Quality-of-life self-assessment, risk of dysphagia, and swallowing disorders in COVID-19 inpatients

Barros, Renata Mendonça de; Moreti, Felipe; Menezes, Aline Medeiros Gonçalves de; Ferreira, Fernanda de Lima; Fonseca, Jaqueline Drigo da; Souza, Tairine de Santana; Melo, Valéria Cardoso de

doi:10.1590/1982-0216/20222467422

ABSTRACT

Purpose:

to identify the impact of swallowing changes and dysphagia complaints on quality-of-life and eating self-assessments of COVID-19 inpatients.

Methods:

the study comprised 54 COVID-19 inpatients above 18 years old, whose swallowing was clinically assessed by a speech-language-hearing therapist. They were classified regarding food intake (with the FOIS scale) and degree of dysphagia. They also filled out a sample characterization questionnaire and the SWAL-QOL and EAT-10 protocols.

Results:

the respiratory condition led to worse quality-of-life self-assessment Fatigue results, oral food intake and dysphagia severity classifications. Females had worse quality-of-life self-assessment Burden and Food selection scores. Swallowing complaints were associated with worse eating self-assessments. Patients at risk of dysphagia had worse quality-of-life self-assessments in five out of the 11 domains, worse oral food intake levels, and worse dysphagia severity.

Conclusion:

COVID-19 inpatients commonly have swallowing complaints and are at risk of dysphagia, with worse quality-of-life self-assessment, lower oral food intake classification, and worse dysphagia severity rating.

Keywords:
Deglutition Disorders; COVID-19; Quality of Life; Diet; Surveys and Questionnaires; Hospitalization

RESUMO

Objetivos:

identificar o impacto de alterações na deglutição e queixa de disfagia na autoavaliação da qualidade de vida e na autoavaliação da alimentação de pacientes internados com COVID-19.

Métodos:

participaram do estudo 54 indivíduos acima de 18 anos com COVID-19 internados, submetidos à avaliação clínica da deglutição por fonoaudiólogo, classificados em relação à ingestão alimentar pela escala FOIS e grau da disfagia, que preencheram um questionário de caracterização da amostra e os protocolos SWAL-QOL e EAT-10.

Resultados:

a condição respiratória determinou piores resultados na autoavaliação da qualidade de vida no domínio Fadiga, na definição da ingesta de alimentos via oral e na classificação da gravidade da disfagia. Indivíduos do gênero feminino apresentaram pior autoavaliação da qualidade de vida nos domínios Deglutição como um fardo e Seleção do alimento. Houve associação entre queixa de deglutição e pior autoavaliação da alimentação. Pacientes em risco para disfagia apresentaram pior autoavaliação da qualidade de vida em cinco dos 11 domínios, pior nível de ingesta de alimentos via oral e pior gravidade da disfagia.

Conclusão:

pacientes internados com COVID-19 comumente apresentam queixas de deglutição e encontram-se em risco para disfagia, apresentando pior autoavaliação da qualidade de vida, menor nível em classificação da escala de ingesta de alimentos via oral e pior classificação da gravidade da disfagia.

Descritores:
Transtornos de Deglutição; COVID-19; Qualidade de Vida; Dieta; Inquéritos e Questionários; Hospitalização

Introduction

The pandemic caused by the coronavirus, named COVID-19, began in the city of Wuhan, China, in December 2019, leading to a dangerous and deadly worldwide public health disaster¹1. Madabhavi I, Sarkar M, Kadakol N. COVID-19: a review. Monaldi Arch Chest Dis. 2020;90(2):248-58.. COVID-19, which causes the severe acute respiratory syndrome, has wide-ranging symptom severity²2. Huang C, Wang Y, Li X, Ren L, Zhao J, Hu Y et al. Clinical features of patients infected with 2019 novel coronavirus in Wuhan, China. Lancet. 2020;395(10223):497-506., from mild influenza-like conditions to severe pneumonia³3. Lima CMAO. Informações sobre o novo coronavírus (COVID-19). Radiol Bras. 2020;53(2):V-VI.. These symptoms may require hospitalization, sometimes in intensive care units²2. Huang C, Wang Y, Li X, Ren L, Zhao J, Hu Y et al. Clinical features of patients infected with 2019 novel coronavirus in Wuhan, China. Lancet. 2020;395(10223):497-506.^,⁴4. Richardson S, Hirsch JS, Narasimhan M, Crawford JM, McGinn T, Davidson KW et al. Presenting characteristics, comorbidities, and outcomes among 5700 patients hospitalized With COVID-19 in the New York city area. JAMA. 2020;323(20):2052-9..

Individuals with COVID-19 usually develop signs and symptoms caused by mild respiratory problems and persistent fever on average 5 to 6 days after infection (average incubation time: 5 to 6 days; interval: 1 to 14 days)³3. Lima CMAO. Informações sobre o novo coronavírus (COVID-19). Radiol Bras. 2020;53(2):V-VI.. A recent study of 55,924 confirmed COVID-19 cases showed that the most common symptoms are fever (87.9%), dry cough (67.7%), fatigue (38.1%), phlegm (33.4%), dyspnea (18.6%), sore throat (13.9%), headache (13.6%), myalgia or arthralgia (14.8%), chills (11.4%), nausea or vomits (5%), nasal congestion (4.8%), diarrhea (3.7%), hemoptysis (0.9%), and conjunctival congestion (0.8%)⁵5. Report of the WHO-China Joint Mission on Coronavirus Disease 2019 (COVID-19). [accessed 2022 apr 26]. Available at: https://www.who.int/docs/default-source/coronaviruse/who-china-joint-mission-on-covid-19-final-report.pdf.
https://www.who.int/docs/default-source/... .

COVID-19 symptom severity is wide-ranging²2. Huang C, Wang Y, Li X, Ren L, Zhao J, Hu Y et al. Clinical features of patients infected with 2019 novel coronavirus in Wuhan, China. Lancet. 2020;395(10223):497-506., and prolonged length of hospital stay can increase these patients’ risk of undesired outcomes²2. Huang C, Wang Y, Li X, Ren L, Zhao J, Hu Y et al. Clinical features of patients infected with 2019 novel coronavirus in Wuhan, China. Lancet. 2020;395(10223):497-506.^,⁴4. Richardson S, Hirsch JS, Narasimhan M, Crawford JM, McGinn T, Davidson KW et al. Presenting characteristics, comorbidities, and outcomes among 5700 patients hospitalized With COVID-19 in the New York city area. JAMA. 2020;323(20):2052-9.^,⁶6. Martins M. Uso de medidas de comorbidades para predição de risco de óbito em pacientes brasileiros hospitalizados. Rev Saúde Pública. 2010;44(3):1-9.. Risk is a multidimensional concept encompassing various characteristics of patients, such as age, sex, clinical instability, main diagnosis, and so forth⁶6. Martins M. Uso de medidas de comorbidades para predição de risco de óbito em pacientes brasileiros hospitalizados. Rev Saúde Pública. 2010;44(3):1-9.^,⁷7. Iezzoni LI. Risk adjustment for measuring health care outcomes. 3. ed. Ann Arbor: Health Administration; 2003.. Hospitalization increases the incidence of risks of oropharyngeal dysphagia⁸8. Bassi D, Furkim AM, Silva CA, Coelho MS, Rolim MR, Alencar ML et al. Identification of risk groups for oropharyngeal dysphagia in hospitalized patients in a university hospital. CoDAS. 2014;26(1):17-27..

A recent study of 2,465 university hospital inpatients showed a risk of dysphagia in 7.8% of them. They had been recruited through EAT-10⁹9. Souza CLM, Guimarães MF, Penna LM, Pereira ALC, Nunes JA, Azevedo EHM. Screening of the risk of dysphagia in inpatients at a university hospital. Distúrb. Comun. 2020;32(2):277-84. screening, an instrument also described in the literature for inclusion in the standard tests to screen swallowing and risk of dysphagia in COVID-19 patients¹⁰10. Aoyagi Y, Inamoto Y, Shibata S, Kagaya H, Otaka Y, Saitoh E. Clinical manifestation, evaluation, and rehabilitative strategy of dysphagia associated with COVID-19. Am J Phys Med Rehabil. 2021;100(5):424-31..

Swallowing changes are among the greatly relevant physical and emotional conditions of patients diagnosed with COVID-19 infection. Dysphagia is a symptom that may be related to aspiration, pneumonia, malnutrition, prolonged length of hospital stay, and risk of death¹¹11. Skoretz S, Flowers H, Martino R. The incidence of dysphagia following endotracheal intubation: a systematic review. Chest. 2010;137(3):665-73.

12. Macht M, Wimbish T, Clark BJ, Benson AB, Burnham EL, Williams A et al. Postextubation dysphagia is persistent and associated with poor outcomes in survivors of critical illness. Crit Care. 2011;15(5):R231.

13. Macht M, King CJ, Wimbish T, Clark BJ, Benson AB, Burnham EL et al. Postextubation dysphagia is associated with longer hospitalization in survivors of critical illness with neurologic impairment. Crit Care. 2013;17(3):R119.^-¹⁴14. Schefold JC, Berger D, Zürcher P, Lensch M, Perren A, Jakob SM et al. Dysphagia in mechanically ventilated ICU patients (DYnAMICS): a prospective observational trial. Crit Care Med. 2017;45(12):2061-9..

Many patients recover normal or functional swallowing function after intubation and tracheostomy with consequent decannulation, effectively responding to speech-language-hearing rehabilitation¹⁵15. Dawson C, Capewell R, Ellis S, Matthews S, Adamson S, Wood M et al. Dysphagia presentation and management following COVID-19: an acute care tertiary centre experience. J Laryngol Otol. 2020;10:1-6. Epub ahead of print.. Swallowing changes inevitably influence the patient's quality of life (QOL) as well¹⁶16. Fernández-Ruiz VE, Paredes-Ibáñez R, Armero-Barranco D, Sánchez-Romera JF, Ferrer M. Analysis of quality of life and nutritional status in elderly patients with dysphagia in order to prevent hospital admissions in a COVID-19 pandemic. Life (Basel). 2020;11(1):22., with the possibility of a significant and negative correlation between QOL and dysphagia severity¹⁷17. Kim DY, Park HS, Park SW, Kim JH. The impact of dysphagia on quality of life in stroke patients. Medicine. 2020;99(34):e21795. in COVID-19 inpatients.

Hence, the overall aim of this research was to identify the impact of swallowing changes and dysphagia complaints in QOL self-assessment and eating self-assessment by patients hospitalized due to COVID-19 infection. The secondary objective was to verify the influence of the respiratory condition, sex, and age on COVID-19 patients’ swallowing and QOL.

Methods

This research was approved by the Research Ethics Committee of Faculdade de Medicina do ABC \ Fundação do ABC (FMABC), Brazil, under evaluation report no. 4.991.692, of September 23, 2021. All individuals involved in the research signed an informed consent form.

Sample and Inclusion and Exclusion Criteria

A cross-sectional quantitative study was conducted in a convenience sample of inpatients that met the study inclusion (adult patients with a confirmed COVID-19 diagnosis, hospitalized in the institution’s hospital units) and exclusion criteria (patients in orotracheal intubation at the time of collection; with neurological, psychological, or psychiatric changes that prevented self-assessment instruments from being adequately administered; under 18 years old; with anatomical and/or functional diseases and/or sequelae that previously interfered with the swallowing dynamics, regardless of the COVID-19 diagnosis). Data were collected between October 2021 and January 2022.

Thus, the study included 54 adult inpatients above 18 years old with a confirmed diagnosis of COVID-19 infection.

Procedures

Individuals had their swallowing clinically assessed by a speech-language-hearing therapist as part of the routine inpatient care. The assessment firstly addressed the oral sensory-motor system, then the swallowing of saliva and foods in different consistencies (thin liquid and pureed and solid food), preferably self-served, but helped by the speech-language-hearing therapists when necessary. The patients’ cervical auscultation, oximetry measures, and clinical signs concluded the clinical swallowing assessment, confirming whether they had dysphagia and its degree classification (mild, moderate, or severe), and suggesting and defining the safest feeding route. After the clinical swallowing assessment, the patients filled out the following instruments in the company of the assessing speech-language-hearing therapist:

1.Sample characterization and identification questionnaire: name initials, age, date of birth, sex, confirmed medical diagnosis of COVID-19, respiratory condition at data collection (room air, oxygen catheter, Venturi mask, non-rebreather mask, or high-flow catheter), and the presence or absence of swallowing complaints.

2. Quality of Life in Swallowing Disorders (SWAL-QOL)¹⁸18. McHorney CA, Robbins J, Lomax K, Rosenbek JC, Chignell K, Kramer AE et al. The SWAL-QOL and SWAL-CARE outcomes tool for orofaryngeal dysphagia in adults: III - Documentation of reliability and validity. Dysphagia. 2002;17(2):97-114.^,¹⁹19. Portas JG. Validação para a língua portuguesa-brasileira dos questionários: qualidade de vida em disfagia (SWAL-QOL) e satisfação do paciente e qualidade do cuidado no tratamento da disfagia (SWAL-CARE) [dissertation]. São Paulo (SP): Fundação Antônio Prudente, Mestrado em Ciências; 2009.: dysphagia-related QOL self-assessment protocol with 44 items distributed into 11 domains: Burden, Eating desire, Eating duration, Symptom frequency, Food selection, Communication, Fear, Mental health, Social, Sleep, and Fatigue. The score in each domain ranges from 0 to 100 - the higher the score, the better the dysphagia-related QOL in that domain.

3. Eating Assessment Tool (EAT-10)²⁰20. Belafsky PC, Mouadeb DA, Rees CJ, Pryor JC, Postma GN, Leonard RJ et al. Validity and reliability of the Eating Assessment Tool (EAT-10). Ann Otol Rhinol Laryngol. 2008;117(2):919-24.^,²¹21. Gonçalves MIR, Remaili CB, Behlau M. Cross-cultural adaptation of the Brazilian version of the Eating Assessment Tool - EAT-10. CoDAS. 2013;25(6):601-4.: protocol with 10 questions and a total score ranging from 0 to 40 points. The cutoff score in the instrument is 3 points²¹21. Gonçalves MIR, Remaili CB, Behlau M. Cross-cultural adaptation of the Brazilian version of the Eating Assessment Tool - EAT-10. CoDAS. 2013;25(6):601-4. - scores equal to or higher than the cutoff indicating individuals at risk of dysphagia²¹21. Gonçalves MIR, Remaili CB, Behlau M. Cross-cultural adaptation of the Brazilian version of the Eating Assessment Tool - EAT-10. CoDAS. 2013;25(6):601-4..

After the clinical swallowing assessment was finished and the abovementioned questionnaires were filled out, the speech-language-hearing therapist classified food ingestion and swallowing changes:

4. Functional Oral Intake Scale (FOIS)²²22. Crary MA, Mann GD, Groher ME. Initial psychometric assessment of a functional oral intake scale for dysphagia in stroke patients. Arch Phys Med Rehabil. 2005;86(8):1516-20.: this ordinal scale reflects functional oral ingestion in patients with dysphagia on seven levels, namely: level 1: Nothing by mouth; level 2: Tube dependent with minimal attempts of food or liquid; level 3: Tube dependent with consistent oral intake of food or liquid; level 4: Total oral diet of a single consistency; level 5: Total oral diet with multiple consistencies, but requiring special preparation or compensations; level 6: Total oral diet with multiple consistencies without special preparation, but with specific food limitations; level 7: Total oral diet with no restrictions.

5. Swallowing/dysphagia classification²³23. Silva RG. Disfagia orofaríngea pós-acidente vascular encefálico. In: Ferreira LP, Belfi-Lopes DM, Limonge SCO, editors. Tratado de Fonoaudiologia. São Paulo: Roca, 2004. p.354-69.: normal/functional swallowing (no swallowing changes), mild dysphagia (abnormal lip sphincter, tongue incoordination, delayed triggering of swallowing reflex, absence of coughs, no sharp decrease in laryngeal elevation, no change in voice quality after swallowing, and no change in cervical auscultation), moderate dysphagia (abnormal lip sphincter, tongue incoordination, delayed or absent swallowing reflex, absence of coughs, presence of coughs before, during, or after swallows, decreased laryngeal elevation, changes in voice quality after swallowing, and changes in cervical auscultation), or severe dysphagia (delayed or absent swallowing reflex, decreased laryngeal elevation, absence of coughs, presence of coughs before, during, or after swallows, changes in voice quality after swallowing, evident respiratory changes, incomplete swallowing, and changes in cervical auscultation). The analyses in this study considered the following values: 0 for normal/functional swallowing, 1 for mild dysphagia, 2 for moderate dysphagia, and 3 for severe dysphagia.

Data Analysis

Descriptive and inferential data analyses were performed in SPSS 25.0. The significance level was set at 5% in inferential analyses.

The measures of central tendency (mean and median), variability (standard deviation), and position (minimum, maximum, and quartiles 1 and 3) of the quantitative variables were calculated for descriptive analyses. The absolute and relative percentage frequencies of the qualitative variables were calculated for descriptive analyses. The normality of the quantitative variables was analyzed with the Shapiro-Wilk test, and they were found to be non-normal.

The Mann-Whitney test was used in inferential analysis to compare non-normal quantitative variables and nominal qualitative variables between two independent groups. The Kruskal-Wallis test was used in inferential analysis to compare non-normal quantitative variables in relation to multiple independent groups. In the case of statistical differences in the Kruskal-Wallis test, a pairwise comparison was performed and significance values were adjusted with Bonferroni multiple-test correction. The Pearson’s chi-square test was used to associate nominal two-category qualitative variables in the inferential analysis. The Spearman’s correlation test was used to correlate non-normal quantitative and ordinal qualitative variables.

Results

The study comprised 54 inpatients with COVID-19 infection, aged 22 to 86 years, with a mean of 53 years and 4 months; 20 were females (37.04%), and 34 were males (62.96%). Most patients’ respiratory conditions required supplemental oxygen (n = 45; 83.33%), mostly with non-rebreather masks (n = 24; 44.44%) and oxygen catheters (n = 21; 38.89%). Most patients had swallowing complaints (n = 44; 81.48%).

The worst means in the 11 SWAL-QOL domains occurred in Sleep (57.18), Eating duration (61.81), and Fatigue (70.06), whereas the best means were in Social (96.20), Communication (90.97), and Symptom frequency (90.64). The mean EAT-10 score was 4.24 points - 61.11% were above the 3-point cutoff score for the risk of dysphagia. The mean FOIS score was 5.28, which is between levels 5 (Total oral diet with multiple consistencies, but requiring special preparation or compensations) and 6 (Total oral diet with multiple consistencies without special preparation, but with specific food limitations). The mean dysphagia classification score was 0.98, which is between 0 (normal/functional swallowing) and 1 (mild dysphagia).

Table 1 shows that dysphagia classification was negatively correlated with SWAL-QOL Burden and Mental health domains and with FOIS classification level and positively correlated with EAT-10 scores. FOIS classification level was negatively correlated with SWAL-QOL Eating desire domain and EAT-10 score and positively correlated with SWAL-QOL Mental health and Fatigue domains. EAT-10 score was negatively correlated with SWAL-QOL Burden, Symptom frequency, Fear, Mental health, Sleep, and Fatigue domains.

As for SWAL-QOL domains, Fatigue was positively correlated with Symptom frequency, Fear, Mental health, and Sleep; Sleep was negatively correlated with Eating duration; Social was positively correlated with Fear; Mental health was positively correlated with Burden, Symptom frequency, Food selection, and Fear; Fear and Communication were positively correlated with Symptom frequency; Food selection and Symptom frequency were positively correlated with Burden; and Eating duration and Eating desire were positively correlated.

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Table 1:
Correlation between the Quality of Life in Swallowing Disorders Protocol, the Eating Assessment Tool, the Functional Oral Intake Scale, and dysphagia classification in COVID-19 inpatients

COVID-19 inpatients’ ages were not correlated with SWAL-QOL domains, EAT-10, FOIS, or dysphagia classification. As for their sex, females had lower mean scores than males in SWAL-QOL Burden (females = 58.13, males = 82.72; p = 0.018) and Food selection domains (females = 70.75, males = 90.81; p = 0.003).

Table 2 shows a difference in SWAL-QOL Fatigue domain, FOIS, and dysphagia classification in relation to the current respiratory condition in COVID-19 inpatients. The post hoc analysis showed that patients whose respiratory condition required oxygen catheters had significantly higher SWAL-QOL Fatigue scores than those using non-rebreather masks. Regarding FOIS, patients breathing room air had significantly higher scores than those using non-rebreather masks or oxygen catheters. As for dysphagia classification, patients breathing room air had significantly lower classifications than those using non-rebreather masks or oxygen catheters.

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Table 2:
Comparison of the Quality of Life in Swallowing Disorders Protocol, the Eating Assessment Tool, the Functional Oral Intake Scale, and dysphagia classification regarding the current respiratory condition in COVID-19 inpatients

COVID-19 inpatients with swallowing complaints had lower SWAL-QOL Mental health scores, lower FOIS levels, higher EAT-10 scores, and more severe dysphagia classifications than those with no swallowing complaints, as shown in Table 3.

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Table 3:
Comparison of the Quality of Life in Swallowing Disorders Protocol, the Eating Assessment Tool, the Functional Oral Intake Scale, and dysphagia classification regarding swallowing complaints in COVID-19 inpatients

In EAT-10 classification, COVID-19 inpatients’ results were more frequently above the 3-point cutoff score. Hence, almost two thirds of assessed patients were at risk for dysphagia, with no differences in EAT-10 regarding age.

As shown in Table 4, swallowing complaints were correlated with EAT-10 classification based on the 3-point cutoff - COVID-19 inpatients with swallowing complaints scored higher.

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Table 4:
Association of sex, current respiratory condition, and swallowing complaint with the Eating Assessment Tool classification in COVID-19 inpatients

COVID-19 inpatients whose EAT-10 scores were above the 3-point cutoff had lower scores in the following five out of the 11 SWAL-QOL domains: Burden, Symptom frequency, Mental health, Sleep, and Fatigue. They also had lower FOIS levels and higher dysphagia classification levels, as shown in Table 5.

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Table 5:
Comparison of the Quality of Life in Swallowing Disorders Protocol, the Functional Oral Intake Scale, and dysphagia classification regarding the Eating Assessment Tool classification in COVID-19 inpatients

Discussion

Critically ill COVID-19 patients had a high incidence of dysphagia, aggravated by respiratory discomfort, neurological complications, and respiratory impairments, which hinder breathing-swallowing-coughing coordination²⁴24. Printza A, Tedla M, Frajkova Z, Sapalidis K, Triaridis S. Dysphagia severity and management in patients with COVID-19. Curr Health Sci J. 2021;47(2):147-56..

Most inpatients in this study were males (62.96%), which corroborates the findings in other pieces of research on the epidemiological and clinical profile of COVID-19 patients⁴4. Richardson S, Hirsch JS, Narasimhan M, Crawford JM, McGinn T, Davidson KW et al. Presenting characteristics, comorbidities, and outcomes among 5700 patients hospitalized With COVID-19 in the New York city area. JAMA. 2020;323(20):2052-9.^,²⁵25. Oliveira BC, Santos FC, Silva HGN, Castro IO, Franco VSP, Souza e Silva C et al. Epidemiological and clinical profile of patients with Covid-19 in an Intensive Care Unit of a public hospital in Teresina-PI. Res., Soc. Dev. 2021;10(14):e563101422053..

Their QOL is mainly affected in terms of sleep, eating duration, and fatigue. This may be related to respiratory changes caused by COVID-19²⁶26. CONITEC. Diretrizes brasileiras para tratamento hospitalar do paciente com COVID-19 - Capítulo 1: Uso de oxigênio, intubação orotraqueal e ventilação mecânica [accessed 2022 apr 26]. Available at: http://conitec.gov.br/images/Consultas/Relatorios/2021/20210517_Relatorio_Diretrizes_Brasileira_Covid_Capitulo_1_CP_36.pdf
http://conitec.gov.br/images/Consultas/R... regarding the possibility of oral food intake and dysphagia severity. Studies on COVID-19 patients pointed out that dysphagia is prevalent in this population¹⁵15. Dawson C, Capewell R, Ellis S, Matthews S, Adamson S, Wood M et al. Dysphagia presentation and management following COVID-19: an acute care tertiary centre experience. J Laryngol Otol. 2020;10:1-6. Epub ahead of print., and their QOL and mental health are impaired²⁷27. Carvalho MCT, Jesus BMB, Castro VL, Trindade LMD. The impact on quality of life on individuals after Covid-19: what has changed? Res., Soc. Dev. 2021;10(14):e219101421769..

More than 80% of patients in this study were receiving supplemental oxygen through either non-rebreather masks (44.44%) or oxygen catheters (38.89%). Patients with acute respiratory insufficiency due to COVID-19 usually have increased respiratory frequency (higher than 24/minute) and hypoxemia (SpO₂ < 90% in room air). Hence, patients in this clinical condition need oxygen therapy and ventilation support as supplemental care²⁶26. CONITEC. Diretrizes brasileiras para tratamento hospitalar do paciente com COVID-19 - Capítulo 1: Uso de oxigênio, intubação orotraqueal e ventilação mecânica [accessed 2022 apr 26]. Available at: http://conitec.gov.br/images/Consultas/Relatorios/2021/20210517_Relatorio_Diretrizes_Brasileira_Covid_Capitulo_1_CP_36.pdf
http://conitec.gov.br/images/Consultas/R... .

Sleep, Eating duration, and Fatigue were the SWAL-QOL domains with the worst scores. These aspects are closely related to respiratory issues affected by COVID-19 - two of them are importantly related to swallowing safety, the need for food preparations or restrictions, and the greater risk of dysphagia. These data corroborate the findings of studies that show that the QOL and mental health of infected and/or treated COVID-19 patients may be impaired²⁷27. Carvalho MCT, Jesus BMB, Castro VL, Trindade LMD. The impact on quality of life on individuals after Covid-19: what has changed? Res., Soc. Dev. 2021;10(14):e219101421769.^,²⁸28. Marchese MR, Ausili Cefaro C, Mari G, Proietti I, Carfì A, Tosato M et al. Gemelli against COVID-19 "Post-Acute Care Team". Oropharyngeal dysphagia after hospitalization for COVID-19 disease: our screening results. Dysphagia. 2022;37(2):447-53..

The respiratory condition was a determinant of SWAL-QOL Fatigue, FOIS classification, and dysphagia degree classification. This corroborates the findings of a study that demonstrate that respiratory impairments hinder breathing-swallowing-coughing coordination²⁴24. Printza A, Tedla M, Frajkova Z, Sapalidis K, Triaridis S. Dysphagia severity and management in patients with COVID-19. Curr Health Sci J. 2021;47(2):147-56.. Moreover, swallowing complaints were decisive in SWAL-QOL Mental health, EAT-10, FOIS, and dysphagia classification. The literature also demonstrates that dysphagia is prevalent in inpatients with respiratory problems due to COVID-19¹⁵15. Dawson C, Capewell R, Ellis S, Matthews S, Adamson S, Wood M et al. Dysphagia presentation and management following COVID-19: an acute care tertiary centre experience. J Laryngol Otol. 2020;10:1-6. Epub ahead of print..

EAT-10 has proved to be an important and useful instrument to screen the risk of dysphagia in inpatients⁹9. Souza CLM, Guimarães MF, Penna LM, Pereira ALC, Nunes JA, Azevedo EHM. Screening of the risk of dysphagia in inpatients at a university hospital. Distúrb. Comun. 2020;32(2):277-84., including those with COVID-19²⁸28. Marchese MR, Ausili Cefaro C, Mari G, Proietti I, Carfì A, Tosato M et al. Gemelli against COVID-19 "Post-Acute Care Team". Oropharyngeal dysphagia after hospitalization for COVID-19 disease: our screening results. Dysphagia. 2022;37(2):447-53.. Hence, it predicts the need to clinically and/or instrumentally assess those who failed the 3-point cutoff in the screening, as already published in the Brazilian literature²¹21. Gonçalves MIR, Remaili CB, Behlau M. Cross-cultural adaptation of the Brazilian version of the Eating Assessment Tool - EAT-10. CoDAS. 2013;25(6):601-4.. FOIS, in its turn, is an important scale to manage food intake²⁹29. Soldatova L, Williams C, Postma GN, Falk GW, Mirza N. Virtual dysphagia evaluation: practical guidelines for dysphagia management in the context of the COVID-19 pandemic. Otolaryngol Head Neck Surg. 2020;163(3):455-8..

In this study, swallowing complaints were determinant in mean EAT-10 score differences between < 3 points and ≥ 3 points, as demonstrated in the cutoff scores for the risk of dysphagia published in the national literature²¹21. Gonçalves MIR, Remaili CB, Behlau M. Cross-cultural adaptation of the Brazilian version of the Eating Assessment Tool - EAT-10. CoDAS. 2013;25(6):601-4..

COVID-19 inpatients at risk of dysphagia had lower scores in five out of the 11 SWAL-QOL domains (Burden, Symptom frequency, Mental health, Sleep, and Fatigue), lower FOIS levels, and higher dysphagia classification levels. These findings corroborate a study that shows that swallowing disorders impair the QOL of individuals with diseases of various etiologies, including COVID-19³⁰30. Porto AC, Oliveira LB, Cabral JA, Amaro IMC, Queiroz MAS, Barbosa PME. Phonoaudiological performance in COVID-19 patients: integrative review. Cadernos Esp. 2020;14(1):38-44..

A limitation of this study is its small sample, due to the severity of the cases and difficulties to collect data; since the study was based on self-assessment questionnaires, participating patients could not be intubated and had to be awake and aware during collection. As for future perspectives, further studies can address late COVID-19 sequelae in patients after hospital discharge, which was not the objective of this study.

Conclusion

Most COVID-19 inpatients had swallowing complaints and were at risk of dysphagia, with worse self-assessment eating scores. Swallowing complaints negatively interfered with the Mental health domain in QOL self-assessment, eating self-assessment, oral food intake classification, and dysphagia classification. These patients’ QOL was mainly affected in terms of Sleep, Eating duration, and Fatigue.

The respiratory condition was determinant for worse results in the Fatigue domain in QOL self-assessment, oral food intake classification, and dysphagia classification. Females had worse QOL self-assessments regarding Burden and Food selection.

COVID-19 inpatients at risk of dysphagia had worse QOL self-assessment, lower oral food intake classification, and worse dysphagia severity classification.

REFERENCES

¹
Madabhavi I, Sarkar M, Kadakol N. COVID-19: a review. Monaldi Arch Chest Dis. 2020;90(2):248-58.
²
Huang C, Wang Y, Li X, Ren L, Zhao J, Hu Y et al. Clinical features of patients infected with 2019 novel coronavirus in Wuhan, China. Lancet. 2020;395(10223):497-506.
³
Lima CMAO. Informações sobre o novo coronavírus (COVID-19). Radiol Bras. 2020;53(2):V-VI.
⁴
Richardson S, Hirsch JS, Narasimhan M, Crawford JM, McGinn T, Davidson KW et al. Presenting characteristics, comorbidities, and outcomes among 5700 patients hospitalized With COVID-19 in the New York city area. JAMA. 2020;323(20):2052-9.
⁵
Report of the WHO-China Joint Mission on Coronavirus Disease 2019 (COVID-19). [accessed 2022 apr 26]. Available at: https://www.who.int/docs/default-source/coronaviruse/who-china-joint-mission-on-covid-19-final-report.pdf
» https://www.who.int/docs/default-source/coronaviruse/who-china-joint-mission-on-covid-19-final-report.pdf
⁶
Martins M. Uso de medidas de comorbidades para predição de risco de óbito em pacientes brasileiros hospitalizados. Rev Saúde Pública. 2010;44(3):1-9.
⁷
Iezzoni LI. Risk adjustment for measuring health care outcomes. 3. ed. Ann Arbor: Health Administration; 2003.
⁸
Bassi D, Furkim AM, Silva CA, Coelho MS, Rolim MR, Alencar ML et al. Identification of risk groups for oropharyngeal dysphagia in hospitalized patients in a university hospital. CoDAS. 2014;26(1):17-27.
⁹
Souza CLM, Guimarães MF, Penna LM, Pereira ALC, Nunes JA, Azevedo EHM. Screening of the risk of dysphagia in inpatients at a university hospital. Distúrb. Comun. 2020;32(2):277-84.
¹⁰
Aoyagi Y, Inamoto Y, Shibata S, Kagaya H, Otaka Y, Saitoh E. Clinical manifestation, evaluation, and rehabilitative strategy of dysphagia associated with COVID-19. Am J Phys Med Rehabil. 2021;100(5):424-31.
¹¹
Skoretz S, Flowers H, Martino R. The incidence of dysphagia following endotracheal intubation: a systematic review. Chest. 2010;137(3):665-73.
¹²
Macht M, Wimbish T, Clark BJ, Benson AB, Burnham EL, Williams A et al. Postextubation dysphagia is persistent and associated with poor outcomes in survivors of critical illness. Crit Care. 2011;15(5):R231.
¹³
Macht M, King CJ, Wimbish T, Clark BJ, Benson AB, Burnham EL et al. Postextubation dysphagia is associated with longer hospitalization in survivors of critical illness with neurologic impairment. Crit Care. 2013;17(3):R119.
¹⁴
Schefold JC, Berger D, Zürcher P, Lensch M, Perren A, Jakob SM et al. Dysphagia in mechanically ventilated ICU patients (DYnAMICS): a prospective observational trial. Crit Care Med. 2017;45(12):2061-9.
¹⁵
Dawson C, Capewell R, Ellis S, Matthews S, Adamson S, Wood M et al. Dysphagia presentation and management following COVID-19: an acute care tertiary centre experience. J Laryngol Otol. 2020;10:1-6. Epub ahead of print.
¹⁶
Fernández-Ruiz VE, Paredes-Ibáñez R, Armero-Barranco D, Sánchez-Romera JF, Ferrer M. Analysis of quality of life and nutritional status in elderly patients with dysphagia in order to prevent hospital admissions in a COVID-19 pandemic. Life (Basel). 2020;11(1):22.
¹⁷
Kim DY, Park HS, Park SW, Kim JH. The impact of dysphagia on quality of life in stroke patients. Medicine. 2020;99(34):e21795.
¹⁸
McHorney CA, Robbins J, Lomax K, Rosenbek JC, Chignell K, Kramer AE et al. The SWAL-QOL and SWAL-CARE outcomes tool for orofaryngeal dysphagia in adults: III - Documentation of reliability and validity. Dysphagia. 2002;17(2):97-114.
¹⁹
Portas JG. Validação para a língua portuguesa-brasileira dos questionários: qualidade de vida em disfagia (SWAL-QOL) e satisfação do paciente e qualidade do cuidado no tratamento da disfagia (SWAL-CARE) [dissertation]. São Paulo (SP): Fundação Antônio Prudente, Mestrado em Ciências; 2009.
²⁰
Belafsky PC, Mouadeb DA, Rees CJ, Pryor JC, Postma GN, Leonard RJ et al. Validity and reliability of the Eating Assessment Tool (EAT-10). Ann Otol Rhinol Laryngol. 2008;117(2):919-24.
²¹
Gonçalves MIR, Remaili CB, Behlau M. Cross-cultural adaptation of the Brazilian version of the Eating Assessment Tool - EAT-10. CoDAS. 2013;25(6):601-4.
²²
Crary MA, Mann GD, Groher ME. Initial psychometric assessment of a functional oral intake scale for dysphagia in stroke patients. Arch Phys Med Rehabil. 2005;86(8):1516-20.
²³
Silva RG. Disfagia orofaríngea pós-acidente vascular encefálico. In: Ferreira LP, Belfi-Lopes DM, Limonge SCO, editors. Tratado de Fonoaudiologia. São Paulo: Roca, 2004. p.354-69.
²⁴
Printza A, Tedla M, Frajkova Z, Sapalidis K, Triaridis S. Dysphagia severity and management in patients with COVID-19. Curr Health Sci J. 2021;47(2):147-56.
²⁵
Oliveira BC, Santos FC, Silva HGN, Castro IO, Franco VSP, Souza e Silva C et al. Epidemiological and clinical profile of patients with Covid-19 in an Intensive Care Unit of a public hospital in Teresina-PI. Res., Soc. Dev. 2021;10(14):e563101422053.
²⁶
CONITEC. Diretrizes brasileiras para tratamento hospitalar do paciente com COVID-19 - Capítulo 1: Uso de oxigênio, intubação orotraqueal e ventilação mecânica [accessed 2022 apr 26]. Available at: http://conitec.gov.br/images/Consultas/Relatorios/2021/20210517_Relatorio_Diretrizes_Brasileira_Covid_Capitulo_1_CP_36.pdf
» http://conitec.gov.br/images/Consultas/Relatorios/2021/20210517_Relatorio_Diretrizes_Brasileira_Covid_Capitulo_1_CP_36.pdf
²⁷
Carvalho MCT, Jesus BMB, Castro VL, Trindade LMD. The impact on quality of life on individuals after Covid-19: what has changed? Res., Soc. Dev. 2021;10(14):e219101421769.
²⁸
Marchese MR, Ausili Cefaro C, Mari G, Proietti I, Carfì A, Tosato M et al. Gemelli against COVID-19 "Post-Acute Care Team". Oropharyngeal dysphagia after hospitalization for COVID-19 disease: our screening results. Dysphagia. 2022;37(2):447-53.
²⁹
Soldatova L, Williams C, Postma GN, Falk GW, Mirza N. Virtual dysphagia evaluation: practical guidelines for dysphagia management in the context of the COVID-19 pandemic. Otolaryngol Head Neck Surg. 2020;163(3):455-8.
³⁰
Porto AC, Oliveira LB, Cabral JA, Amaro IMC, Queiroz MAS, Barbosa PME. Phonoaudiological performance in COVID-19 patients: integrative review. Cadernos Esp. 2020;14(1):38-44.

Publication Dates

Publication in this collection
09 Dec 2022
Date of issue
2022

History

Received
28 Sept 2022
Accepted
20 Nov 2022

This is an open-access article distributed under the terms of the Creative Commons Attribution License

[1] ¹
Madabhavi I, Sarkar M, Kadakol N. COVID-19: a review. Monaldi Arch Chest Dis. 2020;90(2):248-58.

[2] ²
Huang C, Wang Y, Li X, Ren L, Zhao J, Hu Y et al. Clinical features of patients infected with 2019 novel coronavirus in Wuhan, China. Lancet. 2020;395(10223):497-506.

[3] ³
Lima CMAO. Informações sobre o novo coronavírus (COVID-19). Radiol Bras. 2020;53(2):V-VI.

[4] ⁴
Richardson S, Hirsch JS, Narasimhan M, Crawford JM, McGinn T, Davidson KW et al. Presenting characteristics, comorbidities, and outcomes among 5700 patients hospitalized With COVID-19 in the New York city area. JAMA. 2020;323(20):2052-9.

[5] ⁵
Report of the WHO-China Joint Mission on Coronavirus Disease 2019 (COVID-19). [accessed 2022 apr 26]. Available at: https://www.who.int/docs/default-source/coronaviruse/who-china-joint-mission-on-covid-19-final-report.pdf
» https://www.who.int/docs/default-source/coronaviruse/who-china-joint-mission-on-covid-19-final-report.pdf

[6] ⁶
Martins M. Uso de medidas de comorbidades para predição de risco de óbito em pacientes brasileiros hospitalizados. Rev Saúde Pública. 2010;44(3):1-9.

[7] ⁷
Iezzoni LI. Risk adjustment for measuring health care outcomes. 3. ed. Ann Arbor: Health Administration; 2003.

[8] ⁸
Bassi D, Furkim AM, Silva CA, Coelho MS, Rolim MR, Alencar ML et al. Identification of risk groups for oropharyngeal dysphagia in hospitalized patients in a university hospital. CoDAS. 2014;26(1):17-27.

[9] ⁹
Souza CLM, Guimarães MF, Penna LM, Pereira ALC, Nunes JA, Azevedo EHM. Screening of the risk of dysphagia in inpatients at a university hospital. Distúrb. Comun. 2020;32(2):277-84.

[10] ¹⁰
Aoyagi Y, Inamoto Y, Shibata S, Kagaya H, Otaka Y, Saitoh E. Clinical manifestation, evaluation, and rehabilitative strategy of dysphagia associated with COVID-19. Am J Phys Med Rehabil. 2021;100(5):424-31.

[11] ¹¹
Skoretz S, Flowers H, Martino R. The incidence of dysphagia following endotracheal intubation: a systematic review. Chest. 2010;137(3):665-73.

[12] ¹²
Macht M, Wimbish T, Clark BJ, Benson AB, Burnham EL, Williams A et al. Postextubation dysphagia is persistent and associated with poor outcomes in survivors of critical illness. Crit Care. 2011;15(5):R231.

[13] ¹³
Macht M, King CJ, Wimbish T, Clark BJ, Benson AB, Burnham EL et al. Postextubation dysphagia is associated with longer hospitalization in survivors of critical illness with neurologic impairment. Crit Care. 2013;17(3):R119.

[14] ¹⁴
Schefold JC, Berger D, Zürcher P, Lensch M, Perren A, Jakob SM et al. Dysphagia in mechanically ventilated ICU patients (DYnAMICS): a prospective observational trial. Crit Care Med. 2017;45(12):2061-9.

[15] ¹⁵
Dawson C, Capewell R, Ellis S, Matthews S, Adamson S, Wood M et al. Dysphagia presentation and management following COVID-19: an acute care tertiary centre experience. J Laryngol Otol. 2020;10:1-6. Epub ahead of print.

[16] ¹⁶
Fernández-Ruiz VE, Paredes-Ibáñez R, Armero-Barranco D, Sánchez-Romera JF, Ferrer M. Analysis of quality of life and nutritional status in elderly patients with dysphagia in order to prevent hospital admissions in a COVID-19 pandemic. Life (Basel). 2020;11(1):22.

[17] ¹⁷
Kim DY, Park HS, Park SW, Kim JH. The impact of dysphagia on quality of life in stroke patients. Medicine. 2020;99(34):e21795.

[18] ¹⁸
McHorney CA, Robbins J, Lomax K, Rosenbek JC, Chignell K, Kramer AE et al. The SWAL-QOL and SWAL-CARE outcomes tool for orofaryngeal dysphagia in adults: III - Documentation of reliability and validity. Dysphagia. 2002;17(2):97-114.

[19] ¹⁹
Portas JG. Validação para a língua portuguesa-brasileira dos questionários: qualidade de vida em disfagia (SWAL-QOL) e satisfação do paciente e qualidade do cuidado no tratamento da disfagia (SWAL-CARE) [dissertation]. São Paulo (SP): Fundação Antônio Prudente, Mestrado em Ciências; 2009.

[20] ²⁰
Belafsky PC, Mouadeb DA, Rees CJ, Pryor JC, Postma GN, Leonard RJ et al. Validity and reliability of the Eating Assessment Tool (EAT-10). Ann Otol Rhinol Laryngol. 2008;117(2):919-24.

[21] ²¹
Gonçalves MIR, Remaili CB, Behlau M. Cross-cultural adaptation of the Brazilian version of the Eating Assessment Tool - EAT-10. CoDAS. 2013;25(6):601-4.

[22] ²²
Crary MA, Mann GD, Groher ME. Initial psychometric assessment of a functional oral intake scale for dysphagia in stroke patients. Arch Phys Med Rehabil. 2005;86(8):1516-20.

[23] ²³
Silva RG. Disfagia orofaríngea pós-acidente vascular encefálico. In: Ferreira LP, Belfi-Lopes DM, Limonge SCO, editors. Tratado de Fonoaudiologia. São Paulo: Roca, 2004. p.354-69.

[24] ²⁴
Printza A, Tedla M, Frajkova Z, Sapalidis K, Triaridis S. Dysphagia severity and management in patients with COVID-19. Curr Health Sci J. 2021;47(2):147-56.

[25] ²⁵
Oliveira BC, Santos FC, Silva HGN, Castro IO, Franco VSP, Souza e Silva C et al. Epidemiological and clinical profile of patients with Covid-19 in an Intensive Care Unit of a public hospital in Teresina-PI. Res., Soc. Dev. 2021;10(14):e563101422053.

[26] ²⁶
CONITEC. Diretrizes brasileiras para tratamento hospitalar do paciente com COVID-19 - Capítulo 1: Uso de oxigênio, intubação orotraqueal e ventilação mecânica [accessed 2022 apr 26]. Available at: http://conitec.gov.br/images/Consultas/Relatorios/2021/20210517_Relatorio_Diretrizes_Brasileira_Covid_Capitulo_1_CP_36.pdf
» http://conitec.gov.br/images/Consultas/Relatorios/2021/20210517_Relatorio_Diretrizes_Brasileira_Covid_Capitulo_1_CP_36.pdf

[27] ²⁷
Carvalho MCT, Jesus BMB, Castro VL, Trindade LMD. The impact on quality of life on individuals after Covid-19: what has changed? Res., Soc. Dev. 2021;10(14):e219101421769.

[28] ²⁸
Marchese MR, Ausili Cefaro C, Mari G, Proietti I, Carfì A, Tosato M et al. Gemelli against COVID-19 "Post-Acute Care Team". Oropharyngeal dysphagia after hospitalization for COVID-19 disease: our screening results. Dysphagia. 2022;37(2):447-53.

[29] ²⁹
Soldatova L, Williams C, Postma GN, Falk GW, Mirza N. Virtual dysphagia evaluation: practical guidelines for dysphagia management in the context of the COVID-19 pandemic. Otolaryngol Head Neck Surg. 2020;163(3):455-8.

[30] ³⁰
Porto AC, Oliveira LB, Cabral JA, Amaro IMC, Queiroz MAS, Barbosa PME. Phonoaudiological performance in COVID-19 patients: integrative review. Cadernos Esp. 2020;14(1):38-44.

		SWAL-QOL Burden	SWAL-QOL Eating desire	SWAL-QOL Eating duration	SWAL-QOL Symptom frequency	SWAL-QOL Food selection	SWAL-QOL Communication	SWAL-QOL Fear	SWAL-QOL Mental health	SWAL-QOL Social	SWAL-QOL Sleep	SWAL-QOL Fatigue	EAT-10	FOIS
SWAL-QOL Eating desire	r	0.136
SWAL-QOL Eating desire	p-value	0.328
SWAL-QOL Eating duration	r	-0.010	0.422
SWAL-QOL Eating duration	p-value	0.945	0.001*
SWAL-QOL Symptom frequency	r	0.433	-0.061	0.073
SWAL-QOL Symptom frequency	p-value	0.001*	0.660	0.597
SWAL-QOL Food selection	r	0.500	0.148	0.011	0.257
SWAL-QOL Food selection	p-value	<0.001*	0.284	0.937	0.060
SWAL-QOL Communication	r	0.210	0.257	0.113	0.369	0.185
SWAL-QOL Communication	p-value	0.128	0.060	0.415	0.006*	0.180
SWAL-QOL Fear	r	0.248	-0.025	0.132	0.507	0.185	0.205
SWAL-QOL Fear	p-value	0.071	0.860	0.342	<0.001*	0.181	0.136
SWAL-QOL Mental health	r	0.621	-0.101	0.037	0.602	0.360	0.227	0.319
SWAL-QOL Mental health	p-value	<0.001*	0.469	0.789	<0.001*	0.008*	0.098	0.019*
SWAL-QOL Social	r	0.047	-0.026	0.134	0.115	-0.013	-0.135	0.289	-0.133
SWAL-QOL Social	p-value	0.736	0.854	0.333	0.406	0.924	0.331	0.034*	0.337
SWAL-QOL Sleep	r	0.059	0.021	-0.291	-0.038	0.141	0.072	-0.012	0.005	-0.063
SWAL-QOL Sleep	p-value	0.672	0.881	0.033*	0.784	0.309	0.607	0.932	0.970	0.651
SWAL-QOL Fatigue	r	0.129	-0.076	-0.147	0.384	0.129	0.119	0.406	0.381	-0.148	0.399
SWAL-QOL Fatigue	p-value	0.353	0.584	0.288	0.004*	0.351	0.393	0.002*	0.005*	0.285	0.003*
EAT-10	r	-0.373	0.114	-0.064	-0.591	-0.255	-0.241	-0.354	-0.522	-0.181	-0.314	-0.392
EAT-10	p-value	0.005*	0.410	0.645	<0.001*	0.063	0.079	0.009*	<0.001*	0.190	0.021*	0.003*
FOIS	r	0.202	-0.270	-0.249	0.203	0.110	0.055	0.221	0.462	0.029	0.249	0.287	-0.484
FOIS	p-value	0.144	0.049*	0.070	0.141	0.429	0.693	0.108	<0.001*	0.836	0.070	0.035*	<0.001*
Dysphagia classification	r	-0.379	0.053	0.056	-0.238	-0.040	-0.246	-0.168	-0.506	-0.041	-0.143	-0.111	0.381	-0.687
Dysphagia classification	p-value	0.005*	0.705	0.689	0.083	0.775	0.073	0.225	<0.001*	0.771	0.302	0.425	0.004*	<0.001*

Variable	Current respiratory condition	Mean	SD	p-value	pairwise
SWAL-QOL Burden	Room air	70.83	31.87	0.885
	Oxygen catheter	76.19	26.19
	Non-rebreather mask	72.40	32.55
SWAL-QOL Eating desire	Room air	75.00	24.30	0.919
	Oxygen catheter	75.79	24.57
	Non-rebreather mask	76.74	31.28
SWAL-QOL Eating duration	Room air	68.06	37.56	0.728
	Oxygen catheter	61.31	40.49
	Non-rebreather mask	59.90	39.01
SWAL-QOL Symptom frequency	Room air	88.89	11.32	0.916
	Oxygen catheter	91.41	7.57
	Non-rebreather mask	90.63	7.87
SWAL-QOL Food selection	Room air	86.11	15.87	0.362
	Oxygen catheter	88.69	18.50
	Non-rebreather mask	80.21	24.15
SWAL-QOL Communication	Room air	87.50	19.76	0.228
	Oxygen catheter	87.50	26.22
	Non-rebreather mask	95.31	14.19
SWAL-QOL Fear	Room air	84.03	24.43	0.391
	Oxygen catheter	79.17	22.65
	Non-rebreather mask	75.00	24.24
SWAL-QOL Mental health	Room air	95.56	5.83	0.089
	Oxygen catheter	81.90	26.15
	Non-rebreather mask	70.42	34.45
SWAL-QOL Social	Room air	100.00	0.00	0.086
	Oxygen catheter	90.24	30.02
	Non-rebreather mask	100.00	0.00
SWAL-QOL Sleep	Room air	51.39	35.60	0.225
	Oxygen catheter	66.07	36.69
	Non-rebreather mask	51.56	32.41
SWAL-QOL Fatigue	Room air	78.70	25.72	0.024*	Oxygen catheter > non-rebreather mask (p = 0.036)
	Oxygen catheter	79.37	22.76
	Non-rebreather mask	58.68	27.42
EAT-10	Room air	3.11	3.62	0.257
	Oxygen catheter	3.81	4.15
	Non-rebreather mask	5.04	3.84
FOIS	Room air	6.56	0.73	<0.001*	Room air > non-rebreather mask (p < 0.001) = oxygen catheter (p = 0.007)
	Oxygen catheter	5.05	1.53
	Non-rebreather mask	5.00	0.98
Dysphagia classification	Room air	0.33	0.50	<0.001*	Room air < non-rebreather mask (p = 0.008) = oxygen catheter (p < 0.001)
	Oxygen catheter	1.29	0.64
	Non-rebreather mask	0.96	0.55

Variable	Swallowing complaints	Mean	SD	p-value
SWAL-QOL Burden	No	88.75	13.76	0.102
SWAL-QOL Burden	Yes	70.17	31.23	0.102
SWAL-QOL Eating desire	No	75.83	31.04	0.825
SWAL-QOL Eating desire	Yes	76.14	26.69	0.825
SWAL-QOL Eating duration	No	76.25	35.08	0.150
SWAL-QOL Eating duration	Yes	58.52	39.14	0.150
SWAL-QOL Symptom frequency	No	90.89	11.89	0.308
SWAL-QOL Symptom frequency	Yes	90.58	7.41	0.308
SWAL-QOL Food selection	No	81.25	27.16	0.981
SWAL-QOL Food selection	Yes	85.23	19.49	0.981
SWAL-QOL Communication	No	93.75	13.50	0.721
SWAL-QOL Communication	Yes	90.34	21.88	0.721
SWAL-QOL Fear	No	81.88	25.76	0.297
SWAL-QOL Fear	Yes	77.27	23.12	0.297
SWAL-QOL Mental health	No	98.00	3.50	0.004*
SWAL-QOL Mental health	Yes	74.77	30.93	0.004*
SWAL-QOL Social	No	100.00	0.00	0.400
SWAL-QOL Social	Yes	95.34	21.06	0.400
SWAL-QOL Sleep	No	62.50	30.62	0.693
SWAL-QOL Sleep	Yes	55.97	35.81	0.693
SWAL-QOL Fatigue	No	67.50	34.12	0.991
SWAL-QOL Fatigue	Yes	70.64	25.51	0.991
EAT-10	No	1.90	3.41	0.015*
EAT-10	Yes	4.77	3.88	0.015*
FOIS	No	6.40	0.84	<0.001*
FOIS	Yes	5.02	1.27	<0.001*
Dysphagia classification	No	0.20	0.42	<0.001*
Dysphagia classification	Yes	1.16	0.57	<0.001*

Variable	EAT-10	Mean	SD	p-value
SWAL-QOL Burden	< 3 points	85.71	21.39	0.017*
SWAL-QOL Burden	≥ 3 points	65.91	31.76	0.017*
SWAL-QOL Eating desire	< 3 points	73.41	27.46	0.505
SWAL-QOL Eating desire	≥ 3 points	77.78	27.38	0.505
SWAL-QOL Eating duration	< 3 points	61.31	37.27	0.913
SWAL-QOL Eating duration	≥ 3 points	62.12	40.20	0.913
SWAL-QOL Symptom frequency	< 3 points	94.47	5.87	0.003*
SWAL-QOL Symptom frequency	≥ 3 points	88.20	8.74	0.003*
SWAL-QOL Food selection	< 3 points	89.29	20.27	0.117
SWAL-QOL Food selection	≥ 3 points	81.44	20.99	0.117
SWAL-QOL Communication	< 3 points	92.86	22.21	0.456
SWAL-QOL Communication	≥ 3 points	89.77	19.63	0.456
SWAL-QOL Fear	< 3 points	85.42	19.20	0.091
SWAL-QOL Fear	≥ 3 points	73.48	24.95	0.091
SWAL-QOL Mental health	< 3 points	93.57	8.82	0.013*
SWAL-QOL Mental health	≥ 3 points	69.85	33.95	0.013*
SWAL-QOL Social	< 3 points	100.00	0.00	0.159
SWAL-QOL Social	≥ 3 points	93.79	24.21	0.159
SWAL-QOL Sleep	< 3 points	74.40	26.95	0.004*
SWAL-QOL Sleep	≥ 3 points	46.21	35.01	0.004*
SWAL-QOL Fatigue	< 3 points	80.56	26.00	0.010*
SWAL-QOL Fatigue	≥ 3 points	63.38	25.76	0.010*
FOIS	< 3 points	5.86	0.65	0.001*
FOIS	≥ 3 points	4.91	1.49	0.001*
Dysphagia classification	< 3 points	0.71	0.46	0.015*
Dysphagia classification	≥ 3 points	1.15	0.71	0.015*

			EAT-10		Total	p-value
			< 3 points	≥ 3 points	Total	p-value
Sex	Females	n	5	15	20	0.108
	Females	%	0.25	0.75	1
	Males	n	16	18	34
	Males	%	0.47	0.53	1
Total		n	21	33	54
Total			0.39	0.61	1
Current respiratory condition	Room air	n	4	5	9	0.418
	Room air	%	0.44	0.56	1
	Oxygen catheter	n	10	11	21
	Oxygen catheter	%	0.48	0.52	1
	Non-rebreather mask	n	7	17	24
	Non-rebreather mask	%	0.29	0.71	1
Total		n	21	33	54
Total			0.39	0.61	1
Swallowing complaint	No	n	7	3	10	0.025*
	No	%	0.70	0.30	1
	Yes	n	14	30	44
	Yes	%	0.32	0.68	1
Total		n	21	33	54
Total		%	0.39	0.61	1