key: cord-0930675-yjbzicmu
authors: Vena, W.; Pizzocaro, A.; Maida, G.; Amer, M.; Voza, A.; Di Pasquale, A.; Reggiani, F.; Ciccarelli, M.; Fedeli, C.; Santi, D.; Lavezzi, E.; Lania, A. G.; Mazziotti, G.
title: Low testosterone predicts hypoxemic respiratory insufficiency and mortality in patients with COVID-19 disease: another piece in the COVID puzzle
date: 2021-11-18
journal: J Endocrinol Invest
DOI: 10.1007/s40618-021-01700-7
sha: 844ae16793a37725414b15b0b372bee56804127b
doc_id: 930675
cord_uid: yjbzicmu

PURPOSE: Hypogonadism was described in high number of male subjects with severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection. In this study, we investigated whether low testosterone (T) values may influence the clinical presentation and outcome of SARS-CoV-2-related pneumonia in a large population of adult males with coronavirus disease 19 (COVID-19). METHODS: Two hundred twenty one adult males hospitalized for COVID-19 at the IRCCS Humanitas Research Hospital, Rozzano-Milan (Italy) were consecutively evaluated for arterial partial pressure oxygen (PaO(2))/fraction of inspired oxygen (FiO(2)) ratio, serum T and inflammatory parameters at study entry, need of ventilation during hospital stay and in-hospital mortality. RESULTS: Subjects low T values (< 8 nmol/L; 176 cases) were significantly older (P = 0.001) and had higher serum interleukin-6 (P = 0.001), C-reactive protein (P < 0.001), lactate dehydrogenase (P < 0.001), ferritin (P = 0.012), lower P/F ratio (P = 0.001), increased prevalence of low T3 syndrome (P = 0.041), acute respiratory insufficiency (P < 0.001), more frequently need of ventilation (P < 0.001) and higher mortality rate (P = 0.009) compared to subjects with higher T values. In the multivariable regression analyses, T values maintained significant associations with acute respiratory insufficiency (odds ratio [OR] 0.85, 95% confidence interval [CI] 0.79–0.94; P < 0.001 and in-hospital mortality (OR 0.80, 95% CI 0.69–0.95; P = 0.009), independently of age, comorbidities, thyroid function and inflammation. CONCLUSION: Low T levels values are associated with unfavorable outcome of COVID-19. Prospective studies are needed to evaluate the long-term outcomes of hypogonadism related to COVID-19 and the clinical impact of T replacement during and after acute illness. SUPPLEMENTARY INFORMATION: The online version contains supplementary material available at 10.1007/s40618-021-01700-7.

Since December 2019, severe acute respiratory syndrome coronavirus 2 (SARS-CoV-2) infection has become a worldwide urgent public health concern with more than 170 million of infected subjects. Despite the terrible burden of health-related consequences, including now up to 3.5 million deaths worldwide, unfortunately the majority of biological mechanisms involved in the severe acute respiratory SARS-CoV-2 infection and related COVID-19 disease, still remain unknown [1] . There is convincing evidence that males may have more severe COVID-19 with higher risk of mortality as compared to females [2] [3] [4] .

The determinants of such a gender-related variability in clinical outcome of COVID-19 are still unclear, with some authors suggesting low disease awareness and high comorbidity burden as possible determinants of more aggressive COVID-19 in males [5] . Previous studies reported low testosterone (T) serum levels in a large number of males with COVID-19 [6] [7] [8] [9] [10] [11] . However, clinical impact of T serum levels on SARS-CoV-2 infection outcomes is still unclear. In particular, it is unknown whether the clinical relevance of low T values in COVID19 may resemble that described in other acute and severe diseases [12] [13] [14] . Conversely, clinical and experimental evidence suggests role of high T values as a possible risk factor for severe COVID-19 disease trough complex androgen receptor (AR)-mediated mechanisms [15] [16] [17] .

In this monocentric study, we focused on possible impact of low T serum levels on clinical presentation and outcome of SARS-CoV-2-related pneumonia.

This is a monocentric study performed on 221 consecutive male patients hospitalized for COVID-19 at the IRCCS Humanitas Research Hospital, Rozzano-Milan, Italy between November 1, 2020 and January 31, 2021. The inclusion criteria were: (1) hospitalization for COVID-19 diagnosed by real-time reverse-transcriptase-polymerasechain-reaction assay of nasal and pharyngeal swab specimens and or bronco-alveolar lavage fluid associated with clinical and radiological signs of pneumonia [18] ; (2) male sex; (3) older than 18 years; (4) completed hospital course at study end (discharged or dead). Requirement of intubation and mechanical respiratory support at study entry was an exclusion criterion.

Testosterone was measured using Access Testosterone assay (Beckman Coulter Inc, Fullerton, CA), a competitive immunoassay method that has analytical and clinical acceptable correlation with mass-spectrometry method [19] . Other parameters were measured using standardized methods. According to total T serum levels, patients were categorized in three groups: Group I (T < 8 nmol/L), Group II (T between 8 and 12 nmol/L), Group III (T > 12 nmol/L). Patients of Group I were defined hypogonadal [20] and they were further subdivided in two categories according to serum luteinizing hormone (LH) values (LH < 9.4 U/L, LH ≥ 9.4 U/L) [20, 21] .

The first endpoint of the study was the association between serum T levels and respiratory insufficiency at study entry. The diagnostic criteria for acute hypoxemic respiratory failure were PaO 2 < 60 mmHg on room air or arterial partial pressure oxygen (PaO 2 )/fraction of inspired oxygen (FiO 2 ) ratio < 300 mmHg on oxygen, as measured by arterial blood gas analysis [22] . Secondary endpoints were the associations between serum T and (1) inflammatory markers, (2) comorbidities, (3) need of ventilation during hospital stay and (4) in-hospital mortality rate. Moreover, in 194 subjects, we evaluated the association between serum T values and thyroid function/dysfunction potentially related to COVID-19 [23, 24] .

At study entry, before starting any treatment for COVID-19, enrolled subjects were evaluated for: PaO 2 /FiO 2 ratio, hypertension, coronary artery diseases (CAD), chronic kidney disease (CKD) (from stage 3A and worse, corresponding to eGFR < 60 mL/min/1.73 m 2 , calculated by CKD-EPI), obesity (defined as a Body Mass Index > 30 kg/m 2 ), past or active cancer, chronic obstructive pulmonary disease (COPD), serum T (nmol/L), LH (U/L), 25-hydroxyvitamin vitamin D (25OHD)(ng/mL), thyroid-stimulating hormone (TSH) (µUI/mL), free-triiodothyronine (fT3) (pmol/L), freetetraiodothyronine (fT4) (pmol/L), interleukin-6 (IL-6, pg/ mL), lactate dehydrogenase (LDH) (U/L), ferritin (ng/mL), C-reactive protein (CRP) (mg/dL).

According to the Guidelines of the Italian Society of Infectious Disease [25] and to the Institutional internal protocol, patients with COVID-19 at the admission started standard therapy consisting of enoxaparin at either prophylactic or therapeutic doses according to the clinical judgment [26] , antiviral agents (lopinavir/ritonavir, remdesivir), corticosteroids and antibiotics.

Some of the enrolled patients had been already involved in other COVID-19 studies evaluating endpoints which were different from the present study [26] [27] [28] [29] [30] [31] .

The study was approved by the Ethics Committee of IRCCS Humanitas Research Hospital and the patients gave their consent to use the clinical and biochemical data for research purposes.

Data were presented as median and absolute range, unless otherwise stated. Since most of variables were non-normally distributed as assessed by Kolmogorov-Smirnov test, non-parametric tests were used. The comparisons were performed by Mann-Whitney and Kruskal-Wallis tests, with post hoc Bonferroni's correction when appropriate. Frequencies were compared by the Chi-Squared test, with Fisher's correction when appropriate. A logistic regression analysis was performed and the odds ratio (OR) with 95% confidence interval (95% C.I.) were calculated to evaluate the determinants of acute hypoxemic respiratory failure at study entry and in-hospital mortality. All risk factors with a P value under 0.10 were then submitted to multivariable logistic regression analyses taking into account the minimal guidance criterion of ten events per variable [32] . P value < 0.05 was considered as significant.

Two hundred twenty one adult subjects were included in the study, with median age of 70.5 years (range 26-93 years) and median body mass index (BMI) of 27.2 kg/m 2 (range 17.9-45.0). Study participants characteristics are summarized in Table 1 .

Normal T serum levels (Group III) were found in only 7.7% of the study population (n = 17), whereas frankly low T levels were detected in 176 patients (79.6%, Group I) and borderline T serum levels in 28 (12.7%, Group II). Subjects included in Group I were significantly older (P = 0.001) and Table 1 Demographical and clinical characteristics of study population, considering the entire cohort and the stratification for total testosterone serum levels Values in bold were statistically significant BMI body mass index, CAD coronary artery disease, CKD chronic kidney disease, COPD chronic obstructive pulmonary disease, CRP C-reactive protein, fT3 free-triiodothyronine, fT4 free-tetraiodothyronine, IL-6 interleukin-6, LDH lactate dehydrogenase, LH luteinizing hormone, PaO 2 /FiO 2 arterial partial pressure oxygen/fraction of inspired oxygen ratio, T total testosterone, TSH thyroid-stimulating hormone, 25(OH) D 25 hydroxyvitamin D Categorical data are presented as n/n or %, whereas continuous data are presented as median and range § P < 0.05 vs Group III had higher number of comorbidities (P = 0.001), serum IL-6 levels (P = 0.001), CRP (P < 0.001), ferritin (P = 0.012) and LDH (P < 0.001) compared to Group III (Table 1) . Moreover, Group I showed lower PaO 2 /FiO 2 ratio (P = 0.001) and fT3 serum levels (P = 0.041) as compared to subjects with normal T values of Group III ( Table 1) . Subjects of Group II had significantly lower IL-6 (P = 0.001), LDH (P = 0.018) and higher PaO 2 /FiO 2 ratio (P = 0.044) compared to Group I, without significant differences in CRP (P = 0.107) and ferritin (P = 0.869) values (Table 1) . Moreover, subjects of Group II had significantly higher serum CRP (P = 0.005), LDH (P = 0.04) and ferritin (P = 0.009) compared to Group III, without significant difference in PaO2/FiO2 ratio (P = 0.128) ( Table 1) . When subjects included in Group I were stratified according to LH serum levels, men with LH < 9.4 U/L were significantly younger (P < 0.001) and had lower prevalence of CAD (P = 0.008), COPD (P < 0.005) and lower comorbidities burden (P = 0.015) as compared to subjects with LH ≥ 9.4 U/L, without significant differences in BMI, arterial hypertension, diabetes mellitus, cancer, CKD, inflammatory parameters and T levels (Supplemental Table 1 ).

TSH and fT4 serum levels did not differ among groups (Table 1) . However, a significant difference in fT3 serum levels was detected among groups (P = 0.041) ( Table 1) . The low T3 syndrome could be defined as the condition in which reduced fT3 serum levels were detected together with normal TSH and fT4 serum levels [33] . The non-thyroidal illness was found in up to 48.5% (94/194) of study subjects, with significantly higher prevalence in Group I as compared to Group II and III (53.3% vs 33.3% vs 29.4%, respectively, P = 0.041) ( Table 1 ).

At study entry, 115 subjects (52.0%) fulfilled criteria for acute hypoxemic respiratory failure in association with higher ferritin (P = 0.003) and lower T values (P < 0.001) ( Table 2 ). These associations remained statistically significant in the multivariable analysis (Fig. 1) . The prevalence of acute hypoxemic respiratory failure was significantly higher in subjects of Group I as compared to both Group II (P = 0.009) and Group III (P < 0.001), without significant difference between Group II and III (P = 0.488) (Fig. 2) .

No significant difference in acute hypoxemic respiratory failure was observed in hypogonadal subjects with LH < 9.4 U/L compared to those with LH ≥ 9.4 U/L (Supplemental Table 1 ).

During hospital stay, 134 subjects (60.6%) required oxygen support (99 with high-flow nasal or mask oxygen; 33 with continuous positive airways pressure [CPAP] and two with invasive ventilation). The prevalence of patients requiring ventilation (either invasive or non-invasive) was significantly higher in Group I compared to either Group II or III (P < 0.001 for both comparisons), whereas no significant difference was observed between the latter two groups (P = 0.756) (Fig. 2) .

The overall in-hospital mortality rate was 17.6% (n = 39). All but one subjects deceased during hospitalization were included in Group I (P < 0.009 vs Group II and III). In univariable regression model, in-hospital mortality was associated with older age (P < 0.001), BMI (P = 0.003), PaO 2 /FiO 2 ratio (P = 0.010), CAD (P = 0.002), cancer (P = 0.017), COPD (P = 0.001), serum CRP (P = 0.039), IL-6 (P < 0.001), LDH (P = 0.044), T (P < 0.001) and fT3 values (P < 0.001) ( Table 3 ). In multivariable regression analyses, low T serum levels maintained the statistically significant association with in-hospital mortality independently of age, comorbidities, inflammation markers, fT3 values and BMI (Fig. 3A-C) .

In Group I, in-hospital mortality rate was significantly higher in subjects with LH ≥ 9.4 U/L vs. those with lower LH serum values (Supplemental Table 1 ). 

This study reports an association between T deficiency and high risk of acute hypoxemic respiratory failure at admission, need of oxygen support and mortality during hospital stay in adult males with COVID-19, independently of age, inflammatory markers, low T3 syndrome and comorbidity burden.

Advanced age and comorbidities are unequivocally associated with faster T decline in men [34] [35] [36] . It is largely demonstrated that acute and critical illnesses cause a T decrease due to the direct action of cytokines on Leydig [37] , as well as a reduction of LH secretion by the pituitary during the chronic phase [38] . Large epidemiologic studies report hypogonadism prevalence from 9 to 17% in elderly population [35, 36] , with increased prevalence up to 50% in hospitalized elderly subjects (mean age 86 years); moreover, an inverse correlation between serum T levels and mortality was reported [14] . Interestingly, Iglesias et al. reported respiratory tract infection as the main cause of hospitalization in hypogonadal men [14] . However, a correlation between hypogonadism and susceptibility to infections is not yet clear. Indeed, T acts as a modulator of immune response [39, 40] , but, at the same time, one could argue that the inflammation could be itself the cause of T secretion reduction. In attempt to explain the higher COVID-19 mortality rates observed in the male population, the possible role of T during the disease course has been largely debated [41] , but only few studies have properly investigated its role in the clinical setting.

First, a significant association between low T and both inflammation parameters and COVID-19 disease course severity was described by few studies so far. Rastrelli et al. reported for the first time the increase of inflammatory markers (IL-6, CRP, PCT, LDH and white blood cells) in a small groups of subjects with lower T (i.e., T < 5.0 nmol/L) admitted to intensive care units (ICU) due to COVID-19 pneumonia as compared to those with higher T serum levels at time of admission [6] . Similar findings have been later confirmed in larger cohorts of COVID-19 affected subjects, either asymptomatic or admitted to internal medicine wards and ICU [7] [8] [9] [10] . These studies are poorly comparable, due to the different thresholds applied to identify low T subjects and the heterogeneity of the populations involved (e.g., ICU vs asymptomatic subjects). The high prevalence observed in our cohort suggests a specific association between SARS-CoV-2 infection and gonadal failure, possibly involving the whole hypothalamic-pituitary-gonadal (HPG) axis, in association with a higher degree of systemic inflammation, as similarly described for other endocrine glands [28, 42] .

The prevalence of hypogonadism is increased within specific populations, including patients with diabetes, metabolic syndrome, obesity, cardiovascular disease, COPD, renal disease and cancer [43] . Consistently, a high burden of comorbidities was observed in our low T population, with more than 50% of subjects with low T values having 2 or more comorbidities. Moreover, up to 50% of the population was found to have low T3 syndrome, which is an established predictor of higher mortality among COVID-19 hospitalized subjects [23, 24] . However, when the potential clinical impact of low T values was evaluated, we found that low T serum levels were associated with unfavorable COVID-19 outcomes, independently of comorbidities burden, thyroid status and inflammation markers. This finding fosters the hypothesis that low T values should be considered as a direct consequence of COVID-19 disease rather than an epiphenomenon of systemic illness or inflammation.

High rates of acute respiratory insufficiency were reported among low T populations with COVID-19 disease, ranging from 62.5 to 100% of individuals, and worse respiratory outcomes have been found in the hypogonadal groups as compared to normal T subjects by some [6, 7, 9, 11] , but not all authors [8] . We found a significant difference in acute respiratory insufficiency prevalence between low T and normal subjects. A multivariable logistic regression analysis allowed us to confirm the direct relationship between T levels and respiratory insufficiency at admission, independently from other confounding factors. A higher risk of hospitalization for respiratory cause has been previously reported among hypogonadal subjects [14] . This could be directly due to the role of hypoxemia and hypercapnia, rather than inflammatory state itself, reducing serum T, as described in adult COPD subjects [44] . Nevertheless, the exact mechanism of such association remains unclear.

Mortality rates, similarly to respiratory outcomes, appear to be quite variable across the COVID-19 hypogonadal populations, ranging from 5 to 27% [7, 9] . This variability likely reflects the highly heterogeneous study populations. Among Table 3 Determinants of in-hospital mortality in 221 male subjects hospitalized for COVID -19 Values in bold were statistically significant BMI body mass index, CAD coronary artery disease, CKD chronic kidney disease, COPD chronic obstructive pulmonary disease, CRP C-reactive protein, fT3 free-triiodothyronine, IL-6 interleukin-6, LDH lactate dehydrogenase, LH luteinizing hormone, PaO 2 /FiO 2 arterial partial pressure oxygen/fraction of inspired oxygen ratio, T total testosterone these, indeed, some studies reported an increased mortality rate across low T subjects [7, 9, 10] , whereas others could not describe a similar association [6, 8] . In our population, overall mortality was as high as 17.6%, confirming results obtained from a recent meta-analysis involving hospitalized subjects with COVID-19 [45] . Interestingly, in our large and homogeneous population of elderly adults with mild to moderate conditions at hospital admission, we could describe Fig. 3 Multivariable regression analyses evaluating the determinants of in-hospital mortality in male subjects hospitalized for COVID-19. The three analyses (3A,B,C) were performed taking into account the minimal guidance criterion of ten events per variable [32] . The bold values were statistically significant. BMI body mass index, CAD coronary artery disease, COPD chronic obstructive pulmonary disease, fT3 free-triiodothyronine, IL-6 interleukin 6, LDH lactate dehydrogenase

for the first time among low T subjects both an increased serum level of inflammatory markers and a significantly higher risk of acute hypoxemic respiratory failure and mortality (Fig. 3) . Thus, we could speculate that low T serum levels could be the result of a higher degree of inflammation and systemic allostatic mechanisms, as confirmed by significantly lower fT3 serum levels observed in Group I subjects. However, multivariable regression analyses showed the independent relation between inflammatory markers, age and comorbidities and the main study outcomes. These observations suggest a direct relationship between low T levels and unfavorable disease course, possibly related to the known immuno-modulatory action of testosterone [39, 40] , consistently with previous evidence demonstrating higher respiratory disease-related mortality in hypogonadal subjects [46, 47] . Due to the frequent association of primary hypogonadism with other conditions (e.g., Klinefelter syndrome), the extent to which different forms of hypogonadism influence mortality remain largely disputed. Interestingly, in line with observations made by Araujo et al. [46] , our cohort showed a significantly higher mortality rate in subjects with primary hypogonadism, independently from T levels. However, we recognize that age and comorbidities, are also significantly higher in the primary hypogonadism group as compared to central forms.

Lastly, some authors suggest a possible relationship between higher T values and worse COVID-19 disease mediated by AR. Indeed, the transmembrane protease serine 2 receptor (TMPRSS2) expression, essential for viral entrance in human cells, appears to be increased by the AR activation, ultimately favoring viral entrance [16] . Consistently, men receiving androgen-deprivation therapy seem to be at lower risk of infection [15] , although the causal nature of this association has not been established. Unfortunately, none of our study subjects either was receiving androgen deprivation therapy or had increased serum T levels, therefore, we could not draw any conclusion on this issue. This study has some limitations. First, the advanced patients' age suggests late-onset hypogonadism may have been the main possible cause of low T levels. Indeed, we did not provide information about previous gonadal status of enrolled subjects and testosterone values were measured in a single blood sample drawn at study entry, to rule out possible interferences induced by treatments of COVID19 used during hospital stay. This approach, did not allow also to perform a correct diagnosis of hypogonadism in all subjects as well as to define the duration of exposure to low testosterone values. Indeed, according to reference guidelines [21] , diagnosis of hypogonadism should be based on morning (08.00-10.00 a.m.) T levels below the reference range in at least two different occasions; in our study, a single measure of T was made at hospital admission, probably over-estimating the prevalence of hypogonadism. Moreover, circadian rhythms of T secretion have not been respected in T determination [48] . Again, we could not assess serum sex-hormone-binding globulin (SHBG) levels, that may have provided more reliable information on peripheral hormone status. Nonetheless, SHBG determination is particularly useful when borderline T levels are detected. However, the majority of the study population resulted to have frankly low T levels. Moreover, although elevated SHBG levels have been reported in many pathological conditions [49, 50] , the only study measuring SHBG during COVID-19 could not find differences across study subjects stratified for disease severity [6] . Finally, our study did not include a control group which may have allowed to clarify whether hypogonadism was a specific consequence of SARS-CoV-2 infection. However, the end-point of this study was the impact of hypogonadism on clinical outcome of COVID-19 rather than clarifying the determinants of hypogonadism in this clinical setting.

Notwithstanding these limitations, our results may have a relevant clinical impact. Indeed, long-term sequelae of COVID-19 are increasingly being appreciated on physical [51] and psychological [52] health. Fatigue, muscular weakness, mood swings and sleep disturbances have been reported as part of the so-called "post-acute COVID syndrome" and are all common symptoms among hypogonadal patients [53] . Consistent with the robust evidence linking T secretion impairment during acute COVID-19, one could speculate that the impairment of HPG axis could persist over time, invalidating a prompt physical and psychological recovery, especially for patients with pre-existent frailty.

This retrospective cohort adds consistent evidence to previous reports about the role of low circulating T levels as a marker of higher risk of severe outcomes among COVID-19 male patients. In view of the pandemic dimensions of COVID-19, prospective studies are needed to evaluate gonadal function in subjects recovering from illness and its relationship with long-term consequences of the disease on general health status.

Ethical approval All the procedures performed in the study were in accordance with the ethical standards of the Ethics Committee of IRCCS Humanitas Research Hospital, Rozzano-Milan, Italy, and with the 1964 Helsinki Declaration and its later amendments or comparable ethical standards.

Informed consent Informed consent was obtained from all the individual partecipants included in the study.

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