1 cortices of the rat in different laminar compartments and the morphological parameters related to the cell body and dendritic arborization were measured and compared. We observed that the neuronal density in the S1 (130 NN/mm3 ) was higher than the neuronal density in the M1 (119 NN/mm3 ). Most NN neurons were multipolar (S1 with 58%; M1 with 69%), and a minority of the NN neurons were horizontal (S1 with 6%; M1 with 12%). NN found in S1 had a higher verticality index than NN found in M1, and no significant differences were observed for the other morphological parameters. We also demonstrated significant differences in most of the morphological parameters of the NN between different cortical compartments of S1 and M1. Our results indicate that the NN of the forepaw in S1 and M1 corresponds to a neuronal population, where the functionality is independent of the different types of sensory and motor processing. However, the morphological differences found between the cortical compartments of S1 and M1, as well as the higher density of NNs found in S1, indicate that the release of NO varies between the areas.


Subject(s)
Forelimb/metabolism , Motor Cortex/metabolism , Nitrergic Neurons/metabolism , Somatosensory Cortex/metabolism , Animals , Forelimb/chemistry , Forelimb/innervation , Male , Motor Cortex/chemistry , Motor Cortex/cytology , NADP/analysis , NADP/metabolism , Nitrergic Neurons/chemistry , Rats , Rats, Wistar , Somatosensory Cortex/chemistry , Somatosensory Cortex/cytology
3.
eNeuro ; 4(5)2017.
Article in English | MEDLINE | ID: mdl-28966974

ABSTRACT

Restorative therapy concepts, such as cell based therapies aim to restitute impaired neurotransmission in neurodegenerative diseases. New strategies to enhance grafted cell survival and integration are still needed to improve functional recovery. Anodal direct current stimulation (DCS) promotes neuronal activity and secretion of the trophic factor BDNF in the motor cortex. Transcranial DCS applied to the motor cortex transiently improves motor symptoms in Parkinson's disease (PD) patients. In this proof-of-concept study, we combine cell based therapy and noninvasive neuromodulation to assess whether neurotrophic support via transcranial DCS would enhance the restitution of striatal neurotransmission by fetal dopaminergic transplants in a rat Parkinson model. Transcranial DCS was applied daily for 20 min on 14 consecutive days following striatal transplantation of fetal ventral mesencephalic (fVM) cells derived from transgenic rat embryos ubiquitously expressing GFP. Anodal but not cathodal transcranial DCS significantly enhanced graft survival and dopaminergic reinnervation of the surrounding striatal tissue relative to sham stimulation. Behavioral recovery was more pronounced following anodal transcranial DCS, and behavioral effects correlated with the degree of striatal innervation. Our results suggest anodal transcranial DCS may help advance cell-based restorative therapies in neurodegenerative diseases. In particular, such an assistive approach may be beneficial for the already established cell transplantation therapy in PD.


Subject(s)
Cell Transplantation/methods , Dopaminergic Neurons/transplantation , Parkinson Disease/therapy , Transcranial Direct Current Stimulation/methods , Adrenergic Agents/toxicity , Animals , Cell Survival , Disease Models, Animal , Dopaminergic Neurons/physiology , Female , Green Fluorescent Proteins/genetics , Green Fluorescent Proteins/metabolism , Motor Activity , Oxidopamine/toxicity , Parkinson Disease/etiology , Rats , Rats, Sprague-Dawley , Recovery of Function , Tyrosine 3-Monooxygenase/metabolism
4.
PLoS One ; 10(10): e0140161, 2015.
Article in English | MEDLINE | ID: mdl-26495971

ABSTRACT

BACKGROUND: Abnormal upper arm-forearm muscle synergies after stroke are poorly understood. We investigated whether upper arm function primes paralyzed forearm muscles in chronic stroke patients after Brain-Machine Interface (BMI)-based rehabilitation. Shaping upper arm-forearm muscle synergies may support individualized motor rehabilitation strategies. METHODS: Thirty-two chronic stroke patients with no active finger extensions were randomly assigned to experimental or sham groups and underwent daily BMI training followed by physiotherapy during four weeks. BMI sessions included desynchronization of ipsilesional brain activity and a robotic orthosis to move the paretic limb (experimental group, n = 16). In the sham group (n = 16) orthosis movements were random. Motor function was evaluated with electromyography (EMG) of forearm extensors, and upper arm and hand Fugl-Meyer assessment (FMA) scores. Patients performed distinct upper arm (e.g., shoulder flexion) and hand movements (finger extensions). Forearm EMG activity significantly higher during upper arm movements as compared to finger extensions was considered facilitation of forearm EMG activity. Intraclass correlation coefficient (ICC) was used to test inter-session reliability of facilitation of forearm EMG activity. RESULTS: Facilitation of forearm EMG activity ICC ranges from 0.52 to 0.83, indicating fair to high reliability before intervention in both limbs. Facilitation of forearm muscles is higher in the paretic as compared to the healthy limb (p<0.001). Upper arm FMA scores predict facilitation of forearm muscles after intervention in both groups (significant correlations ranged from R = 0.752, p = 0.002 to R = 0.779, p = 0.001), but only in the experimental group upper arm FMA scores predict changes in facilitation of forearm muscles after intervention (R = 0.709, p = 0.002; R = 0.827, p<0.001). CONCLUSIONS: Residual upper arm motor function primes recruitment of paralyzed forearm muscles in chronic stroke patients and predicts changes in their recruitment after BMI training. This study suggests that changes in upper arm-forearm synergies contribute to stroke motor recovery, and provides candidacy guidelines for similar BMI-based clinical practice.


Subject(s)
Arm/physiopathology , Forearm/physiopathology , Muscle, Skeletal/physiopathology , Paresis/rehabilitation , Physical Therapy Modalities , Stroke Rehabilitation , Adult , Aged , Brain-Computer Interfaces , Chronic Disease , Electromyography , Female , Forearm/innervation , Hand/physiopathology , Humans , Male , Middle Aged , Movement , Muscle, Skeletal/innervation , Paresis/physiopathology , Shoulder/physiopathology , Stroke/physiopathology , Treatment Outcome
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