Your search keyword '"Rosa Maria San Segundo"' showing total 5 results

1. High-density transcranial direct current stimulation to improve upper limb motor function following stroke: study protocol for a double-blind randomized clinical trial targeting prefrontal and/or cerebellar cognitive contributions to voluntary motion

Author

Xavier Corominas-Teruel, Martina Bracco, Montserrat Fibla, Rosa Maria San Segundo, Marc Villalobos-Llaó, Cecile Gallea, Benoit Beranger, Monica Toba, Antoni Valero-Cabré, and Maria Teresa Colomina

Subjects

Stroke, Transcranial direct current stimulation, Plasticity, Neurorehabilitation, Randomized controlled trial, Medicine (General), R5-920

Abstract

Abstract Background Focal brain lesions following a stroke of the middle cerebral artery induce large-scale network disarray with a potential to impact multiple cognitive and behavioral domains. Over the last 20 years, non-invasive brain neuromodulation via electrical (tCS) stimulation has shown promise to modulate motor deficits and contribute to recovery. However, weak, inconsistent, or at times heterogeneous outcomes using these techniques have also highlighted the need for novel strategies and the assessment of their efficacy in ad hoc controlled clinical trials. Methods We here present a double-blind, sham-controlled, single-center, randomized pilot clinical trial involving participants having suffered a unilateral middle cerebral artery (MCA) stroke resulting in motor paralysis of the contralateral upper limb. Patients will undergo a 10-day regime (5 days a week for 2 consecutive weeks) of a newly designed high-definition transcranial direct current stimulation (HD-tDCS) protocol. Clinical evaluations (e.g., Fugl Meyer, NIHSS), computer-based cognitive assessments (visuo-motor adaptation and AX-CPT attention tasks), and electroencephalography (resting-state and task-evoked EEG) will be carried out at 3 time points: (I) Baseline, (II) Post-tDCS, and (III) Follow-up. The study consists of a four-arm trial comparing the impact on motor recovery of three active anodal tDCS conditions: ipsilesional DLPFC tDCS, contralesional cerebellar tDCS or combined DLPFC + contralesional cerebellar tDCS, and a sham tDCS intervention. The Fugl-Meyer Assessment for the upper extremity (FMA-UE) is selected as the primary outcome measure to quantify motor recovery. In every stimulation session, participants will receive 20 min of high-density tDCS stimulation (HD-tDCS) (up to 0.63 mA/ $${\mathrm{cm}}^{2}$$ cm 2 ) with $${\mathrm{\pi cm}}^{2}$$ π cm 2 electrodes. Electrode scalp positioning relative to the cortical surface (anodes and cathodes) and intensities are based on a biophysical optimization model of current distribution ensuring a 0.25 V/m impact at each of the chosen targets. Discussion Our trial will gauge the therapeutic potential of accumulative sessions of HD-tDCS to improve upper limb motor and cognitive dysfunctions presented by middle cerebral artery stroke patients. In parallel, we aim at characterizing changes in electroencephalographic (EEG) activity as biomarkers of clinical effects and at identifying potential interactions between tDCS impact and motor performance outcomes. Our work will enrich our mechanistic understanding on prefrontal and cerebellar contributions to motor function and its rehabilitation following brain damage. Trial registration ClinicalTrials.gov NCT05329818. April 15, 2022.

Published

2023

2. Multisensory cueing facilitates naming in aphasia

Author

Klaudia Grechuta, Belén Rubio Ballester, Rosa Espín Munné, Teresa Usabiaga Bernal, Begoña Molina Hervás, Bettina Mohr, Friedemann Pulvermüller, Rosa Maria San Segundo, and Paul F. M. J. Verschure

Subjects

Stroke, Aphasia, Lexical access, Word-finding, Multisensory cueing, Neurorehabilitation, Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Abstract

Abstract Background Impaired naming is a ubiquitous symptom in all types of aphasia, which often adversely impacts independence, quality of life, and recovery of affected individuals. Previous research has demonstrated that naming can be facilitated by phonological and semantic cueing strategies that are largely incorporated into the treatment of anomic disturbances. Beneficial effects of cueing, whereby naming becomes faster and more accurate, are often attributed to the priming mechanisms occurring within the distributed language network. Objective We proposed and explored two novel cueing techniques: (1) Silent Visuomotor Cues (SVC), which provided articulatory information of target words presented in the form of silent videos, and (2) Semantic Auditory Cues (SAC), which consisted of acoustic information semantically relevant to target words (ringing for “telephone”). Grounded in neurophysiological evidence, we hypothesized that both SVC and SAC might aid communicative effectiveness possibly by triggering activity in perceptual and semantic language regions, respectively. Methods Ten participants with chronic non-fluent aphasia were recruited for a longitudinal clinical intervention. Participants were split into dyads (i.e., five pairs of two participants) and required to engage in a turn-based peer-to-peer language game using the Rehabilitation Gaming System for aphasia (RGSa). The objective of the RGSa sessions was to practice communicative acts, such as making a request. We administered SVCs and SACs in a pseudorandomized manner at the moment when the active player selected the object to be requested from the interlocutor. For the analysis, we compared the times from selection to the reception of the desired object between cued and non-cued trials. Results Naming accuracy, as measured by a standard clinical scale, significantly improved for all stimuli at each evaluation point, including the follow-up. Moreover, the results yielded beneficial effects of both SVC and SAC cues on word naming, especially at the early intervention sessions when the exposure to the target lexicon was infrequent. Conclusions This study supports the efficacy of the proposed cueing strategies which could be integrated into the clinic or mobile technology to aid naming even at the chronic stages of aphasia. These findings are consistent with sensorimotor accounts of language processing, suggesting a coupling between language, motor, and semantic brain regions. Trial registration NCT02928822 . Registered 30 May 2016.

Published

2020

3. Spanish National Registry of Major Osteoporotic Fractures (REFRA) seen at Fracture Liaison Services (FLS): objectives and quality standards

Author

Maria Jose, Montoya-Garcia, Cristina, Carbonell-Abella, Jose Manuel, Cancio-Trujillo, Maria Jesus, Moro-Álvarez, Jesus, Mora-Fernández, Rafael, Izquierdo-Avino, Xavier, Nogues, Manuel, Mesa-Ramos, Rosa Maria, San Segundo-Mozo, Elena, Calero-Muñoz, Manuel, Naves-Diaz, F Jesus, Olmo-Montes, Enric, Duaso, and Javier, Rodríguez

Subjects

Bone Density Conservation Agents, Adherence, Fracture Liaison Services, Humans, Osteoporosis, Orthopedics and Sports Medicine, Prospective Studies, Registries, Middle Aged, Fragility fractures, Osteoporotic Fractures, Aged

Abstract

Summary REFRA-FLS is a new registry in Spain aimed at identifying individuals over 50 years of age with a fragility fracture. Using this registry, we found hip fracture is the most prevalent fracture. Treatment for osteoporosis was 87.7%, with 65.3% adherence. REFRA-FLS provides fundamental data in the study of fragility fractures. Purpose Fragility fractures are a growing public health concern in modern-aged societies. Fracture Liaison Services (FLS) have been shown to successfully lower rates of secondary fractures. A new registry (REFRA-FLS) has been created to monitor quality indicators of FLS units in Spain and to explore the occurrence and characteristic of fragility fractures identified by these centers. Methods We conducted a prospective cohort study based on fragility fractures recorded in the REFRA-FLS registry. Participants were individuals 50 years or above who suffered a low energy fragility fracture identified by the 10 participating FLS units during the study period. The type of FLS unit, the characteristics of the individuals at baseline, along with patient outcomes as quality indicators among those who completed 1 year of follow-up were analyzed. Results A total of 2965 patients and 3067 fragility fractures were identified, and the most frequent locations were hip (n = 1709, 55.7%) and spine (n = 492, 16.0%). A total of 43 refractures (4.5%) and 46 deaths (4.9%) were observed among 948 individuals in the follow-up analyses. Time from fracture to evaluation was less than 3 months in 76.7% of individuals. Osteoporosis treatment was prescribed in 87.7%, and adherence was 65.3% in Morisky–Green test. Conclusion Our results provide a comprehensive picture of fragility fractures identified in FLS units from Spain. Overall, quality indicators are satisfactory although a much higher use of DXA would be desirable. As the registry grows with the incorporation of new FLS units and longer follow-up, incoming analyses will provide valuable insight.

Published

2022

4. Transcranial direct current stimulation for gait recovery following stroke: A systematic review of current literature and beyond

Author

Xavier Corominas-Teruel, Rosa María San Segundo Mozo, Montserrat Fibla Simó, Maria Teresa Colomina Fosch, and Antoni Valero-Cabré

Subjects

non-invasive brain stimulation (NIBS), transcranial direct cortical stimulation (tDCS), stroke, neurorehabilitation, neuromodulation, gait rehabilitation, Neurology. Diseases of the nervous system, RC346-429

Abstract

BackgroundOver the last decade, transcranial direct current stimulation (tDCS) has set promise contributing to post-stroke gait rehabilitation. Even so, results are still inconsistent due to low sample size, heterogeneity of samples, and tDCS design differences preventing comparability. Nonetheless, updated knowledge in post-stroke neurophysiology and stimulation technologies opens up opportunities to massively improve treatments.ObjectiveThe current systematic review aims to summarize the current state-of-the-art on the effects of tDCS applied to stroke subjects for gait rehabilitation, discuss tDCS strategies factoring individual subject profiles, and highlight new promising strategies.MethodsMEDLINE, SCOPUS, CENTRAL, and CINAHL were searched for stroke randomized clinical trials using tDCS for the recovery of gait before 7 February 2022. In order to provide statistical support to the current review, we analyzed the achieved effect sizes and performed statistical comparisons.ResultsA total of 24 records were finally included in our review, totaling n = 651 subjects. Detailed analyses revealed n = 4 (17%) studies with large effect sizes (≥0.8), n = 6 (25%) studies with medium ones (≥0.5), and n = 6 (25%) studies yielding low effects sizes (≤ 0.2). Statistically significant negative correlations (rho = −0.65, p = 0.04) and differences (p = 0.03) argued in favor of tDCS interventions in the sub-acute phase. Finally, significant differences (p = 0.03) were argued in favor of a bifocal stimulation montage (anodal M1 ipsilesional and cathodal M1 contralesional) with respect to anodal ipsilesional M1.ConclusionOur systematic review highlights the potential of tDCS to contribute to gait recovery following stroke, although also the urgent need to improve current stimulation strategies and subject-customized interventions considering stroke severity, type or time-course, and the use of network-based multifocal stimulation approaches guided by computational biophysical modeling.Systematic review registrationPROSPERO: CRD42021256347.

Published

2022

5. ASSESSING IMPROVEMENTS OF MOTOR FUNCTION IN STROKE PATIENTS WITH DUAL-SITE HIGH DENSITY TDCS ON PREFRONTAL AND CEREBELLAR SYSTEMS: A DOUBLE-BLIND RANDOMIZED CLINICAL TRIAL.

Author

Marc Villalobos-Llaó, Xavier Corominas-Teruel, Antoni Valero-Cabré, Rosa-Maria San Segundo, Maria Colomina, and Montserrat Fibla

Subjects

Neurosciences. Biological psychiatry. Neuropsychiatry, RC321-571

Published

2023