Neuropsychiatric symptoms of post-COVID-19 condition in Mexican healthcare personnel

Ruiz-Ramos, David; Alonso-García, Cecilia Yazmin; Salazar-Rifka, Roberto Esteban; Martínez-Magaña, José Jaime; Nolasco-Rosales, Germán Alberto; Villar-Soto, Mario; Ruiz-Ramos, David; Alonso-García, Cecilia Yazmin; Salazar-Rifka, Roberto Esteban; Martínez-Magaña, José Jaime; Nolasco-Rosales, Germán Alberto; Villar-Soto, Mario

doi:10.19136/hs.a23n1.5657

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Horizonte sanitario

versión On-line ISSN 2007-7459versión impresa ISSN 1665-3262

Horiz. sanitario vol.23 no.1 Villahermosa ene./abr. 2024 Epub 02-Sep-2024

https://doi.org/10.19136/hs.a23n1.5657

Original articles

Neuropsychiatric symptoms of post-COVID-19 condition in Mexican healthcare personnel

Síntomas neuropsiquiátricos post-COVID-19 en trabajadores de salud mexicanos

David Ruiz-Ramos¹
http://orcid.org/0000-0003-1191-2577

Cecilia Yazmin Alonso-García²
http://orcid.org/0009-0007-9768-5630

Roberto Esteban Salazar-Rifka³
http://orcid.org/0009-0006-3382-3312

José Jaime Martínez-Magaña⁴
http://orcid.org/0000-0003-0390-8252

Germán Alberto Nolasco-Rosales⁵
http://orcid.org/0000-0001-5536-3173

Mario Villar-Soto⁶^*
http://orcid.org/0009-0009-5462-2802

^¹Master in Biomedical Sciences. Academic Division of Health Sciences, Juárez Autonomous University of Tabasco; Villahermosa, Tabasco, Mexico.

^² Graduated in General Medicine. Academic Division of Health Sciences, Juárez Autonomous University of Tabasco; Villahermosa, Tabasco, Mexico.

^³ Epidemiology Residency Program. High Specialty Hospital "Centennial of the Mexican Revolution", Morelos, Mexico.

^⁴ Doctor in Biomedical Sciences. Department of Psychiatry, Yale University School of Medicine, New Haven, CT, USA.

^⁵ Master in Biomedical Sciences. Academic Division of Health Sciences, Juárez Autonomous University of Tabasco; Villahermosa, Tabasco, Mexico.

^⁶Medical Specialist in Psychiatry. Mental Health Regional High Specialty Hospital, Villahermosa, Tabasco, Mexico.

Abstract

Objective:

The aim of the present study was to identify anxiety and depression in health personnel who suffered COVID-19, and to associate them with blood inflammatory markers.

Materials and methods:

The design of this study was descriptive and cross-sectional. We evaluated 51 healthcare workers who survived COVID-19 disease with Hamilton scales for anxiety and depression, also we calculated inflammatory markers (systemic immune-inflammation index, SII; monocyte lymphocyte ratio, MLR; platelet lymphocyte ratio, PLR; and neutrophil lymphocyte ratio, NLR) using blood venous samples. This study was carried out from August 2021 to December 2022. Statistical analysis was performed using SPSS v. 26.

Results:

Our study included 51 healthcare personnel, females (n=29) and males (n=22). The mean age was 40.54 ± 11.00 years. The most frequent acute symptoms for COVID-19 presented were dysgeusia (n=20), anosmia (n=18), and headache (n=17). The most common comorbidities were overweight (n=24), obesity (n=22), and hypertension (n=11). According to the Hamilton Rating Scale for Anxiety (HARS) and Hamilton Rating Scale for Depression Rating (HRSD) we identify anxiety and depression in 72.5% (n=37) and 51% (n=26) within the health personnel, respectively.

Conclusions:

In our study, we observed a high frequency of anxiety and depression in healthcare workers with post COVID-19 condition. However, we did not observe an association between inflammatory markers (NLR, PLR, MLR, and SII) with anxiety and depression in health personnel postCOVID-19. We suggest follow-up assessments in healthcare personnel with post-COVID-19 condition, to evaluate if mixed emotional disorders persist.

Keywords: Anxiety; Depression; Mental disorders; Inflammation; COVID-19

Resumen

Objetivo:

Identificar ansiedad y depresión en el personal de salud que padeció COVID-19, y asociarlos con niveles de marcadores inflamatorios en sangre.

Materiales y métodos:

El estudio fue descriptivo y transversal. Evaluamos a 51 trabajadores del área de la salud con antecedente de COVID-19, se aplicó las escalas de ansiedad y depresión de Hamilton, y calculamos marcadores inflamatorios (índice de inmunidad/inflamación sistémica, índice monocito/linfocito, índice plaqueta/linfocito, índice neutrófilo/ linfocito) obtenidas de muestras de sangre venosa. El estudio se realizó durante el periodo de agosto del 2021 a diciembre del 2022. El análisis estadístico fue realizado en SPSS v. 26.

Resultados:

Nuestro estudio incluyó a 51 personas del área de salud, 29 mujeres y 22 hombres. La edad media fue 40.54 ± 11.00 años. Los síntomas agudos más frecuentes que presentaron los trabajadores fueron disgeusia (n=20), anosmia (n=18), y cefalea (n=17). Las comorbilidades más frecuentes fueron: sobrepeso (n= 24), obesidad (n=22), e hipertensión (n=11). Aplicando la Escala de Ansiedad de Hamilton y la Escala de Depresión de Hamilton, identificamos ansiedad y depresión en el personal de salud en 72.5% (n=37) y 51% (n=26), respectivamente.

Conclusiones:

En nuestro estudio observamos una alta frecuencia de ansiedad y depresión post COVID-19 en el personal de salud. No observamos asociación entre ansiedad, depresión y marcadores inflamatorios hematológicos en los trabajadores de salud en población mexicana que padeció COVID-19. Sugerimos realizar evaluaciones de seguimiento en el personal de salud en condición post COVID-19 para demostrar la persistencia de trastornos mixtos de las emociones.

Palabras clave: Ansiedad; Depresión; Trastornos mentales; Inflamación; COVID-19

Introduction

Recently, authors reported a relationship of the pandemic worldwide with mood disorders, they estimated that 53 million people suffer major depressive disorder, and 76 million people have anxiety disorder¹. Moreover, other studies indicated that psychiatric sequelae in post-COVID-19 conditions were an increased prevalence of anxiety (45%), and depression (47%) symptoms including lack of motivation, anhedonia, fatigue, irritability, sleep disturbance, and cognitive impairment²^,³. ^{Taquet et al., (2021)} reported that post-COVID-19 subjects had twice the risk of anxiety and depression within 90 days after COVID-19. Besides, they observed that symptoms of moderate-severe stress, anxiety, and depression persist after 4 weeks⁴. ^{Chevinsky et al., (2021)} reported anxiety after 30-60 days post-COVID-19⁵. According to ^{Takao et al}., a study observed psychiatric sequelae (such as concentration difficulty, cognitive dysfunction, amnesia, depression, fatigue, and anxiety) within the next year in 52.7% of patients who suffered acute COVID-19⁶^,⁷. In addition, 31% out of 325 patients who recovered from COVID-19, and evaluated with the PHQ-9 scale, showed symptoms of depression: 87.8% of them had mild depression, 8.1% moderate depression, and 4% severe depression⁸. Thus, prolonged symptoms and neuropsychiatric state (anxious, depressive symptoms, and sleep disorders) are known as post-acute COVID-19 syndrome (PACS)⁹^,¹⁰. According to NICE guidelines defined post COVID-19 syndrome as persistent neurological, respiratory, and cardiovascular symptoms beyond 12 weeks or months of the onset of acute COVID-19¹¹^,¹²^,¹³. Some studies suggest the neuropsychiatric sequelae in post-COVID-19 syndrome may be related to the disruption of immune and inflammatory response triggering a cytokines storm, damage of the blood-brain barrier, neurotransmission dysregulation, and organ dysfunction (SNC, lung, liver, and kidney)¹³^,¹⁴. In that sense, several studies showed hematological inflammatory markers including SII (systemic immune inflammation index), PLR (platelet lymphocyte ratio), MLR (monocyte lymphocyte ratio), and neutrophil-lymphocyte ratio (NLR) to be associated with psychiatric disorders in post COVID-19 condition¹⁵^,¹⁶. Therefore, Mazza et al., (2021) evaluated SII and demonstrated depressive and cognitive impairment symptoms at 3-months follow-up after SARSCov2 infection, changes in levels of SII in these patients may reveal depression severity¹⁵^,¹⁷. Besides, recent studies indicate that inflammatory markers are reliable predictors of the severity and mortality risk of COVID-19¹⁸^,¹⁹, and values of systemic inflammation indexes have a predictive power with the severity of COVID-19 in the Mexican population²⁰. The aim of the present study was to identify anxiety and depression in health personnel who suffered COVID-19, and to associate them with blood inflammatory markers.

Materials and Methods

This study was descriptive and cross-sectional, with a convenience sampling. We recruited 51 healthcare personnel (physicians, nurses, chemist, and pharmacists) with postCOVID-19 condition from the “Mental Health Regional High Specialty Hospital’’ in Tabasco, Mexico; the data collection period was from October to December 2021. We included health personnel who suffered COVID-19 regardless the vaccination status, aging from 18-60 years old, and previous diagnosis of SARS-CoV-2 with a positive PCR test. The patients were diagnosed from March 2020 to October 2021, the range of post-COVID months were 1-20 months. We excluded healthcare workers with acute COVID-19 infection and positive PCR to SARS-CoV-2 at the recruitment. Health personnel with a previous anxiety and/ or depression diagnosis were excluded from the study. All healthcare personnel were invited to voluntary participation and non-financial remuneration. All subjects signed an informed consent. This study was approved by the ethics committee of the Mental Health Regional High Specialty Hospital (HRAESM/DG/UEI/467/2021), and we followed the Official Mexican Standard NOM-012-SSA3-2012 guidelines, and Helsinki’s Declaration of Ethical principles.

This study includes evaluation of medical history, sociodemographic data, anthropometric measures, symptoms of acute COVID-19, and Hamilton Rating Scale for Depression Rating (HRSD) and Hamilton Rating Scale for Anxiety (HARS). We collected sociodemographic (age, gender, occupation, education, marital status, socioeconomic status) and clinical features with a structural questionnaire containing the medical history (comorbidities) of healthcare personnel with post-COVID-19 condition. After the interview, we measured weight and height to establish body mass index, obesity, and overweight diagnostics. BMI was calculated according to the Centers for Diseases Control and Prevention (CDC) (weight in kilograms divided by the square of height in meters; kg/m²)²¹. We collected 4mL blood venous samples from a single EDTA tube to determinate the inflammatory markers. The white blood cells count (WBC, 10^3 cells/mL), mean corpuscular volume (MCV, fL), red cell distribution width (RDW, %), neutrophil, lymphocyte, platelet, and monocyte count were determined with CELLDYN Ruby (Abbott). We used these data for SII, NLR, PLR, MLR determination. We calculated these hematological inflammatory indexes with formulas as follows: SII index = (platelets count × neutrophils count)/lymphocytes count; PLR = platelets count/lymphocytes count; MLR = monocytes count/lymphocytes count; NLR = neutrophils count/lymphocytes count. We classified the inflammatory markers values in tertiles.

Hamilton Rating Scale for Depression (HRSD) is a validated asses in Spanish (Cronbach’s alpha of 0.92), which evaluate the severity of depressive symptoms such as no depression (0-6) and scores indicate mild depression (7-17), moderate (18-24) and severe (>24) depression. Furthermore, include somatic symptoms, vegetative, cognitive and anxiety symptoms. Hamilton Rating Scale for Anxiety (HARS) is a validated version with permitted to assess the severity of anxiety symptoms (Cronbach’s alpha of 0.89.); mild anxiety (6-17); moderate anxiety (18-24); severe anxiety (25-30) and very severe anxiety (31-56). It consists of 14 items, evaluating psychological and somatic symptoms, which include anxious mood, tension, fears, insomnia, cognition, depressed mood, somatic and autonomic symptoms.

We described numerical variables as mean ± standard deviation (SD) for variables with normal distribution; otherwise, we employed median and interquartile range (IQR). The categorical variables are expressed as frequency and percentages (%). We performed Shapiro-Wilks test to assess normality in our sample. We used the Chi-squared test for categorical variables; for numerical data, we made ANOVA or Kruskal Wallis tests. P-value <0.05 was considered significant in all analyses. Chi-squared test, Kruskal Wallis test, and ANOVA test were made with SPSS v. 26. Word cloud of symptoms was made with word cloud package for R studio v.4.2.

Results

Sociodemographic and clinical characteristics in health personnel post-COVID-19

This study included 51 health personnel (29 female and 22 male). The mean age was 40.55 ± 11.00 years. We evaluated variables such as schooling (16.32 ± 4.07 years), weight (80.37 ± 14.74 Kg), and Body Mass Index (30.80 ± 5.65). In addition, we found that (92.15% n=47) of the participants with mild COVID-19 symptoms required home treatment in social isolation, and only one healthcare worker was hospitalized (Table 1).

Table 1 Psychiatric assessment, Inflammatory markers in post-COVID-19 Mexican health personnel.

Variables	Value
Age (years) (M ± SD)	40.55 ± 11.00
Schooling (years) (M ± SD)	16.32 ± 4.07
Weight (kilograms) (M ± SD)	80.37 ± 14.74
Body Mass Index (M ± SD)	30.80 ± 5.65
Psychiatric assessment (n=51)	n (%)
Anxiety, n (%)	37 (72.5)
mild anxiety	20 (54.9%)
moderate anxiety	5 (9.8%)
severe anxiety	1 (2%)
very severe anxiety	2 (3.9%)
Depression, n (%)	26 (51)
mild depression	21 (41.2%)
moderate depression	4 (7.8%)
severe depression	1 (2%)
Inflammatory markers	M ± SD, Median (IQR)
SII, Median (IQR)	430294 (288358 - 514052)
NLR, Median (IQR)	1.51 (1.22 - 2.02)
PLR, (M ± SD)	122 ± 42.64
MLR, Median (IQR)	0.22 (0.17 - 0.26)

Source: Authors' own elaboration from the study survey. M: mean; SD: standard deviation; SII: Systemic immune-inflammation index; NLR: neutrophil-lymphocyte ratio; PLR: platelet-lymphocyte ratio; MLR: monocyte-lymphocyte ratio

Anxiety and depression in health personnel postCOVID-19

According to the Hamilton Rating Scale for Anxiety (HARS), we detected anxiety (72.5%, n=37) in healthcare personnel; when the results were stratified by categories, we found mild anxiety (54.9%, n=20), moderate anxiety (9.8%, n=5) severe anxiety (2%, n=1), and very severe anxiety (3.9%, n=2). Besides, considering the Hamilton Rating Scale for Depression Rating (HRSD), we detected depression in (51%, n=26) healthcare workers. Similarly, when stratified by categories, we observed mild depression (41.2%, n=21), moderate depression (7.8%, n=4), and severe depression (2%, n=1). We observed a predominance of anxiety (54%, n=20) and depression (65%, n=17) in female health personnel in comparison with male health personnel with anxiety (46%, n=17) and depression (35%, n=9) (Table 1).

Inflammatory markers in health personnel postCOVID-19

In table 1we described the mean/median value for hematological inflammatory markers and the highest and lowest ratio of SII (9.52 - 1.21), NLR (3.20 - 0.59), PLR (216.40 - 29.09), and MLR (1.14 - 0.08) indexes of postCOVID-19 condition in healthcare workers. We found no significant differences when we performed the variance analysis for the biochemical parameters and inflammatory markers.

On the other hand, related to COVID-19 symptoms we found that dysgeusia (80.39%, n=20) was the most frequent acute symptom, other symptoms that the health personnel presented were anosmia (76.47%, n=18), and headache (70.58%, n=17) (Figure 1). The most common comorbidities include overweight (47.05%, n=24), obesity (43.13%, n=22), and hypertension 21.56%.

Figure 1. Acute symptoms of COVID-19 in Mexican health. Source: Authors own elaboration using R studio.

Anxiety, depression, and inflammatory markers of post- COVID-19 condition in healthcare personnel

The hematological inflammatory indexes were divided into the following tertiles values: SII (<3.16x10³, 3.16-4.74x10³ and >4.743 x10³), NLR (<1.35, 1.35-1.73 and >1.73), PLR (<103.9, 103.9-134.8 and >134.8) and MLR (<1860, 0.186-0.248 and >0.2487); each tertile included 17 subjects (Supplementary table 1 - 4). In the present study we did not observe an association between depression, anxiety, and inflammatory markers in health personnel post-COVID-19 (Table 2).

Table 2 Inflammatory ratios with depression, anxiety, comorbidities, pharmacotherapy, and symptoms in post-COVID-19 Mexican health personnel

Variables	X², p
Variables	Tertiles
	SII	NLR	PLR	MLR
Depression
Mild depression	4.98, 0.28	6.13, 0.18	1.13, 0.88	2.53, 0.63
Moderate depression	4.30, 0.36	5.80, 0.21	2.52, 0.64	2.67, 0.61
Severe depression	1.04, 0.59	1.04, 0.59	1.05, 0.59	1.04, 0.59
Anxiety
Mild anxiety	3.85, 0.42	2.39, 0.66	0.76, 0.94	2.06, 0.72
Moderate anxiety	2.72, 0.60	2.72, 0.60	2.40, 0.66	1.78, 0.77
Severe anxiety	3.12, 0.53	3.12, 0.53	2.95, 0.56	3.00, 0.55
Very severe anxiety	1.04, 0.59	1.04, 0.59	1.05, 0.59	1.04, 0.59
Comorbidities
Alcoholism	2.31, 0.31	2.31, 0.31	1.32, 0.51	6.29, 0.04
Hypertension	9.96, <0.01	4.40, 0.11	3.70, 0.15	4.40, 0.11
Overweight	1.41, 0.49	0.47, 0.79	6.13, 0.04	5.55, 0.06
Pharmacotherapy
Hydroxycloroquine	2.14, 0.34	0, 0.1	0, 1.0	6.35, 0.04
Symptoms
Sudden onset	5.20, 0.07	10.23, <0.01	1.17, 0.55	1.17, 0.55
Rhinorrhea	4.43, 0.10	10.61, <0.01	3.0, 0.22	2.53, 0.28
Abdominal pain	2.07, 0.35	7.41, 0.02	2.07, 0.35	4.74, 0.09
Arthralgia	4.39, 0.11	5.80, <0.05	2.98, 0.22	1.09, 0.57

Source: Authors' own elaboration from the study survey Abbreviations: x2, Chi-square test; SII, Systemic immune-inflammation index; NLR, neutrophil-lymphocyte ratio; PLR, platelet-lymphocyte ratio; MLR, monocyte-lymphocyte ratio; p ≤ 0.05

Abbreviations: x², Chi-square test; SII, Systemic immuneinflammation index; NLR, neutrophil-lymphocyte ratio; PLR, platelet-lymphocyte ratio; MLR, monocytelymphocyte ratio; p ≤ 0.05

We found SII (>4.743 x10³) associated with hypertension (p=0.007) (Table 2, Supplementary table 1). According to assessments, the COVID-19 symptoms associated with high NLR were sudden onset (p=0.006), rhinorrhea (p=0.005), abdominal pain (p=0.025), and arthralgia (p=0.048) (Table 2, Supplementary table 2). PLR was associated with a comorbidity (overweight; p=0.046) (Table 2, Supplementary table 3). In addition, MLR (>0.25) showed an association with alcoholism (p=0.043). Regarding pharmacotherapy, hydroxychloroquine presented an association with medium MLR levels (p=0.041) (Table 2, Supplementary table 4). Notably, we observed differences between post-COVID months, PLR and SII. Higher levels of PLR were associated (p=0.026) with fewer months after COVID infection (8.47±6.67, 11.94±5.84, 14.00±4.80 for high, medium, and low levels; respectively). Likewise, SII had associations (p=0.031) with post-COVID months (9.47±7.04, 10.35±6.11, 14.59±3.92 for high, medium, and low levels; respectively). Nonetheless, we did not observed association between postCOVID months and NLR (p=0.092) and MLR (p=0.507).

Supplementary Table 3. PLR with depression, anxiety, and clinical features in post-COVID-19 Mexican health personnel.

Variables	PLR tertiles			X², p
Variables	Low <103.9; n=17	Medium 103.9-134.8; n=17	High >134.8; n=17	X², p
Depression
Normal	10 (58.8%)	8 (47.1%)	7 (41.2%)	3.35, 0.764
Mild depression	6 (35.3%)	7 (41.2%)	8 (47.1%)
Moderate depression	1 (5.9%)	1 (5.9%)	2 (11.8%)
Severe depression	0 (0%)	1 (5.9%)	0 (0%)
Anxiety
Normal	5 (29.4%)	3 (17.6%)	6 (35.3%)	4.88, 0.770
Mild anxiety	10 (58.8%)	11 (64.7%)	8 (47.1%)
Moderate anxiety	2 (11.8%)	1 (5.9%)	2 (11.8%)
Severe anxiety	0 (0%)	1 (5.9%)	0 (0%)
Very severe anxiety	0 (0%)	1 (5.9%)	1 (5.9%)
Comorbidities
Alcoholism	3 (17.6%)	3 (17.6%)	1 (5.9%)	1.33, 0.516
Hypertension	1 (5.9%)	5 (29.4%)	5 (29.4%)	3.71, 0.157
Overweight	7 (41.2%)	5 (29.4%)	12 (70.6%)	6.14, 0.046
Pharmacotherapy
Hydroxycloroquine	1 (5.9%)	1 (5.9%)	1 (5.9%)	0.00, 1.000
Symptoms
Sudden onset	5 (29.4%)	6 (35.3%)	8 (47.1%)	1.17, 0.556
Rhinorrhea	5 (29.4%)	8 (47.1%)	10 (58.8%)	3.01, 0.222
Abdominal pain	1 (5.9%)	4 (23.5%)	3 (17.6%)	2.08, 0.354
Arthralgia	9 (52.9%)	11 (64.7%)	6 (35.3%)	2.98, 0.225

Source: Authors' own elaboration from the study survey. Abbreviations: x2, Chi-square test; PLR, platelet-lymphocyte ratio; p ≤ 0.05

Supplementary Table4. MLR with depression, anxiety, and clinical features in post-COVID-19 Mexican health personnel

Variables	MLR tertiles			X², p
Variables	Low <0.186; n=17	Medium 0.186-0.249; n=17	High >0.249; n=17	X², p
Depression
Normal	8 (47.1%)	9 (52.9%)	8 (47.1%)	3.44, 0.752
Mild depression	8 (47.1%)	5 (29.4%)	8 (47.1%)
Moderate depression	1 (5.9%)	2 (11.8%)	1 (5.9%)
Severe depression	0 (0%)	1 (5.9%)	0 (0%)
Anxiety
Normal	3 (17.6%)	6 (35.3%)	5 (29.4%)	5.67 0.684
Mild anxiety	10 (58.8%)	9 (52.9%)	10 (58.8%)
Moderate anxiety	3 (17.6%)	1 (5.9%)	1 (5.9%)
Severe anxiety	0 (0%)	1 (5.9%)	0 (0%)
Very severe anxiety	1 (5.9%)	0 (0%)	1 (5.9%)
Comorbidities
Alcoholism	2 (11.8%)	5 (29.4%)	0 (0%)	6.29, 0.043
Hypertension	1 (5.9%)	4 (23.5%)	6 (35.3%)	4.41, 0.111
Overweight	6 (35.3%)	6 (35.3%)	12 (70.6%)	5.67, 0.059
Pharmacotherapy
Hydroxychloroquine	0 (0%)	3 (17.6%)	0 (0%)	6.38, 0.041
Symptoms
Sudden onset	6 (35.3%)	5 (29.4%)	8 (47.1%)	1.17, 0.556
Rhinorrhea	5 (29.4%)	9 (52.9%)	9 (52.9%)	2.53, 0.282
Abdominal pain	0 (0%)	4 (23.5%)	4 (23.5%)	4.74, 0.093
Arthralgia	10 (58.8%)	9 (52.9%)	7 (41.2%)	1.10, 0.577

Source: Authors' own elaboration from the study survey. Abbreviations: x2, Chi-square test; PLR, platelet-lymphocyte ratio; p ≤ 0.05

Discussion

In this study we observed a high frequency of anxiety and depression in healthcare workers with post COVID-19 condition. However, no association between hematological inflammatory markers and depression, anxiety was found. Recent literature reports the presence of anxiety, depression, posttraumatic stress symptoms and sleep disturbance after acute SARS-COV2. During the COVID-19 pandemic, general population and healthcare personnel has presented a higher risk of anxiety and mood disorders²². However, after acute infection the cases reported with depression were 44%, and 15% after 3 or more months after infection²³.

In recently publication, no-association between anxiety, depression, and hematological inflammatory markers was reported. The authors suggest that psychological factors should be taken into consideration and analyzed while determining associations between hematological inflammatory indexes and psychiatric disorders; this inflammation may represent the severity of the condition, this indirectly affects depression and anxiety.(24)²⁴ Our main finding was the presence of mild anxiety (54.9%) and mild depression (41.2%), suggesting that due to the severity of these symptoms the lack of association with inflammation markers was found. In accordance with ^{Swami, et al (2022)}, the authors reported no-association of inflammatory biomarkers with depression, anxiety and stress scores in the subjects post-COVID-19 condition²⁴.

In contrast to our results, existing data have shown that hematologic inflammatory markers are associated with psychiatric symptoms, these studies were performed with baseline data of hematological inflammatory markers. Besides, changes in SII influence the depressive symptoms¹⁷. Existing data reported depressive and anxiety symptoms post-COVID-19²⁵^,²⁶. However, there is a wide variation of depression and anxiety data between studies (5.8%⁴, 37%²⁷, and 91.2%²⁵). Li et al., (2022) demonstrated higher scores of anxiety and depression symptoms in females²⁸. In that respect, we observed in our population the presence of anxiety (72.5%) and depression (51%). Current guidelines suggest that the frequency of sequelae is higher in women than in men. Besides, a study reported that non-hospitalized patients who attended a neuro-COVID-19 clinic: 70% of patients were women with neurological symptoms with more than 6 weeks after COVID-19. Similarly, another study reported depressive symptoms between 11% and 28% 3 months after acute infection²⁹.Existing reports suggest that people affected by COVID-19 with mild symptoms, medical care at home, and without direct medical observation, could have implications for mental health in the post-COVID-19 condition³⁰. Besides, ^{Damiano et al., (2022)} suggest that all post-COVID-19 patients require psychiatric screening regardless of COVID severity⁹.

The mechanism that relates psychiatric disorders after acute COVID-19 infection is the immune-inflammatory system disruption. Furthermore, pandemic related psychological stressor (social isolation), previous psychiatric history, and persistent psychological distress throughout the acute SARSCOV2 infection could influence the risk of mixed emotional disorders in post-COVID-19 condition³¹. Moreover, neuroinflammation could be mechanism to explore in healthcare personnel in post-COVID-19 condition. We found inflammatory maker associations with PLR and SII; these results point that PLR and SII could be used as novel inflammatory biomarkers to predict the severity of disease in obese and overweight healthcare personnel post-COVID-19 condition. We observed an association of inflammatory markers with some comorbidities (SII with hypertension; PLR, and MLR with overweight). The literature proves the positively correlation between SII and PLR with mortality in COVID-19³²^,³³. Besides, higher levels of SII were reported in hospitalized patients with COVID-19, and PLR with higher values in obese and morbid obese people³⁴. According to this, the Mexican population is well characterized by overweight and obesity.

We acknowledge the limitations in our study, we included a small sample of healthcare personnel with post-COVID-19 condition, it represents a non-probabilistic sample. Besides, only one subject required hospitalization, and we have no data available regarding the hematological baseline markers to evaluate inflammatory differences. We considered that healthcare personnel suffered high stress levels during the pandemic, this factor could lead to unknown or undiagnosed psychiatric condition. Not only we could not gather information of occupational stress throughout the pandemic, but also it could represent a bias of mixed emotional disorders not associated with COVID-19. Finally, we did not perform a multivariate logistic regression to discard confounders. We suggest a larger sample and comparisons between non-hospitalized and hospitalized healthcare personnel, as well as a multivariate analysis to demonstrate associations or correlations between hematological markers and neuropsychiatric symptoms.

Conclusion

In our study, we observed anxiety and depression in postCOVID-19 condition. In addition, anxiety was more frequent in female healthcare personnel. However, we did not observe an association between inflammatory markers (NLR, PLR, MLR, and SII) with anxiety and depression in health personnel post-COVID-19. The need for further research into the management of post-COVID-19 condition in healthcare professionals and the general population has been suggested by several researchers. These require the implementation of timely identification of affected people, physical rehabilitation, and mental health support services, for the well-being of the population with the effects of COVID-19. We suggest follow-up assessments in healthcare personnel with post-COVID-19 condition, to evaluate if anxiety and depression symptoms persist.

References

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Ethical consideration

²This study was approved by the ethics committee of the Mental Health Regional High Specialty Hospital (HRAESM/DG/UEI/467/2021), and we followed the Official Mexican Standard NOM-012-SSA3-2012 guidelines, and Helsinki’s Declaration of Ethical principles.

Financing

The authors declare no financial or proprietary interests in any material discussed in this article.

Received: September 25, 2023; Accepted: November 09, 2023

^*Corresponding Author: Villar-Soto Mario. Postal address: Ramon Mendoza 242, José María Pino Suarez 86029, Villahermosa, Tabasco, México. Email address: mariovillarsoto01@gmail.com

The authors have no conflict of interest to declare.

Conceptualization: J.J.M.M., M.V.S.; Data curation: C,Y.A.G., R.E.S.R., G.A.N.R.; Formal analysis: G.A.N.R., J.J.M.M.; Acquisition Financing: M.V.S.; Investigation: C,Y.A.G., D.R.R., R.E.S.R.; Methodology: G.A.N.R., J.J.M.M.; Project administration: M.V.S.; Resources: M.V.S.; Software: G.A.N.R., J.J.M.M.; Supervision: J.J.M.M., M.V.S.; Validation: J.J.M.M., M.V.S.; Visualization: D.R.R., G.A.N.R.; Editorial - Original draft: C,Y.A.G., R.E.S.R.; Writing: review and editing: D.R.R., G.A.N.R., J.J.M.M., M.V.S.

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