Stroke is one of the leading causes of death in Brazil and is characterized as an extremely disabling disease, being considered one of the biggest public health problems in the country.1,2 Several factors are associated with disabilities after a stroke, such as swallowing disorders.3

Dysphagia has a high incidence in post-stroke patients, especially in its acute phase, contributing to the increase in mortality, morbidity and hospital costs.1,4,5 Studies6-8 have already identified that dysphagia tends to be highly prevalent in patients after acute stroke up to 90%, about half of whom remain with swallowing difficulties on hospital discharge.9

According to the national guidelines, during the period of hospitalization, a specialized rehabilitation team should assist post-stroke patients, aiming at early dehospitalization and avoiding or minimizing possible complications.10

Among the main clinical complications resulting from dysphagia are malnutrition, dehydration, and pulmonary complications such as aspiration pneumonia.11-14

Due to the practical need for a prognostic instrument, the safe return of oral feeding continues to be imprecise for patients with dysphagia after stroke, based mainly on the subjective experience of the speech therapist, the physician, and the assessment of broncho-aspiration risks.15-18 The difficulty in making these decisions can prolong the patient's hospitalization period, thus increasing costs for the service and risks of hospital infections.19,20

Considering that rehabilitation programs should be included in post-stroke patients in order to minimize the level of potential disability, the investigation of risk factors that were independently related to the maintenance of a severe restriction of oral intake in patients with ischemic stroke in the ER aims to identify the population that will need outpatient follow-up for swallowing rehabilitation after hospital discharge and alternative long-term feeding method indication, such as gastrostomy.

The authors conducted a prospective observational cohort study of patients with dysphagia post-acute ischemic stroke who were admitted to an Emergency Room (ER). The study protocol was approved by the Scientific and Ethic Committee of the Institution (Comitê de Ética para Análise de Projetos de Pesquisa do HCFMUSP), under the number 3.691.262. Informed consent was waived once the study was based on medical records analysis.

During the study period, 370 adult patients (> 18 years) were admitted to the Institution with stroke, of whom 264 were excluded from this study due to a lack of eligibility criteria. From the 106 eligible patients for a swallowing assessment, 72 presented severe restriction of oral intake, unresolved dysphagia with an indication of alternative feeding method at hospital outcome – patients with FOIS levels 1 to 4 (G1), and 34 patients presented no severe restriction of oral intake, improvement of dysphagia without indication of alternative feeding method at hospital outcome ‒ patients with FOIS levels 5, 6 and 7 (G2). Demographic and clinical data are presented in Table 2.

According to the intergroup comparison, differences were observed between the groups: Patients in G1 had a higher mean age, a higher incidence of previous neurological injury, and more severe strokes assessed by the National Institute of Health Stroke Scale25 (NIHSS). In addition, they underwent less intravenous thrombolysis. There was no difference between gender, stroke laterality, vascular territory, acute opercular involvement, thrombectomy, or hemorrhagic transformation.

Table 3 shows the comparison of groups according to clinical speech-language pathology variables. Patients in Group 1 had higher rates of indication of an alternative feeding method after the swallowing assessment, lower rates of indication of a mixed diet (oral diet associated with an alternative method), lower FOIS scores in the swallowing assessment, and lower FOIS scores at hospital outcomes. Group 1 also had a lower rate recommendation to remove the alternative feeding tube at the outcome and a higher rate of performing gastrostomy tube during hospitalization. No patient in Group 1 received a recommendation to remove the alternative feeding method due to the maintenance of severe impairment of oral intake, while all patients in Group 2 were able to remove the alternative method at outcome once they had an evolution of oral intake.

Table 4 shows the comparison between the groups for the clinical outcome variable. Patients in Group 2 were discharged significantly more frequently, had lower in-hospital mortality (none in this group), and lower mortality less than 2 months after hospital outcome. There was a trend towards a greater number of suspended swallowing therapy due to clinical worsening in Group 1.

Table 5 compares the groups in terms of speech-therapy data. G1 patients had a higher incidence of dysphonia, altered gag reflex, weak/ineffective cough, altered vocal production after water test, coughing with water, dysarthria, and lower level of consciousness.

Tables 6 and 7 present the results of the multivariate logistic regression model for the prediction of severe restriction of oral intake at hospital outcomes in patients with acute ischemic stroke in ER. The univariate analysis identified 10 covariates initially as potential candidates for the multivariate model at the 0.1 alpha level based on the likelihood-ratio statistic: age; previous neurological comorbidities (i.e., dementia, stroke); thrombolysis at admission; dysphonia; altered gag reflex; weak/ineffective cough; wet voice in the water test; cough in the water test; dysarthria; and altered level of consciousness.

Table 6 shows the initial results of the logistic regression model and Table 7 shows the resulting model, containing only significant covariates. This analysis indicated that increasing age and the presence of dysarthria were associated with greater odds of patients with acute ischemic stroke having maintenance of severe restriction of oral intake in the hospital outcome.

Overall, the present results indicated that patients included in the study had a mean age of 70.4 years, previous neurological impairment and NIHSS score ≥ 14. The majority of these patients (67.9%), were discharged from the hospital with severe impairment of oral intake. A few variables were independently associated with non-resolved dysphagia at hospital outcome: age; previous neurological comorbidities (i.e., dementia, stroke); thrombolysis at admission; dysphonia; altered gag reflex; weak/ineffective cough; a wet voice in the water test; cough in the water test; dysarthria; and altered level of consciousness.

The literature has documented that the most evidenced predictor of dysphagia in post-stroke patients is advanced age (over 55 years). Besides, the prevalence of swallowing disorders is higher in the presence of age-related diseases such as stroke and dementia.10,26,27 Corroborating to these studies, the present results show that 59.7% of individuals with dysphagia had previous neurological alterations related to dementia processes or previous stroke. Changes in swallowing physiology, such as loss of muscle mass, can result in loss of muscle strength and mobility. These changes can have a negative impact on swallowing efficiency and airway protection. Age-related atrophy of the soft tissues of the pharynx and larynx may also be considered a contributing factor to swallowing changes.28 Considering stroke, studies have already described that increasing age is a strong predictive factor for a stronger and faster loss of muscle activities, increasing the incidence of dysphagia and mortality.8,10,29 The present results show that both groups were composed of elderly patients but G1 had older participants, while G1 had a mean age of 72.9 years G2 had a mean age of 65.3.

Group 1 of the present study presented a high percentage (59.7%) of individuals with previous neurological alterations related to dementia processes and previous stroke. This result is similar to studies in which participants who failed dysphagia screening had as one of the main characteristics the highest previous stroke rate.30,31 In this study, the presence of a previous stroke was associated as a risk factor for dysphagia, demonstrating that the extent of the lesion may be more related. A recent meta-analysis showed that strokes are strong risk factors for the development of dementia, especially when related to the presence of multiple lesions, extensive stroke, and location in the left hemisphere.32 The literature also suggests that the existence of a previous dementia may predispose to stroke, due to neural inflammation and impairment of the integrity of the arterial walls, increasing the risk of cerebrovascular events and extensive stroke.32,33 The present results are similar to a previous study in which dementia was directly associated with more severe dysphagia.10 In these cases, the main alterations of swallowing are the oral phase (difficulty chewing and preparation of the food bolus, increased oral transit time) and the pharyngeal phase (delay in swallowing reflex, reduced laryngeal elevation, and fluid aspiration).34 This demonstrates the importance of patients with a history of dementia being prioritized for swallowing assessment and rehabilitation after stroke episodes.10

The results of this work showed patients with poor swallowing functionality had a worse outcome if compared with the non-dysphagia group. The present data collection was done in a tertiary hospital where clinical stability is usually not related to full dysphagia rehabilitation. Then, the patient may have hospital discharge with a good clinical health conditions but remain with an indication of speech therapy intervention.29 The literature shows that half of post-stroke patients still have swallowing disorders after hospital discharge. This fact can consider severe dysphagia as a predictor of higher mortality rates and unfavorable outcomes.10,29

Considering dysphagia indicators, patients that remained with severe restriction of oral intake at hospital outcome (G1) presented higher rates of indication of food alternative method after speech therapy evaluation, lower rates of indication of a mixed diet and lower FOIS scores. Group 1 also presented a lower rate of recommendation to remove alternative feeding tubes at hospital outcomes and a higher rate of gastrostomy indication during hospitalization. No patient of Group 1 was indicated to remove the alternative feeding method due to the maintenance of severe impairment of oral intake, while all patients in Group 2 were able to remove the alternative tube at hospital outcome once they had an evolution of oral ingestion. According to the literature, the need for an alternative feeding method in post-stroke patients also showed a correlation with a higher mortality rate and a worse outcome.5,35

In the present study, patients with severe restriction of oral intake presented worse scores on the NIHSS scale. The scale does not have items that directly assess swallowing, but it has parameters that help in the patient's functional clinical evaluation, such as level of consciousness, facial palsy, aphasia, dysarthria, motor, and sensory deficits. Thus, despite being a non-valid measure for the screening of dysphagia,36 NIHSS has been used in many studies as a complement to the swallowing assessment, demonstrating a good association with the presence of dysphagia and pneumonia.26 According to the literature24,37 a complete evaluation of dysphagia should include tests that assess changes in oral functions, such as changes in vocal quality, dysarthria, alteration in gag reflex, weak voluntary cough, and voice changes in water test. These tests should be brief, noninvasive, present low risk to the patient and identify the symptoms of dysphagia.10,38 The preliminary swallowing evaluation38 in the present institution evaluates all these aspects, and in thesample, it was observed that G1 presented a higher prevalence of patients with dysarthria, altered nauseous reflexes, and lowered level of consciousness.

Dysarthria affects 41% of the stroke population stroke39 and is characterized by a speech disorder due to changes in muscle control of the mechanisms involved in its production, due to facial paralysis, weakness and/or incoordination of speech muscles. Motor speech production involves muscles also recruited in swallowing physiology (lips, tongue and cheeks).34 Thus, the change in tone, mobility and sensitivity of this musculature seems to be directly related to dysphagia and dysarthria which shows the importance of an integrated approach to breathing, swallowing and phonation mechanisms in the speech therapy clinic.

It is important to highlight that both the presence of advanced age and the presence of dysarthria were independently associated with the maintenance of severe restriction of oral intake in patients with acute stroke and severe dysphagia evaluated in the ER. This data is in line with the findings reported in the literature,2,10,11,17,35 which indicate the age factor is one of the predictors of dysphagia in post-stroke patients. A previous study conducted at this same institution,10 with the same population, identified that patients aged ≥ 70 years had a higher prevalence of dysphagia. In thecurrent sample, only patients with severe restriction of oral intake identified in the swallowing assessment were included, and age ≥ 72 years was considered an independent risk factor for non-resolution of dysphagia. The prevalence of dysarthria was 91.66%, above the average found in the literature.37,39 Given the relevance of this finding, it is suggested that more studies be conducted to better explore the relationship between dysarthria and dysphagia in patients with acute ischemic stroke and in other populations.

The presentresults emphasize the importance of identifying the profile of patients who remain with severe dysphagia after hospital discharge and an alternative long-term feeding method indication, such as gastrostomy. Thus, demanding outpatient follow-up for swallowing rehabilitation, aims to reduce the risk of readmissions due to clinical complications such as dehydration, malnutrition, and aspiration pneumonia.

In conclusion, the results suggest that patients with severe restriction of oral intake after acute stroke who present dysarthria and age ≥ 70, should be prioritized for early gastrostomy indication.

Leite KKA was responsible for the data collection, analysis and interpretation of the results, and manuscript writing. Sassi FC was responsible for organizing and conducting the design of methodology, interpretation of results and writing. Perissinotti IA was responsible for the data analyses. Comerlatti was responsible for specifically critical review. Andrade CR was responsible for the research and experimental design, and contributed to manuscript preparation and revision.