Low Concentrations of Dehydroepiandrosterone Sulfate are Associated with Depression and Fatigue in Patients with Non-Small-Cell Lung Cancer After Chemotherapy.

BACKGROUND: Dehydroepiandrosterone (DHEA) and DHEA sulfate (DHEAS) concentrations were reported to decrease in patients with advanced cancer. However, the clinical significance of DHEA and DHEAS concentrations in patients with NSCLC receiving chemotherapy (CT) has not been sufficiently documented.
OBJECTIVE: To evaluate the correlation between mental health and hormone concentrations on patients with advanced non-small-cell lung cancer (NSCLC).
MATERIALS AND METHODS: The present study was a cross-sectional analysis based on a self-reported psychological investigation. Salivary samples were collected from 22 patients with advanced NSCLC after CT and 17 healthy controls. The concentrations of DHEA, DHEAS, and cortisol were analyzed to investigate their associations with the results of self-reported questionnaires on psychological health.
RESULTS: Patients with advanced NSCLC exhibited significantly higher Patient Health Questionnaire (PHQ-9) and Startle, Physiological arousal, Anger, and Numbness-Chinese version (SPAN-C) scores, poorer health conditions, lower sleep quality, and more severe fatigue after CT than did healthy controls, and salivary concentrations of DHEA and DHEAS were significantly lower among patients after CT than among controls. DHEAS concentrations were negatively associated with depression scores (PHQ-9, r = -0.496, P = 0.019) and fatigue scores (Brief Fatigue Inventory-Taiwan, r = -0.562, P = 0.006).
CONCLUSION: Patients with advanced NSCLC after CT had lower DHEA and DHEAS concentrations than did controls. Lower DHEAS concentrations were associated with higher fatigue and depression scores.

Background

Cancer is among the leading causes of death worldwide. Lung cancer is the most commonly diagnosed cancer and the leading cause of cancer-related deaths worldwide.1 However, the overall survival rate among patients with non-small-cell lung cancer (NSCLC) has improved in the past two decades.2 With the prolonged survival time of lung cancer patients, psychosocial health is the same important in lung cancer patients. Compared with other cancers, lung cancer remains insufficiently studied from the viewpoint of psychosocial health.3 Despite the advantages of targeted therapy and immunotherapy, platinum-based chemotherapy (CT) remains the gold standard for most patients with lung cancer.4 Over the course of CT, most patients with lung cancer experience pain, depression, and fatigue.5 Previous studies have reported that patients with lung cancer exhibited the highest intensity of stress among patients with 14 types of cancer,6 and these patients also exhibited the highest prevalence of major depression disorder among patients with 10 types of cancer.7 On average, depression affects 23–40% of patients with lung cancer, and approximately 43% of patients with lung cancer experienced moderate to severe fatigue.8,9

Current theories regarding mechanisms underlying cancer-related fatigue (CRF) and depression were both associated with hypothalamic–pituitary–adrenal (HPA) axis dysfunction.10,11 Dehydroepiandrosterone (DHEA) and DHEA sulfate (DHEAS) are androgen precursors synthesized and secreted primarily by the adrenal cortex. Compared with DHEA, DHEAS has a longer half-life and fewer circadian variations.12 Low serum concentrations of DHEA and DHEAS are associated with metabolic and cardiovascular diseases, decline in muscle mass, poor physical performance, mood changes, and memory deficits.13 Patients with lung cancer were reported to have lower concentrations of serum DHEAS,14 and patients with advanced cancer were reported to exhibit low endogenous DHEAS production.15 DHEA and DHEAS concentrations were both substantially lower during targeted therapy with gefitinib than pretreatment values in patients with lung cancer.16 However, the effects of DHEA or DHEAS concentrations on patients with lung cancer receiving CT have not been satisfactorily established thus far. We do not yet know the exact physiologic or psychological effect of stress-related hormone in cancer patients. Limited research has been conducted on the neuroendocrine system in cancer patients with cancer-related fatigue and depression. In the present study, the association between hormones and psychological health in patients with lung cancer receiving CT was evaluated.

Materials and Methods

Participants

The present study is a prospective, cross-sectional analysis based on a self-reported psychological investigation. We included patients at least 20 years with pathologically proven primary NSCLC who received CT at Chiayi Chang Gang Memorial Hospital between November 2017 and June 2019. Patients were included if they had stage IIIb or IV NSCLC. Platinum-based chemotherapy regimen used in our patients could be cisplatin or carboplatin plus a third-generation agent (ie, gemcitabine, vinorelbine, a taxane, or pemetrexed) according to National Comprehensive Cancer Network (NCCN) guideline of NSCLC.17 The post-CT period was defined as 3–6 months after platinum-based CT treatment. Demographically matched healthy participants with no recent infections or cancer history at the time of the evaluation were recruited through an advertisement at the hospital. In total, 66 patients met the eligibility requirements, but 44 refused to participate. Finally, we enrolled 22 NSCLC patients in the post-CT group and 17 healthy participants in the control group.

Clinical staging was determined according to the Cancer Staging Manual of the American Joint Committee on Cancer, 7th edition,18 and the staging was confirmed by multidisciplinary committees. Patients were excluded if they had an Eastern Cooperative Oncology Group (ECOG) performance status19 of >2, were unable to complete questionnaires, did not provide informed consent, had brain metastases, or received brain radiotherapy or surgical interventions.

The Institutional Review Board of Chang Gung Memorial Hospital approved the protocol (201700297B0C604) followed in the present study and conformed to the Helsinki Declaration. Each participant was assigned an ID code for confidentiality and anonymity. All data were collected and classified using these ID codes. Anonymized data were recorded, and analyses were conducted using SPSS (SPSS Inc., Chicago, Ill., USA). Confidentiality of participants was respected and preserved throughout the trial. All investigations were performed after written informed consent was provided by participants.

Questionnaires

We used previously validated questionnaires such as depression (Patient Health Questionnaire [PHQ-9]),20 family support (Family APGAR index),21 post-traumatic stress disorder in terms of Startle, Physiological arousal, Anger, and Numbness-Chinese version (SPAN-C),22,23 general health status (EQ-5D visual analog scale [EQ-5D VAS]),24 fatigue (Brief Fatigue Inventory-Taiwan),25 sleep quality (Pittsburgh Sleep Quality Index, [PSQI]),26 and anxiety (Hospital Anxiety and Depression Scale, [HADS]), for investigating the health status of participants.27 Lung cancer patients receiving chemotherapy regular follow up at our pulmonary and oncology outpatient clinics were invited consecutively to take part in this study. Once our research assistants received referral from in-charge doctors or case manager, they went to the above settings to contact patients. After explaining the study procedure and aims, those who agreed to sign an informed consent form were enrolled in the study. Research assistants under the supervision of a psychiatrist and clinical psychologists administered these questionnaires.

Salivary Stress Hormone Assay

Before saliva collection, we first checked the oral health of participants. To avoid the interference of blood stress hormone, participants who exhibited oral conditions with bleeding, such as periodontal disease or wounds in the mouth, were excluded. Participants were asked to rinse their mouths thoroughly with cold water. After 10 min, 2 mL of saliva was collected in a polypropylene tube during the daytime. Colorless saliva samples were transported to the laboratory in ice bags. The saliva samples were centrifuged at 2000 ×g for 10 min at 4°C. Aliquots of the supernatant were stored at −80°C. The salivary DHEA, DHEAS, and cortisol concentrations were evaluated using the enzyme-linked immunosorbent assay, following the manufacturer’s instruction manual (IBL International, Germany, RE62051, RE52661, and RE52611). Both a standard curve and interpolation were applied to convert the absorbance value into the hormone concentration.

Statistical Analysis

Differences between groups were analyzed using Pearson’s chi-square test, and analysis of variance was used to examine categorical variables. The independent sample Kruskal–Wallis test was used for all continuous variables because of the small sample size and unequal distribution among groups. We used Spearman’s rank correlation to evaluate the correlation between neuroendocrine hormone concentrations and psychological health data. The threshold for statistical significance was set at 5%. All analyses were performed using PASW Statistics 18 (SPSS Inc., USA).

Results

The two groups did not differ statistically in age, sex, educational level, or demographic status (Table 1). The percentages of visits to psychiatrists and psychiatric medication prescriptions tended to be higher in the post-CT group than in the control group; however, the trends were not significantly different (Table 1).

Table 1

Sociodemographic and Clinical Data of Patients with Lung Cancer

Variables	Post-Chemotherapy(N = 22)	Healthy Control(N = 17)	P
	N (%)	N (%)
Age, mean ± SD	62.09 ± 5.79	62.35 ± 8.99	0.913
Education (years), mean ± SD	9.82 ± 4.24	10.65 ± 4.54	0.561
Sex			0.361
Female	16 (72.7%)	10 (58.8%)
Male	6 (27.3%)	7 (41.2%)
Marriage			0.373
Unmarried	1 (4.5%)	0
Married	21 (95.5%)	17 (100%)
Living Status			0.202
Live alone	2 (9.1%)	0
Live with others	20 (90.9%)	17 (100%)
Smoking			0.091
Current	1 (4.5%)	0
Former	13 (59.1)	5 (29.4%)
Never	8 (36.4%)	12 (70.4%)
Psychiatrist visit	5(22.7%)	1 (5.9%)	0.361
Psychiatric medication	6(27.3%)	1 (5.9%)	0.222

Abbreviation: SD, standard deviation.

The post-CT group exhibited significantly higher PHQ-9 scores and lower EQ-5D VAS scores than did the control group (6.45 ± 6.05 vs 1.00 ± 1.80, P < 0.001; 59.55 ± 19.45 vs 75.29 ± 14.19, P = 0.008, respectively, Table 2). The post-CT group also exhibited lower sleep quality, which was measured using PSQI scores, than did the control group (8.31 ± 5.88 vs 4.43 ± 2.53, P = 0.002, Table 2). The salivary concentrations of DHEA and DHEAS were significantly lower in the post-CT group than in the control group (75.00 ± 63.31 vs 167.56 ± 127.16, P = 0.012; 2.12 ± 1.32 vs 3.29 ± 1.96, P = 0.032, respectively, Table 2).

Table 2

Psychological Health and Salivary Hormone Data of Patients with Lung Cancer

	Post-Chemotherapy(N = 22)	Healthy Control(N =17)	P
Psychological health questionnaires
Depression, PHQ-9	6.45 ± 6.05	1.00 ± 1.80	< 0.001*
Anxiety, HADS	2.27 ± 2.88	1.94 ± 2.63	0.714
Family support, APGAR index	8.36 ± 2.34	7.53 ± 2.40	0.282
PTSD, SPAN-C	2.05 ± 4.96	0.29 ± 0.69	0.116
Health condition, EQ-5D VAS	59.55 ± 19.45	75.29 ± 14.19	0.008*
Sleep, PSQI Global score	8.31 ± 5.88	4.43 ± 2.53	0.002*
Fatigue, BFI-T	3.76 ± 4.80	1.69 ± 3.67	0.149
Salivary stress hormones
DHEA (pg/mL)	75.00 ± 63.31	167.56 ± 127.16	0.012*
DHEAS (ng/mL)	2.12 ± 1.32	3.29 ± 1.96	0.032*
Cortisol (ug/dl)	0.14 ± 0.10	0.18 ± 0.09	0.637

Note: *P < 0.05.

Abbreviations: PHQ-9, Patient Health Questionnaire; HADS, Hospital Anxiety and Depression Scale; PTSD, post-traumatic stress disorder; SPAN-C, Startle, Physiological arousal, Anger, and Numbness-Chinese version; EQ-5D VAS, EQ-5D visual analog scale; PSQI, Pittsburgh Sleep Quality Index; BFI-T, Brief Fatigue Inventory, Taiwan version; DHEA, dehydroepiandrosterone; DHEAS, dehydroepiandrosterone sulfate.

To evaluate the correlation between salivary stress hormones and psychological health data, we used Spearman’s rank correlation. However, the salivary concentrations of DHEA, DHEAS, and cortisol were neither associated with family support nor with SPAN-C, EQ-5D VAS, PSQI, and HADS scores. We observed that fatigue and depression scores were significantly negatively correlated with the salivary concentrations of DHEAS (r = −0.496, P = 0.019; r = −0.562, P = 0.006, respectively, Table 3). The post-CT group exhibited lower salivary concentrations of DHEAS and higher fatigue and depression scores than did the control group (Table 3, Figure 1).

Table 3

Correlation Between Hormone Concentrations and Mental Health Among Patients with Lung Cancer After Chemotherapy

		DHEA	DHEAS	Cortisol
Depression, PHQ-9	r	−0.204	−0.496*	−0.125
	P	0.363	0.019*	0.609
Anxiety, HADS	r	0.028	−0.043	−0.030
	P	0.902	0.848	0.903
Family support, APGAR index	r	0.101	−0.012	0.246
	P	0.654	0.958	0.310
PTSD, SPAN-C	R	−0.107	−0.202	−0.037
	P	0.637	0.367	0.882
Health condition, EQ-5D VAS	r	0.070	0.193	0.154
	P	0.757	0.390	0.530
Sleep, PSQI global score	r	−0.350	−0.350	−0.377
	P	0.184	0.184	0.204
Fatigue, BFI-T	r	−0.298	−0.562*	0.207
	P	0.178	0.006*	0.394

Note: *P < 0.05.

Abbreviations: PHQ-9, Patient Health Questionnaire-9; HADS, Hospital Anxiety and Depression Scale; PTSD, post-traumatic stress disorder; SPAN-C, Startle, Physiological arousal, Anger, and Numbness-Chinese version; EQ-5D VAS, EQ-5D visual analog scale; PSQI, Pittsburgh Sleep Quality Index; BFI-T, Brief Fatigue Inventory, Taiwan version.

Figure 1

The scatter plots and regression line of salivary DHEAS concentration versus PHQ-9 scores and fatigue severity of post-CT lung cancer patients.

Discussion

The present study showed that the salivary concentrations of DHEA and DHEAS decreased in patients with NSCLC after CT. A low salivary DHEAS concentration was associated with more fatigue and depression among patients with NSCLC after CT.

In healthy individuals, DHEAS concentrations peak during youth and subsequently decrease with age. Patients with metastatic cancers have lower concentrations of serum DHEAS than patients without metastatic cancers or healthy individuals;14 furthermore, patients with advanced stages of cancer exhibit a greater decline in endogenous DHEAS production than did those with the early stages of cancer.15 The median age of lung cancer diagnosis is 70 years in men and women, and 37% of patients with lung cancer are older than 75 years. Furthermore, most patients with lung cancer are at an advanced stage of the disease (stage III/IV) at diagnosis. Thus, patients with lung cancer are expected to have lower DHEA and DHEAS concentrations because of old age and advanced disease status. In a previous study, DHEA and DHEAS concentrations were significantly lower during targeted therapy with gefitinib than pretreatment values in patients with lung cancer.16 However, few reports on patients with lung cancer receiving CT are currently available. In the present study, post-CT patients had significantly lower DHEA and DHEAS concentrations than did healthy controls.

DHEA and DHEAS are androgen precursors synthesized and secreted primarily by the adrenal cortex and are involved in the HPA axis. Because DHEAS has a longer half-life and fewer circadian variations than DHEA,28 its concentration can be used to evaluate the integrity of the HPA axis.13,29 Low concentrations of DHEA and DHEAS are associated with metabolic and cardiovascular diseases, decline in muscle mass, poor physical performance, mood changes, and memory deficits.13 In a recent study, Strasser et al enrolled 48 patients with advanced cancer who did not receive major anticancer intervention. Low concentrations of free testosterone (hypogonadism) were correlated with more fatigue, anxiety, depression, and low emotional well-being scores. The study demonstrated that hypogonadism contributed to fatigue and negative mood symptoms.30 In the present study, patients in the post-CT group with lower salivary DHEAS concentrations exhibited more depression and fatigue. Our findings were essentially comparable with those of previous studies.

Depression is highly associated with the diagnosis of cancer, but currently, the biology of depression in cancer patients was still controversial. Three of the prominent theories including inflammatory mediators, overactive HPA axis and excess concentrations of the neurotransmitter glutamate.11 In a case-control and meta-analysis study, decreased serum DHEAS levels are associated with the development of depression and it decreased with the rising of age.31 In a randomized control trial, using 6 weeks of DHEA demonstrated efficacy for midlife-onset major and minor depression.32 In addition, untreated Addison’s patients had subnormal DHEAS levels, and DHEA replacement was reported to improve mood and fatigue scores among patients with Addison’s disease in a double-blind randomized trial.33 DHEA may be one of the effective alternative drugs used in the treatment of depression.34

Cancer-related fatigue (CRF) is the subjective sense of tiredness or exhaustion related to cancer or cancer treatment.35 Fatigue commonly occurs with symptoms such as pain, depression, and sleep disturbance and results in the impairment of physical activity, functional status, and quality of life (QoL). Increased fatigue is also associated with low survival rates among patients with lung cancer.36 Current theories regarding mechanisms underlying CRF include hypothalamic–pituitary–adrenal (HPA) axis dysfunction, neurotransmitter or cytokine dysregulation, alterations in muscle and adenosine triphosphate metabolism, and circadian rhythm alternations. The neuroendocrine system, which includes the autonomic nervous system and HPA axis, plays a major role in managing immune or inflammatory processes and is associated with chronic fatigue syndrome in addition to CRF.10

Gender would be an important factor to influence DHEA and DHEAS but the results of previous studies were inconclusive. One study enrolled 338 African American and Caucasian women, and reported lower DHEAS levels were negatively associated with depressive symptoms in the women in the older half of this cohort but the positive relationship in younger women.37 Another study reported DHEAS levels were significantly and inversely associated with depressed mood in older women.38 Among patients with major depression disorder received medical therapy; serum levels of DHEAS in male patients were significantly decreased compared with male controls, whereas no significant differences were seen in female patients and controls.39 70–75% of female lung cancer patients in Taiwan had druggable EGFR/ALK/ROS1 mutant and received targeted therapy as first-line therapy. In our present study, patients under targeted therapy were not enrolled. Thus, there were 16 male but only 6 female. The concentrations of hormones had no statistically significant difference in both genders in our present study, but this might be because of small numbers of participants.

The present study has several limitations. First, this study was limited by its cross-sectional design and relatively small sample size. We did not have access to longitudinal data in this pilot study. Second, apart from CT, numerous other factors may cause physiological and psychological stress and result in changes in the salivary concentrations of stress hormone. We cannot conclude that CT causes low DHEA and DHEAS concentrations based on this cross-sectional analysis. Third, patients with extreme fatigue frequently experience severe discomfort simultaneously. Patients usually do not agree to sign informed consent forms and encounter difficulties in completing questionnaires. The lack of data from patients experiencing severe fatigue may have caused the underestimation of the relationship between hormone concentrations and fatigue.

Conclusions

The salivary concentrations of DHEA and DHEAS were lower in patients with NSCLC after CT than in healthy controls. Lower salivary DHEAS concentrations were associated with higher fatigue and depression scores among patients with lung cancer after CT.