Hemodynamic signal changes during volitional swallowing in dysphagia patients with different unilateral hemispheric stroke and brainstem stroke: A near-infrared spectroscopy study.

BACKGROUND AND OBJECTIVES: Strokes will result in decreased in cortical excitability and changed in the balance between the affected and unaffected hemispheres. Previous studies have focused on cortical changes in healthy subjects during swallowing, while they remain unknown in patients with stroke at different locations. Thus, the purpose of this study was to research cortical activation patterns of swallowing in patients with dysphagia and healthy subjects by the functional near-infrared spectroscopy (fNIRS). We also focus on the comparability of brain activation areas associated with swallowing between patients with different stroke locations and healthy subjects. METHODS: total of 104 participants were invited to our study, involving 86 patients with dysphagic unilateral hemispheric stroke and 18 age and sex matched healthy controls. The stroke patients were categorized into patients with left unilateral stroke lesions (n = 30), patients with right unilateral stroke lesions (n = 32) and patients with brainstem injury (n = 24) according to different stroke sites. All patients underwent a series of clinical swallowing function assessments, such as the Fiberoptic endoscopic dysphagia severity scale (FEDSS), penetration-aspiration scale (PAS) of Rosenbek, the gugging swallowing screen (GUSS) and the functional oral Intake scale (FOIS) after informed consent has been signed. All participants received the fNIRS system assessment. RESULTS: The results showed that extensive areas of the cerebral cortex activated during the swallowing tasks in healthy participants (P < FDR 0.05). For patients with left unilateral stroke lesions, the HbO concentration were strongest over the right hemisphere (P < FDR 0.05). In addition, a less severe activation was also observed in the left hemisphere. Comparable to patients with left unilateral stroke lesions, the strongest activation during swallowing task were found in the left hemisphere in patients with right unilateral stroke lesions (P < FDR 0.05). Similarly, the right hemisphere also has activated less. In contrast, patients with brain stem injury showed more bilaterally activation patterns. CONCLUSION: Our finding states that cortical activation areas differ between patients with different stroke locations and healthy subjects during swallowing. There was a more bilateral activation in healthy participants and patients with lesions in the brainstem while more cortical activation in unaffected hemisphere in patients with unilateral hemispheric stroke. It also provides a basis for the future treatment of dysphagia after stroke.

Effect of functional electrical stimulation plus body weight-supported treadmill training for gait rehabilitation in patients with poststroke: a retrospective case-matched study.

BACKGROUND: Functional electrical stimulation (FES) plus body weight-supported treadmill training (BWSTT) provide effective gait training for poststroke patients with abnormal gait. These features promote a successful active motor relearning of ambulation in stroke survivors. AIM: This is a retrospective study to assess the effect of FES plus BWSTT for gait rehabilitation in patients poststroke. DESIGN: A retrospective case-matched study. SETTING: Participants were recruited from a rehabilitation department in an acute university-affiliated hospital POPULATION: Ninety patients poststroke from Yue Bei People's Hospital underwent BWSTT (A: control group) were compared to an equal number of cross-matched patients who received FES plus BWSTT (B: FES plus BWSTT group). METHODS: While B group received FES for 45 minutes plus BSWTT for 30 minutes in the program, group A received time-matched BWSTT alone. The walking speed, step length, step cadence, Fugl-Meyer Lower-Limb Scale (LL-FMA), composite spasticity scale (CSS), 10-Meter Walk Test (10MWT), Tinetti Balance Test (TBT) and nerve physiology testing were collected before and after intervention. RESULTS: One hundred and eighty patients with poststroke abnormal gait were chosen. There were significant differences in walking speed, step length, step cadence, LL-FMA, CSS, TBT, and 10MWT between baseline and postintervention (P<0.05). There were significant differences in walking speed, step length, step cadence, LL-FMA, CSS, TBT, and 10MWT between two groups at the end of the eighth week (P<0.05), but not at baseline (P>0.05). In comparison with group A, the peak of somatosensory evoked potential (SEP) and motor evoked potential (MEP) amplitude increased, the latency was shortened, and the conduction velocity of sensory nerve (SCV) and motor nerve (MCV) was significantly increased in the group B (P<0.05). No adverse events occurred during the study. CONCLUSIONS: This study suggests that FES plus BWSTT could be more effective than BWSTT alone in the improvement of gait, balance, spasticity, and function of the lower limb in patients poststroke. CLINICAL REHABILITATION IMPACT: Introduce effective rehabilitation strategies for poststroke patients with abnormal gait.