Psychological Impact of Rhinology Disorders (2024)

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Psychological Impact of Rhinology Disorders (2)Open access peer-reviewed chapter

Written By

Zahra Ebrahim Soltani and Mohammad Elahi

Submitted: 09 June 2024 Reviewed: 19 June 2024 Published: 27 November 2024

DOI: 10.5772/intechopen.1006041

IntechOpen Rhinology Conditions Contemporary Topics Edited by Mohannad Al-Qudah

From the Edited Volume

Rhinology Conditions - Contemporary Topics

Mohannad Al-Qudah

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Abstract

Rhinology disorders, including sinusitis, rhinitis, allergic diseases, and structural problems, often go unnoticed and undertreated. Yet, these seemingly localized issues can have far-reaching effects. Over time, problems in the rhino-sinus and upper airway systems can impact the nervous system, social interactions, and psychological well-being. Patients may experience anxiety, depression, and difficulties with learning, memory, and social behavior. These hidden complications are crucial for healthcare professionals to recognize, as addressing them can significantly improve patients’ quality of life. This chapter will delve deeper into the intricate relationship between rhinology disorders and psychological impacts, exploring the possible underlying mechanisms. It will offer insights into effective management and treatment strategies, aiming to empower healthcare professionals to provide holistic care that encompasses the physical, psychological, and social aspects of their patients’ lives.

Keywords

  • rhinitis
  • rhinosinusitis
  • olfactory bulb
  • depression
  • anxiety
  • cognition
  • behavior
  • mood
  • psychiatry
  • psychology

Author Information

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  • Zahra Ebrahim Soltani*

    • Experimental Medicine Research Center, Tehran University of Medical Science, Tehran, Iran
  • Mohammad Elahi

    • Center for Orthopedic Trans-disciplinary Applied Research, Tehran University of Medical Science, Tehran, Iran

*Address all correspondence to: zahra_esoltani@yahoo.com

1. Introduction

Rhinology disorders, while predominantly recognized for their physical manifestations, conceal a profound psychological impact that is often overlooked in clinical practice. This chapter seeks to illuminate the intricate connections between rhinology disorders and mental health, offering healthcare professionals a comprehensive understanding of the emotional burdens these conditions impose on patients. By exploring the psychological ramifications of chronic rhinosinusitis, nasal polyps, allergic rhinitis, and other related disorders, we aim to reveal the extensive influence these ailments have on quality of life and mental well-being. Through this exploration, we will provide valuable insights and strategies to enhance patient care, emphasizing the importance of addressing both the physical and psychological aspects of rhinology disorders.

Understanding the psychological impact of rhinology diseases is crucial for several reasons, as these conditions often extend beyond physical symptoms to profoundly affect mental health and overall quality of life. Here are key reasons why this understanding is essential:

Comprehensive patient care: rhinology diseases often lead to persistent discomfort, pain, and functional impairments. These physical symptoms can contribute to significant psychological distress, including anxiety, depression, and sleep disturbances. Acknowledging the psychological dimensions of these conditions allows healthcare providers to offer more holistic and effective patient care, addressing both physical and mental health needs.

Improved quality of life: patients with rhinology disorders frequently experience a diminished quality of life due to ongoing symptoms such as nasal congestion, headaches, and reduced sense of smell. These symptoms can interfere with daily activities, social interactions, and work productivity. Understanding the psychological impact helps in developing targeted interventions that can alleviate these symptoms and improve patients’ overall well-being.

Enhanced treatment outcomes: psychological factors can influence the course and treatment outcomes of rhinology diseases. For instance, stress and mental health conditions can exacerbate physical symptoms and hinder recovery. By integrating psychological assessment and support into the treatment plan, healthcare providers can enhance adherence to medical regimens, promote healthier coping strategies, and ultimately achieve better clinical outcomes.

Identification of comorbidities: patients with rhinology disorders often have comorbid psychological conditions that may go unrecognized and untreated. Understanding the psychological impact helps in early identification and management of these comorbidities, ensuring that patients receive comprehensive care that addresses all aspects of their health.

Patient-centered care: a patient-centered approach to healthcare emphasizes the importance of understanding the full spectrum of a patient’s experience, including their psychological and emotional well-being. By recognizing and addressing the psychological impact of rhinology diseases, healthcare providers can build stronger therapeutic relationships, improve patient satisfaction, and empower patients to take an active role in their care.

Public health implications: rhinology disorders are prevalent and can lead to significant healthcare utilization and economic burden. By understanding the psychological impact, public health strategies can be developed to support mental health initiatives, improve access to comprehensive care, and reduce the overall burden of these diseases on the healthcare system.

Research and education: highlighting the psychological impact of rhinology diseases encourages further research into the biopsychosocial aspects of these conditions. It also underscores the need for interdisciplinary education, ensuring that healthcare professionals are equipped with the knowledge and skills to address both the physical and psychological needs of their patients.

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2. Common rhinology disorders and their association with psychologic problems

2.1 Chronic rhinosinusitis

Chronic rhinosinusitis (CRS) significantly impacts patients’ mental health, with a strong correlation between CRS and psychological disorders such as depression and anxiety. Depression in patients with CRS is often underdiagnosed, yet it profoundly affects treatment outcomes and healthcare utilization. Depression scores using the Beck Depression Inventory (BDI) are higher in patients with CRS, even when controlling for other comorbid conditions such as asthma, allergies, and aspirin sensitivity. Notably, depression appears more prevalent in patients with CRS without nasal polyps (CRSsNP) compared to those with nasal polyps (CRSwNP). Nearly one-third of CRS patients screened positive for depression, indicating the need for routine mental health evaluations in this population [1, 2].

Patients suffering from both chronic sinusitis and nasal polyps are significantly more likely to experience depression and anxiety. The relationship between CRS and psychological disorders is bidirectional; while CRS exacerbates mental health issues, these psychological conditions can also worsen the symptoms and management of CRS. For example, patients with CRSwNP are often associated with more severe clinical disease, possibly because they are more likely to seek treatment early due to frequent associations with asthma and allergic rhinitis. This continuous medical attention may help mitigate some psychological impacts, although it does not eliminate them [3, 4].

Longitudinal studies reinforce the chronic nature of the psychological burden associated with CRS. In a large cohort study of over 48,000 participants, the incidence of depression and anxiety was significantly higher in the group with CRS compared to a control group over an 11-year follow-up period. Interestingly, the adjusted hazard ratio for developing depression and anxiety was higher in patients with CRSsNP than those with CRSwNP. This distinction highlights that while CRSwNP might lead to more severe physical symptoms and require frequent medical intervention, CRSsNP can have a more profound impact on mental health, possibly due to the chronic, lingering nature of the disease that may not prompt immediate clinical attention [4].

The relationship between CRS and psychological disorders is complex and multifaceted. For instance, while anxiety scores in CRS patients with asthma improved with pharmacological treatment, depression scores did not show the same improvement, suggesting that anxiety might be closely related to the severity of airway disease, whereas depression could be more independent of the physical symptoms of CRS. This finding underscores the necessity for separate mental health care pathways for managing depression in CRS patients. Furthermore, despite the high prevalence of mental health issues among CRS patients, the rates of depression did not differ significantly between those who underwent surgical treatment and those who did not, indicating that surgical interventions alone may not be sufficient to address the psychological impacts of CRS [3].

In conclusion, the interplay between chronic rhinosinusitis and psychological disorders like depression and anxiety necessitates an integrated approach to treatment that addresses both physical and mental health aspects. Routine screening for depression and anxiety in CRS patients should become a standard practice, and mental health interventions should be tailored to the unique needs of CRS patients. This holistic approach can potentially improve overall treatment outcomes and enhance the quality of life for those suffering from this chronic condition.

2.2 Nonallergic and allergic rhinitis

Rhinitis, encompassing both allergic rhinitis (AR) and nonallergic rhinitis (NAR), is significantly associated with psychological disorders, particularly depression and anxiety. Individuals with rhinitis are more prone to developing depression, with the risk being notably higher in patients with NAR compared to those with AR. The severity of rhinitis symptoms, rather than their persistence or seasonality, is the most critical factor influencing mental health outcomes. Severe symptoms are linked to a worse quality of life, poor sleep, and elevated levels of anxiety and depression. The continuous discomfort and impairment caused by rhinitis symptoms can lead to frustration and feelings of helplessness, further exacerbating psychological distress [5, 6, 7].

The psychological impact of rhinitis is further compounded by the presence of comorbid conditions. Patients with rhinitis are more likely to suffer from asthma, chronic bronchitis, and emphysema, contributing to their overall poorer health status. This burden of comorbidities correlates with a higher prevalence of significant depression, particularly among women. The physical strain and discomfort from these associated conditions can intensify mental health challenges, creating a cycle of worsening physical and psychological symptoms. Both AR and NAR are associated with increased frequencies of anxiety and depression, with NAR presenting a stronger association. The unpredictability and chronic nature of these conditions can lead to constant anxiety about managing symptoms and their impact on daily life [6, 8].

In addition to depression and anxiety, rhinitis has been linked to other serious mental health conditions. Adolescents with AR, for instance, have a significantly higher incidence of developing bipolar disorder later in life [9]. Furthermore, young patients with AR may experience difficulty in learning and attention, which can impact academic performance and social development [10]. These cognitive and attention deficits highlight the broader impact of rhinitis beyond immediate physical discomfort, affecting long-term educational and developmental outcomes. This highlights the potential long-term psychological effects of rhinitis, suggesting that early and comprehensive management is crucial in mitigating these impacts [7, 11].

Moreover, the impact of rhinitis on sleep is a critical factor linking it to psychological problems. Poor sleep quality and insomnia are common in individuals with severe rhinitis symptoms, leading to fatigue, irritability, and difficulty concentrating. Chronic sleep disturbances are well-known contributors to anxiety and depression, creating a feedback loop where psychological distress can further disrupt sleep. Addressing sleep issues through both pharmacological and behavioral interventions can significantly improve the overall mental health and quality of life for rhinitis patients. Effective management of sleep disturbances can break this cycle, providing a foundation for better psychological health [10, 12, 13].

These complex and varied associations underscore the necessity for healthcare professionals to adopt a holistic approach in managing rhinitis, considering both the physical symptoms and the profound psychological impacts. By understanding these connections, healthcare providers can develop more effective treatment strategies that address the full spectrum of patient needs, ensuring a higher quality of life and better mental health outcomes for those affected by rhinitis. Integrating mental health support into the care plan for rhinitis patients can facilitate early identification and treatment of psychological issues, promoting a more comprehensive approach to health and well-being.

2.3 Olfactory bulb dysfunction

Olfactory dysfunction, which includes anosmia (complete loss of smell), hyposmia (reduced smell), and hyperosmia (heightened smell), is prevalent in various psychological disorders such as anxiety, depression, schizophrenia, and bipolar disorder. These dysfunctions often manifest as impairments in odor detection, discrimination, and identification. The connection between olfactory deficits and mental health conditions is crucial as it impacts the diagnosis, treatment, and overall well-being of patients [14, 15].

In anxiety disorders, such as generalized anxiety disorder (GAD) and panic disorder, olfactory dysfunction is common. Patients with moderate to severe anxiety exhibit significant deficits in odor discrimination and identification, which correlate inversely with anxiety severity. This suggests that the poorer the olfactory function, the more severe the anxiety symptoms. Moreover, in panic disorder, a lower odor threshold is often found, indicating that these patients are more sensitive to odors, which correlates with the severity of their symptoms [14, 16, 17, 18].

Depression also significantly impacts olfactory function. Patients with depression commonly exhibit impairments in odor threshold, discrimination, and identification, with the olfactory threshold being the most notably affected. Olfactory dysfunction is a potential biomarker for depression, with successful treatment often reversing these deficits. Interestingly, olfactory training has been shown to improve depressive symptoms, although the results are somewhat controversial. These findings underscore the importance of considering olfactory assessments in the management of depression [19, 20, 21, 22, 23, 24].

Schizophrenia is another condition where olfactory dysfunction is prevalent. Patients with schizophrenia, especially those in the early stages of psychosis or at high risk, often show impaired odor identification and discrimination. While some individuals with schizophrenia may experience olfactory hallucinations, these are not directly linked to the general olfactory deficits observed, suggesting different underlying neural mechanisms. The olfactory impairments in schizophrenia are associated with negative symptoms and reduced social and cognitive functioning, highlighting the need for comprehensive olfactory evaluations in these patients [25].

Bipolar disorder also shows a notable link with olfactory dysfunction. Patients, even during euthymic phases, often display impaired odor thresholds and reduced odor identification capabilities. However, olfactory discrimination does not seem to be significantly affected. The severity of clinical symptoms in bipolar disorder negatively correlates with odor sensitivity but not odor identification, suggesting a nuanced relationship between olfactory function and mood episodes. This relationship highlights the importance of olfactory assessments in understanding and managing bipolar disorder [20, 26].

The recent COVID-19 pandemic has brought additional focus to the link between olfactory dysfunction and psychological distress. COVID-19 often causes nasal inflammation leading to significant olfactory impairments, which can result in long-lasting neuropsychiatric sequelae. COVID-19-related anosmia can profoundly impact perceived quality of life and psychological well-being. This highlights the importance of olfactory function not just as a sensory ability but as a critical component of overall mental health. Additionally, other viruses, such as influenza and the common cold (caused by rhinoviruses and coronaviruses), have been shown to affect the olfactory bulb, leading to temporary or sometimes prolonged olfactory dysfunction. These viral infections can also trigger inflammatory responses in the nasal passages and olfactory pathways, contributing to sensory deficits and subsequent psychological impacts. These findings reinforce the need for integrated care approaches that address both olfactory and mental health in patients affected by olfactory dysfunction [27, 28, 29].

2.4 Structural nose problem

Structural nose problems, such as a deviated nasal septum, enlarged turbinates, and nasal polyps, can lead to significant nasal obstruction and congestion. These anatomical abnormalities can cause chronic nasal obstruction, which not only impairs physical health but also has profound psychological effects. The persistent nature of nasal obstruction often leads to frustration and can severely impact the quality of life. This chronic frustration can, in turn, contribute to the development of anxiety and depression [30].

One of the primary ways in which nasal obstruction impacts mental health is through its effect on sleep quality. Adequate sleep is essential for maintaining mood and overall mental health. Nasal obstruction can cause sleep disturbances such as sleep apnea or chronic snoring, which result in poor sleep quality [31]. Sleep deprivation has been closely linked to mood disorders, including anxiety and depression. Thus, individuals with chronic nasal obstruction are at a higher risk of developing these psychological conditions due to the compounded effects of disrupted sleep and the frustration caused by persistent breathing difficulties [32, 33].

Patients with unilateral or bilateral complete nasal obstruction exhibit higher psychiatric symptom scores across various personality traits. Although the scores for psychiatric symptoms were elevated in these patients, significant differences were noted particularly in dependent and antisocial personality traits compared to healthy controls [34]. This suggests that structural nose problems not only affect physical health but also influence personality characteristics and psychological well-being. The presence of higher scores for depression and anxiety, even if not significantly different from controls, highlights the mental health burden carried by patients with nasal obstruction [30, 34].

Nasal surgery, such as septoplasty or septorhinoplasty, has been shown to alleviate nasal symptoms and improve nasal obstruction. Interestingly, these surgical interventions also have positive effects on psychiatric symptoms. Patients with structural nasal problems and accompanying psychiatric symptoms can experience significant improvements in their mental health following corrective nasal surgery [35]. However, studies have suggested that isolated nasal surgery does not have a significant impact on apnea-hypopnea index in patients with obstructive sleep apnea [36]. This underscores the importance of a holistic approach in treating nasal obstruction, where both physical and psychological aspects are considered. Patients with personalities of dependent and antisocial personality disorders, in particular, may benefit from such surgical interventions, suggesting a close interplay between nasal structure and personality traits [34, 37].

Given the significant impact of structural nose problems on mental health, it is crucial for healthcare providers to adopt a multidisciplinary approach in managing these conditions. Evaluating patients from both an otorhinolaryngological and psychological perspective can ensure comprehensive care.

2.5 Granulomatosis with polyangiitis

Wegener’s granulomatosis, now more commonly referred to as granulomatosis with polyangiitis (GPA), is a type of vasculitis that involves the inflammation of small and medium-sized blood vessels, often affecting the upper respiratory tract. Patients with GPA usually experience persistent nasal congestion and obstruction which are common due to inflammation and swelling of the nasal passages. While the physical manifestations of GPA are well-documented, the psychological impacts are equally significant but less frequently addressed. Research has revealed a high prevalence of psychiatric disorders among GPA patients, with paranoia and depression being particularly common. Additionally, there is a notable correlation between these psychiatric disorders and the neuroticism personality trait, suggesting that personality factors may influence the mental health outcomes of GPA patients [38].

Furthermore, psychosis has been reported as an initial manifestation in some cases of GPA, illustrating the severe psychological impact this disease can have. Some cases highlight the acute psychiatric symptoms that can arise in GPA [38, 39]. These cases underscore the potential for GPA to manifest with severe psychiatric symptoms, necessitating appropriate psychiatric intervention. Such cases, although rare, emphasize the importance of healthcare providers being vigilant about the psychiatric dimensions of GPA to ensure comprehensive treatment that addresses both the physical and mental health needs of the patient.

Depression, anxiety, sleep disturbances, and fatigue are common yet inadequately addressed comorbidities in GPA. These psychiatric conditions significantly impair the quality of life of GPA patients. Factors such as age, body mass index (BMI), and disease damage have been identified as predictors of depression in these patients. Targeting these potentially modifiable factors could help improve the psychological well-being of GPA patients [40].

The impact of GPA on daily life extends beyond the individual’s physical health. There are substantial medical and functional morbidity among GPA patients. Many patients require long-term immunosuppressive treatment and experience significant reductions or constraints in their daily activities. These limitations negatively affect patients’ normal daily living, employment, and income, as well as their family and close relationships. The substantial burden on quality of life highlights the need for a holistic approach in managing GPA, incorporating both medical treatment and psychosocial support [40, 41].

While depression is highly prevalent among patients with primary systemic vasculitis and associated with poorer outcomes, there is a need for further research specifically focusing on medium and large vessel vasculitis to better understand and address the psychological dimensions of these conditions. Overall, the psychological burden of GPA is profound, necessitating comprehensive care strategies that address both the physical and mental health aspects to improve patient outcomes and quality of life.

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3. Mechanisms linking rhinology disorders and mental health

3.1 Inflammation and immune system mechanisms

The molecular mechanisms linking rhinological diseases to psychological disorders are intricately connected through pathways of inflammation and immune responses. Inflammatory responses in rhinological conditions have profound systemic effects, particularly influencing the central nervous system (CNS). CRS is predominantly associated with type 2 inflammation, where activated T helper (Th2) cells produce cytokines such as IL-4, IL-5, and IL-13. These cytokines facilitate the recruitment of eosinophils and the production of IgE antibodies, perpetuating a cycle of chronic inflammation and tissue remodeling [14, 42].

Elevated levels of IgE, frequently observed in AR, can cross the blood-brain barrier (BBB) and activate microglia, the brain’s resident immune cells. This activation polarizes microglia to the M1 phenotype, which is associated with the production of pro-inflammatory cytokines such as IL-1β, IL-6, and TNF-α. These cytokines not only exacerbate neuroinflammation but also disrupt neuronal function, leading to symptoms of depression and anxiety. Additionally, IgE can activate astrocytes, further amplifying neuroinflammatory processes and potentially leading to neurodegeneration, thereby contributing to cognitive dysfunctions and psychological disturbances [43, 44, 45].

A significant pathway involved in this process is the activation of Fc epsilon RI alpha (FcεRIα) by IgE. FcεRIα is a high-affinity IgE receptor that, when activated by IgE, can upregulate its expression on immune cells, thereby enhancing the inflammatory response. This receptor is crucial in mediating allergic reactions and is found on various immune cells, including mast cells and basophils. Upon activation, FcεRIα increases BBB permeability and facilitates the infiltration of inflammatory cells into the CNS. The resulting neuroinflammation can lead to psychological disorders such as depression and anxiety. FcεRIα’s role in increasing inflammatory cytokines in the CNS underscores its significance in linking peripheral allergic responses with central neuroinflammatory processes [46, 47, 48].

The role of innate immunity, particularly through the Toll-like receptor 4 (TLR4) and nuclear factor kappa-light-chain-enhancer of activated B cells (NF-κB) signaling pathways, is also critical in this context. TLR4 is a pattern recognition receptor that detects pathogen-associated molecular patterns (PAMPs) and damage-associated molecular patterns (DAMPs), leading to the activation of the NF-κB pathway. This activation triggers the production of various pro-inflammatory cytokines and chemokines, which are key mediators of the immune response. In rhinological conditions, the persistent activation of TLR4 and NF-κB can lead to chronic inflammation not only in the nasal passages but also in systemic circulation, impacting the CNS and contributing to psychological disorders such as behavioral and cognitive changes [49, 50, 51].

Chronic nasal obstruction, as seen in conditions like deviated nasal septum and enlarged turbinates, can lead to significant sleep disturbances, which are closely linked to mood disorders. Poor sleep quality and fragmented sleep, common in obstructive sleep apnea, result in intermittent hypoxia and oxidative stress, which can cause neuronal injury and cognitive impairments. The inflammatory mediators released during these episodes of intermittent hypoxia can further disrupt the BBB, allowing inflammatory cells and cytokines to infiltrate the CNS, thereby promoting neuroinflammation and psychological distress. The continuous cycle of poor sleep and heightened inflammation exacerbates symptoms of depression and anxiety, highlighting the interconnectedness of sleep, respiratory health, and mental well-being.

Olfactory dysfunction, which is common in conditions like CRS and AR, also has significant psychological implications. The loss of smell (anosmia) or reduced olfactory sensitivity (hyposmia) can lead to a diminished quality of life, contributing to depression and anxiety. Olfactory sensory neurons, when damaged by inflammation or infection (e.g., SARS-CoV-2), release pro-inflammatory cytokines such as IL-6 and TNF-α. These cytokines can travel to the brain and enhance neuroinflammation, affecting brain regions involved in mood regulation, such as the hippocampus and prefrontal cortex. This inflammatory cascade not only impacts mood but also impairs cognitive functions, leading to learning and memory dysfunctions [14, 52, 53].

Viral infections of the respiratory tract, such as influenza and COVID-19, further illustrate the link between rhinological diseases and psychological disorders. These infections trigger systemic inflammatory responses that extend to the CNS. For instance, the pro-inflammatory cytokines released during and after viral infections can lead to persistent neuroinflammation, contributing to long-term psychological effects such as depression and cognitive impairments. Influenza has been associated with an increased risk of depression, severe enough to require antidepressant treatment. Similarly, anosmia in COVID-19 patients has been linked to depression, which can persist for months after the resolution of acute symptoms. This highlights the role of viral-induced inflammation in the pathophysiology of psychological disorders [52, 53, 54].

In conclusion, the intricate relationship between rhinological diseases and psychological disorders is mediated through complex molecular mechanisms involving chronic inflammation, immune responses, and neuroinflammation. The activation of FcεRIα by IgE plays a crucial role in enhancing BBB permeability and promoting neuroinflammation, which links peripheral allergic responses to central psychological effects. Understanding these pathways provides insight into how conditions like CRS, AR, and olfactory dysfunction can lead to significant psychological distress and cognitive impairments. Additionally, the role of TLR4 and NF-κB in mediating innate immune responses highlights the broader implications of chronic inflammation in the pathophysiology of both rhinological and psychological conditions. This knowledge emphasizes the need for comprehensive management approaches that address both the respiratory and psychological aspects of these conditions, ultimately improving patient outcomes and quality of life.

3.2 Neurobiological mechanisms

The intricate relationship between rhinological diseases with psychological issues can be explained through neural mechanisms and signaling pathways. Rhinological diseases often lead to chronic inflammation, which not only affects the respiratory system but also has far-reaching effects on the CNS. The olfactory system, which begins with the olfactory neurons (ONs) in the olfactory epithelium (OE), plays a pivotal role in this connection. These neurons transmit odor information to the olfactory bulbs (OB), which then project to secondary olfactory structures such as the anterior olfactory nucleus (AON), piriform cortex, and olfactory tubercle, eventually reaching tertiary structures like the orbitofrontal cortex (OFC), insular cortex, and dorsal hippocampus. These pathways highlight how disruptions in the olfactory system can affect broader neural circuits involved in mood regulation and cognitive functions [55, 56, 57].

The amygdala and the orbitofrontal cortex (OFC) are key components of the neurocircuitry implicated in anxiety disorders. The primary olfactory cortex, which includes the cortical amygdala nuclei, transmits odor information to other parts of the amygdala [58, 59]. Dysfunction in the amygdala, a region crucial for emotional processing, may be a significant factor linking olfactory dysfunction and anxiety [16, 57, 59]. Odor discrimination, a central sensory process associated with the primary olfactory cortex, is correlated with anxiety symptom severity [60]. This suggests that central processing of olfactory information, rather than peripheral sensory thresholds, is more relevant to the development of anxiety symptoms in patients with olfactory dysfunction [56].

Inflammation in the anterior cingulate cortex (ACC) is another critical factor in the development of neuropsychiatric symptoms in conditions such as AR. Neuroinflammation in the ACC has been linked to anxiety and depression-like behaviors in AR. The anatomical proximity between the nasal cavity and the CNS facilitates the spread of inflammation and neuropeptides released by type C nociceptive nerves in the nasal cavity, which increase plasma extravasation and glandular secretion. Dysfunction of these nerves can lead to the release of proinflammatory cytokines, contributing to both AR and the development of psychological disorders [61].

CRS and other sinonasal diseases often result from viral or bacterial infections, which trigger an inflammatory response. Research has shown that sinus inflammation can alter brain activity, particularly in neural networks that regulate cognition, introspection, and responses to external stimuli. Functional MRI in CRS patients have revealed increased amplitude of low-frequency fluctuations (ALFF) in the left orbital superior frontal cortex and reduced connectivity in the right precuneus. These alterations in brain activity correlate with inflammation severity and psychological symptoms, as indicated by the positive correlation between ALFF values in the orbital superior frontal cortex and scores on the hospital anxiety and depression scale (HADS) [2].

The role of different types of neurons, particularly glutamatergic, GABAergic, and dopaminergic neurons, is critical in understanding how rhinological diseases impact brain function and contribute to psychological problems. Inflammation and neuroimmune responses can alter the balance of excitatory and inhibitory signaling in the brain [62]. Glutamatergic neurons, which are primarily excitatory, can be affected by increased levels of pro-inflammatory cytokines, leading to heightened neuronal excitability and potential excitotoxicity. This imbalance can result in cognitive impairments and mood disorders. Conversely, GABAergic neurons, which are inhibitory, may be downregulated or dysfunctional in inflammatory conditions, contributing to reduced inhibition and increased anxiety and depression [63, 64].

Dopaminergic neurons, which are involved in reward processing and motivation, can also be significantly impacted by inflammatory responses. Chronic inflammation can alter dopamine signaling pathways, leading to anhedonia, reduced motivation, and other depressive symptoms [62]. Dopaminergic signaling in regions such as the prefrontal cortex (PFC) and the ventral tegmental area (VTA) can be disrupted by inflammation [65]. These disruptions may further contribute to the psychological symptoms experienced by patients with rhinological diseases.

In summary, the neural mechanisms linking rhinological diseases to psychological problems involve complex interactions between inflammation, immune responses, and neural signaling pathways. The olfactory system’s connection to key brain regions involved in mood regulation, such as the amygdala and OFC, plays a central role. Chronic inflammation, mediated by pathways such as TLR4/NF-κB and FcεRIα, leads to neuroinflammation and disruption of neural circuits, resulting in psychological disorders. Additionally, the balance of excitatory and inhibitory signaling through glutamatergic, GABAergic, and dopaminergic neurons is crucial in maintaining normal cognitive and emotional function. Disruptions in these neuronal pathways due to inflammation and immune responses underscore the importance of addressing both the respiratory and psychological aspects of rhinological diseases to improve patient outcomes and quality of life.

3.3 Social mechanisms

Social factors play a significant role in the interplay between rhinological diseases and psychological conditions. Social determinants of health, including socioeconomic status, access to healthcare, social support, and environmental conditions, can exacerbate both physical and mental health issues, creating a vicious cycle that is difficult to break.

Firstly, socioeconomic status profoundly impacts the prevalence and management of rhinological diseases. Individuals from lower socioeconomic backgrounds often face barriers to accessing quality healthcare, including diagnostic services and effective treatments for conditions like rhinitis and sinusitis. This lack of access can lead to the progression of these conditions into chronic states, which are associated with a higher risk of developing mental health problems such as depression and anxiety. The chronic discomfort and impaired functioning caused by untreated rhinological diseases can significantly diminish quality of life, leading to psychological distress.

Secondly, social support systems are crucial in managing both physical and mental health conditions. Individuals with strong social networks tend to have better health outcomes because they receive emotional support, practical help, and encouragement to seek medical care. Conversely, those who are socially isolated or have weak support networks are at greater risk of both rhinological diseases and psychological issues. The stress of dealing with health problems without adequate support can exacerbate symptoms of anxiety and depression, making it harder to manage chronic conditions like sleep apnea or structural nose problems.

Environmental conditions also play a vital role in this dynamic. Poor air quality, common in lower-income and densely populated urban areas, can aggravate conditions like rhinitis and sinusitis. Exposure to pollutants and allergens can lead to chronic inflammation of the nasal passages and respiratory system, which not only worsens physical symptoms but also contributes to cognitive impairments and mood disorders. Furthermore, individuals living in such environments often have limited access to clean, quiet, and safe spaces for rest, exacerbating sleep disorders like sleep apnea and increasing the risk of associated psychological problems.

Lastly, the stigma associated with certain rhinological conditions, particularly those that affect physical appearance or breathing, can lead to social anxiety and withdrawal. Conditions such as severe rhinitis, nasal polyps, or structural abnormalities can affect a person’s self-esteem and social interactions. The fear of negative judgment or social embarrassment can discourage individuals from seeking help or participating in social activities, leading to increased feelings of isolation and depression. This social withdrawal further reinforces the negative impact on mental health, creating a feedback loop that is challenging to address.

In conclusion, the interplay between rhinological diseases and psychological problems is significantly influenced by social factors. Socioeconomic status, access to healthcare, social support, environmental conditions, and social stigma all contribute to the complexity of managing these intertwined health issues. Addressing these social determinants is crucial for developing comprehensive treatment strategies that not only focus on the medical aspects of rhinological diseases but also consider the broader social context to improve mental health outcomes and overall quality of life.

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4. Diagnostic approaches

4.1 Assessing psychological symptoms in rhinology patients

Assessing psychological symptoms in rhinology patients involves a thorough understanding of both the physical and mental health aspects of the patient’s condition. Rhinology patients often experience chronic discomfort, breathing difficulties, and sensory impairments such as loss of smell, which can significantly impact their psychological well-being. The assessment process should start with a comprehensive evaluation of the patient’s medical history, including any pre-existing mental health conditions and current medications. Clinicians need to be vigilant for signs of depression, anxiety, cognitive dysfunction, and other psychological issues, as these can be both a consequence of and a contributor to chronic rhinological conditions [66, 67, 68].

4.2 Screening tools and questionnaires

Utilizing standardized screening tools and questionnaires is a crucial step in identifying psychiatric problems in rhinology patients. The Beck Depression Inventory (BDI) is one of the most widely used self-report measures for assessing the severity of depression. It consists of 21 multiple-choice questions that explore various aspects of depressive symptoms, such as mood, pessimism, sense of failure, self-dissatisfaction, and physical symptoms like fatigue and changes in sleep patterns. The BDI helps clinicians gauge the intensity of depression and monitor changes over time, providing valuable insights into the patient’s mental health [69, 70]. The Generalized Anxiety Disorder 7 (GAD-7) scale is a brief, seven-item questionnaire specifically designed to screen for generalized anxiety disorder. Patients rate the frequency of anxiety-related symptoms over the past 2 weeks, including feelings of nervousness, inability to stop worrying, and physical symptoms such as restlessness and muscle tension. The GAD-7 is easy to administer and interpret, making it an effective tool for identifying anxiety disorders in rhinology patients [71]. The Patient Health Questionnaire-9 (PHQ-9) is a multipurpose instrument for screening, diagnosing, monitoring, and measuring the severity of depression. It consists of nine questions that reflect the diagnostic criteria for major depressive disorder in the DSM-5. Patients indicate how often they have been bothered by each symptom over the past 2 weeks. The PHQ-9 is highly effective in primary care settings and can be easily incorporated into routine rhinology assessments to identify patients in need of further mental health evaluation [72].

The Hospital Anxiety and Depression Scale (HADS) is another useful instrument for screening both anxiety and depression in rhinology patients. It consists of 14 items, seven for anxiety and seven for depression, and is designed to avoid reliance on somatic symptoms that might be confounded with physical illness. The HADS is particularly valuable in settings where patients may have overlapping physical and psychological symptoms [70].

The Sinonasal Outcome Test (SNOT-22) is specifically designed to assess the impact of sinonasal conditions on patients’ quality of life. It includes questions about physical symptoms, emotional well-being, and functional limitations caused by rhinological issues. While not a direct measure of psychiatric symptoms, the SNOT-22 provides insight into how sinonasal problems affect mental health and daily functioning, allowing clinicians to tailor their interventions accordingly [72, 73].

The Brief Symptom Inventory (BSI) is a shorter version of the Symptom Checklist-90-Revised (SCL-90-R) and is used to evaluate psychological distress and psychiatric disorders. It includes 53 items and provides scores on nine primary symptom dimensions and three global indices of distress. The BSI can be useful for a broad assessment of psychological symptoms in rhinology patients, capturing a range of potential mental health issues [74].

For patients with suspected cognitive dysfunction, the Montreal Cognitive Assessment (MoCA) is a valuable tool. The MoCA assesses various cognitive domains, including attention, concentration, executive functions, memory, language, visuoconstructional skills, conceptual thinking, calculations, and orientation. This comprehensive screening tool can help identify cognitive impairments that may be contributing to or exacerbated by chronic rhinological conditions [68].

These tools allow clinicians to systematically evaluate the psychological state of the patient and provide a baseline for further investigation. Implementing these screenings in routine rhinology care can aid in early detection of mental health issues, facilitating timely intervention.

4.3 Clinical interviews

Clinical interviews remain a cornerstone of psychiatric assessment in rhinology patients. These interviews should be structured yet flexible to allow for a comprehensive understanding of the patient’s psychological and physical health. During the interview, clinicians should explore the patient’s mood, anxiety levels, sleep patterns, and cognitive functioning. It is also important to discuss the impact of rhinological symptoms on daily life and mental health. Open-ended questions and active listening can help patients feel comfortable sharing their experiences, which can reveal insights into their mental health status. Clinicians should be trained to recognize subtle signs of psychiatric distress and to differentiate between symptoms caused by rhinological issues and those stemming from psychological conditions [68, 75].

4.4 Integrating psychological assessment into routine care

Integrating psychological assessment into routine rhinology care is essential for holistic patient management. This integration can be achieved by developing multidisciplinary teams that include ENT specialists, psychologists, and psychiatrists. Regular training for rhinology clinicians on the importance of mental health and how to use screening tools effectively can enhance this process. Routine mental health screenings should be part of the standard care protocol for patients with chronic rhinological conditions. Creating a seamless referral pathway to mental health professionals for patients who need further evaluation and treatment is also crucial. By addressing both the physical and psychological aspects of rhinology patients’ health, clinicians can improve overall treatment outcomes and patient well-being.

In conclusion, the diagnostic approach to psychiatric problems in rhinology patients involves a multi-faceted strategy that includes thorough assessment of psychological symptoms, utilization of standardized screening tools and questionnaires, comprehensive clinical interviews, and the integration of psychological assessments into routine care. By adopting these practices, clinicians can ensure a more holistic approach to patient care, addressing both the physical and mental health needs of rhinology patients.

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5. Therapeutic strategies and interventions for psychiatric problems in rhinology patients

Addressing the psychiatric problems associated with rhinology diseases requires a multidisciplinary approach. Effective management integrates pharmacotherapy, surgical interventions, and psychological therapies to improve both physical and mental health outcomes. Here, we explore various therapeutic strategies and interventions tailored to rhinology patients experiencing psychological distress.

5.1 Pharmacotherapy

Pharmacotherapy plays a vital role in managing psychiatric symptoms in rhinology patients. Antidepressants, such as selective serotonin reuptake inhibitors (SSRIs) and serotonin-norepinephrine reuptake inhibitors (SNRIs), are commonly prescribed to alleviate symptoms of depression and anxiety [76]. These medications can help stabilize mood, reduce anxiety, and improve overall quality of life and it should prescribe under psychiatric. However, it is essential to prescribe these medications under psychiatric guidance, taking into account potential drug interactions. For instance, chlordiazepoxide, alprazolam zolpidem, amitriptyline, chlorpromazine, thioridazine, reserpine, and citalopram can induce rhinitis in some patients [77]. Notably, there is a lack of sufficient studies evaluating the pharmacotherapy effect on psychological symptoms in rhinology patients, highlighting the need for further research to improve this field and inform evidence-based treatment strategies.

Additionally, nasal corticosteroids and antihistamines can be beneficial in reducing the physical symptoms of rhinology diseases like AR, indirectly improving psychological well-being by alleviating discomfort and sleep issues. However, it is important to note that complete relief of rhinosinusitis symptoms may not fully alleviate the psychological aspects of these diseases. Patients with rhinitis can experience anxiety, depression, or cognitive problems even after successful treatment of physical symptoms or regardless of allergen seasonality. Therefore, ongoing therapy may be needed to address psychological symptoms even after physical symptoms have been managed [11, 78].

It is crucial to tailor pharmacotherapy to each patient’s specific needs, taking into account any potential interactions between medications used for rhinological conditions and those prescribed for psychiatric symptoms. Consulting with a psychiatry specialist is important for selecting the appropriate treatment for these patients’ unique conditions. This collaborative approach ensures that both the physical and mental health aspects of rhinology diseases are effectively managed.

5.2 Surgical interventions

Rhinoplasty significantly influences the psychological health of patients, as highlighted by various studies. Post-surgery, patients often report notable improvements in their social interactions and relationships. These enhancements are frequently linked to better self-perception and body image, leading to reduced body dissatisfaction and increased satisfaction with their nasal appearance. Such positive effects contribute to improved social functioning and are sustained over follow-up periods ranging from months to years [79].

The psychological benefits of rhinoplasty extend beyond physical changes, impacting several mental health areas. Research shows significant reductions in anxiety, depression, emotional distress, and body dysmorphia among rhinoplasty patients, as a study demonstrated a marked decrease in anxiety and depression levels at the 12-month follow-up, as measured by the Beck Depression Inventory [80]. Similarly, other study reported reductions in anxiety, social phobia, depression, and body dysmorphia [79]. These findings underscore the potential of rhinoplasty to alleviate psycho-social distress and enhance overall mental well-being.

Furthermore, rhinoplasty has been shown to improve patients’ quality of life. Studies utilizing the Rhinoplasty Outcomes Evaluation (ROE) questionnaire, Body Image Inventory, and EuroQol 5D questionnaire have documented significant enhancements in quality of life post-surgery. These improvements are often attributed to better self-perception, enhanced body image, increased self-esteem, and greater social participation and confidence. However, some research indicates that while psychological improvements are significant, other quality of life aspects may remain unchanged. It is essential for surgeons to identify psychological risk factors during preoperative consultations and carefully select patients to prevent postoperative psychological complications. Utilizing screening tools like the Quality of Life Scale Short Form (SF-36) questionnaire and general health questionnaire-28 (GHQ-28) can help identify at-risk patients, leading to better surgical outcomes [79, 81, 82, 83].

In patients with rhinosinusitis, surgical intervention may be useful in the early stages to prevent the development of psychological disorders. However, in the chronic and late phases of the disease, surgical procedures are generally less helpful, as neuroinflammation has a long-lasting disturbing effect on the central nervous system [4]. In cases where structural abnormalities in the nasal cavity contribute to both physical and psychological distress, surgical interventions can offer significant relief. Procedures such as septoplasty, turbinate reduction, and sinus surgery aim to correct anatomical issues that cause chronic nasal obstruction and sinusitis. By improving nasal airflow and reducing sinus infections, these surgeries can alleviate symptoms that contribute to poor sleep quality, fatigue, and subsequent psychological problems [35, 37].

Post-surgical improvements in breathing and reduction in chronic pain or discomfort can lead to significant enhancements in mental health, as patients experience fewer physical symptoms that exacerbate their psychological distress. It is important for surgeons to collaborate closely with mental health professionals to monitor and support the patient’s psychological recovery post-surgery.

5.3 Psychological interventions

Psychological interventions are essential components of a comprehensive treatment plan for rhinology patients with psychiatric problems. These interventions address the mental health issues directly, helping patients develop coping strategies and resilience against the psychological impact of their physical conditions.

Cognitive-Behavioral Therapy (CBT) is a widely used and evidence-based psychological treatment for depression, anxiety, and other mental health issues. CBT helps patients identify and challenge negative thought patterns and behaviors, replacing them with more positive and constructive ones. For rhinology patients, CBT can be particularly effective in managing health-related anxiety, improving mood, and enhancing coping mechanisms for dealing with chronic symptoms and their impact on daily life [84].

5.4 Support groups and counseling

Support groups and counseling provide essential emotional and social support for rhinology patients experiencing psychological distress. Support groups offer a platform for patients to share their experiences, gain insights, and receive encouragement from others facing similar challenges. This peer support can alleviate feelings of isolation and promote a sense of community and understanding.

Individual or group counseling with a licensed therapist can provide a safe space for patients to explore their emotions, develop coping strategies, and address any underlying mental health issues. Counseling sessions can focus on specific areas of concern, such as coping with chronic illness, managing stress, and improving interpersonal relationships.

Integrating these therapeutic strategies and interventions into the care of rhinology patients requires a collaborative approach among healthcare providers. By addressing both the physical and psychological aspects of rhinology diseases, patients can achieve better health outcomes and an improved quality of life.

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6. Summary

Addressing psychological issues in patients with rhinological disorders is crucial for improving their overall quality of life. Integrating psychological assessment and support into both medical and surgical management plans can lead to better patient outcomes, enhanced satisfaction, and reduced complications. This comprehensive approach acknowledges the significant interplay between physical symptoms and mental health, ultimately fostering holistic patient care.

Incorporating psychological assessments into the preoperative and postoperative phases of rhinological care ensures that patients’ mental health needs are identified and addressed. Preoperative psychological evaluations can help identify patients at risk for anxiety, depression, and body dysmorphic disorder, which are common in individuals seeking rhinoplasty or other nasal surgeries. By recognizing these issues early, healthcare providers can offer appropriate interventions such as counseling, therapy, or medication, thus preparing patients mentally and emotionally for surgery. This proactive approach can mitigate postoperative dissatisfaction and the desire for unnecessary revision surgeries, thereby improving patient satisfaction and outcomes.

Integrating psychological support into the treatment plan for medical management of rhinological disorders, such as chronic rhinosinusitis or allergic rhinitis, can significantly enhance quality of life. Patients with chronic nasal conditions often experience a diminished quality of life due to persistent symptoms like nasal obstruction, facial pain, and impaired sense of smell, which can lead to anxiety and depression. Providing psychological support alongside medical treatments can help patients cope better with their symptoms, adhere more effectively to treatment regimens, and experience an overall improvement in their mental and physical well-being. This dual approach ensures that both the physical and psychological aspects of their condition are addressed, leading to a more comprehensive and effective treatment outcome.

Lastly, incorporating psychological care into the surgical management plan of rhinology patients can reduce perioperative stress and enhance recovery. Educating patients about the surgical process, setting realistic expectations, and providing postoperative psychological support can alleviate anxiety and promote a smoother recovery. Postoperatively, continued psychological support can help patients adapt to changes in their appearance and function, fostering a positive adjustment and long-term satisfaction with the surgical results.

In conclusion, addressing psychological issues in patients with rhinological disorders through integrated medical and surgical management plans can significantly improve their quality of life. This comprehensive approach not only enhances patient satisfaction and outcomes but also underscores the importance of treating the whole patient, not just their physical symptoms. By recognizing and addressing the psychological dimensions of rhinology disorders, healthcare providers can offer more effective, holistic care that leads to better overall health and well-being for their patients.

References

  1. 1. Schlosser RJ, Storck K, Cortese BM, Uhde TW, Rudmik L, Soler ZM. Depression in chronic rhinosinusitis: A controlled cohort study. American Journal of Rhinology & Allergy. 2016;30(2):128-133
  2. 2. Lin S, Nie M, Wang B, Duan S, Huang Q , Wu N, et al. Intrinsic brain abnormalities in chronic rhinosinusitis associated with mood and cognitive function. Frontiers in Neuroscience. 2023;17:1131114
  3. 3. Vogt F, Sahota J, Bidder T, Livingston R, Bellas H, Gane SB, et al. Chronic rhinosinusitis with and without nasal polyps and asthma: Omalizumab improves residual anxiety but not depression. Clinical and Translational Allergy. 2021;11(1):e12002
  4. 4. Kim JY, Ko I, Kim MS, Yu MS, Cho BJ, Kim DK. Association of chronic rhinosinusitis with depression and anxiety in a nationwide insurance population. JAMA Otolaryngology Head & Neck Surgery. 2019;145(4):313-319
  5. 5. Mou YK, Wang HR, Zhang WB, Zhang Y, Ren C, Song XC. Allergic rhinitis and depression: Profile and proposal. Frontiers in Psychiatry. 2021;12:820497
  6. 6. Roxbury CR, Qiu M, Shargorodsky J, Woodard TD, Sindwani R, Lin SY. Association between rhinitis and depression in United States adults. The Journal of Allergy and Clinical Immunology in Practice. 2019;7(6):2013-2020
  7. 7. Begemann MJH, Linszen MMJ, de Boer JN, Hovenga WD, Gangadin SS, Schutte MJL, et al. Atopy increases risk of psychotic experiences: A large population-based study. Frontiers in Psychiatry. 2019;10:453
  8. 8. Bedolla-Barajas M, Morales-Romero J, Pulido-Guillén NA, Robles-Figueroa M, Plascencia-Domínguez BR. Rhinitis as an associated factor for anxiety and depression amongst adults. Brazilian Journal of Otorhinolaryngology. 2017;83(4):432-438
  9. 9. Chen M-H, Lan W-H, Hsu J-W, Huang K-L, Chen Y-S, Li C-T, et al. Risk of bipolar disorder among adolescents with allergic rhinitis: A nationwide longitudinal study. Journal of Psychosomatic Research. 2015;79(6):533-536
  10. 10. Simons FE. Learning impairment and allergic rhinitis. Allergy and Asthma Proceedings. 1996;17(4):185-189
  11. 11. Blaiss MS, Hammerby E, Robinson S, Kennedy-Martin T, Buchs S. The burden of allergic rhinitis and allergic rhinoconjunctivitis on adolescents: A literature review. Annals of Allergy, Asthma & Immunology. 2018;121(1):43-52.e3
  12. 12. Chirakalwasan N, Ruxrungtham K. The linkage of allergic rhinitis and obstructive sleep apnea. Asian Pacific Journal of Allergy and Immunology. 2014;32(4):276-286
  13. 13. Liu J, Zhang X, Zhao Y, Wang Y. The association between allergic rhinitis and sleep: A systematic review and meta-analysis of observational studies. PLoS One. 2020;15(2):e0228533
  14. 14. Marin C, Alobid I, Fuentes M, López-Chacón M, Mullol J. Olfactory dysfunction in mental illness. Current Allergy and Asthma Reports. 2023;23(3):153-164
  15. 15. Lombion-Pouthier S, Vandel P, Nezelof S, Haffen E, Millot JL. Odor perception in patients with mood disorders. Journal of Affective Disorders. 2006;90(2-3):187-191
  16. 16. Chen X, Guo W, Yu L, Luo D, Xie L, Xu J. Association between anxious symptom severity and olfactory impairment in young adults with generalized anxiety disorder: A case-control study. Neuropsychiatric Disease and Treatment. 2021;17:2877-2883
  17. 17. Burón E, Bulbena A, Bulbena-Cabré A. Olfactory functioning in panic disorder. Journal of Affective Disorders. 2015;175:292-298
  18. 18. Clepce M, Reich K, Gossler A, Kornhuber J, Thuerauf N. Olfactory abnormalities in anxiety disorders. Neuroscience Letters. 2012;511(1):43-46
  19. 19. Negoias S, Croy I, Gerber J, Puschmann S, Petrowski K, Joraschky P, et al. Reduced olfactory bulb volume and olfactory sensitivity in patients with acute major depression. Neuroscience. 2010;169(1):415-421
  20. 20. Kazour F, Richa S, Abi Char C, Surget A, Elhage W, Atanasova B. Olfactory markers for depression: Differences between bipolar and unipolar patients. PLoS One. 2020;15(8):e0237565
  21. 21. Naudin M, El-Hage W, Gomes M, Gaillard P, Belzung C, Atanasova B. State and trait olfactory markers of major depression. PLoS One. 2012;7(10):e46938
  22. 22. Zucco GM, Bollini F. Odour recognition memory and odour identification in patients with mild and severe major depressive disorders. Psychiatry Research. 2011;190(2-3):217-220
  23. 23. Pabel LD, Hummel T, Weidner K, Croy I. The impact of severity, course and duration of depression on olfactory function. Journal of Affective Disorders. 2018;238:194-203
  24. 24. Atanasova B, El-Hage W, Chabanet C, Gaillard P, Belzung C, Camus V. Olfactory anhedonia and negative olfactory alliesthesia in depressed patients. Psychiatry Research. 2010;176(2-3):190-196
  25. 25. Chen B, Klarmann R, Israel M, Ning Y, Colle R, Hummel T. Difference of olfactory deficit in patients with acute episode of schizophrenia and major depressive episode. Schizophrenia Research. 2019;212:99-106
  26. 26. Swiecicki L, Zatorski P, Bzinkowska D, Sienkiewicz-Jarosz H, Szyndler J, Scinska A. Gustatory and olfactory function in patients with unipolar and bipolar depression. Progress in Neuro-Psychopharmacology & Biological Psychiatry. 2009;33(5):827-834
  27. 27. Hasegawa Y, Ma M, Sawa A, Lane AP, Kamiya A. Olfactory impairment in psychiatric disorders: Does nasal inflammation impact disease psychophysiology? Translational Psychiatry. 2022;12(1):314
  28. 28. Bochicchio V, Mezzalira S, Maldonato NM, Cantone E, Scandurra C. Olfactory-related quality of life impacts psychological distress in people with COVID-19: The affective implications of olfactory dysfunctions. Journal of Affective Disorders. 2023;323:741-747
  29. 29. Othman BA, Maulud SQ , Jalal PJ, Abdulkareem SM, Ahmed JQ , Dhawan M, et al. Olfactory dysfunction as a post-infectious symptom of SARS-CoV-2 infection. Annals of Medicine and Surgery (London). 2022;75:103352
  30. 30. Fidan T, Fidan V, Ak M, Sütbeyaz Y. Neuropsychiatric symptoms, quality of sleep and quality of life in patients diagnosed with nasal septal deviation. Kulak Burun Boğaz Ihtisas Dergisi. 2011;21(6):312-317
  31. 31. Magliulo G, Iannella G, Ciofalo A, Polimeni A, De Vincentiis M, Pasquariello B, et al. Nasal pathologies in patients with obstructive sleep apnoea. Acta Otorhinolaryngologica Italica. 2019;39(4):250-256
  32. 32. Rezaeitalab F, Moharrari F, Saberi S, Asadpour H, Rezaeetalab F. The correlation of anxiety and depression with obstructive sleep apnea syndrome. Journal of Research in Medical Sciences : The Official Journal of Isfahan University of Medical Sciences. 2014;19(3):205-210
  33. 33. Su VY, Chen YT, Lin WC, Wu LA, Chang SC, Perng DW, et al. Sleep Apnea and risk of panic disorder. Annals of Family Medicine. 2015;13(4):325-330
  34. 34. Yıldırım YS, Deveci E, Ozucer B, Kurt Y. Nasal obstruction in adults: How it affects psychological status? The Journal of Laryngology & Otology. 2024;138(2):184-187
  35. 35. Katamanin O, Saini S, Jafferany M. Psychological implications and quality of life after cosmetic rhinoplasty: A systematic review. Discover Psychology. 2024;4(1):16
  36. 36. Schoustra E, van Maanen P, den Haan C, Ravesloot MJL, de Vries N. The role of isolated nasal surgery in obstructive sleep Apnea therapy-A systematic review. Brain Sciences. 26 Oct 2022;12(11):1446
  37. 37. Marcus P. Psychological aspects of cosmetic rhinoplasty. British Journal of Plastic Surgery. 1984;37(3):313-318
  38. 38. Mousavi N, Molaei A, Alesaeidi S, Eftekhari Seas N, Effatpanah M. Prevalence of psychiatric disorders among patients with granulomatosis with polyangiitis (Wegener's) and the predictive role of personality traits. Clinical Practice and Epidemiology in Mental Health. 2024;20:e17450179276345
  39. 39. Peeters L, Igodt P. Acute psychiatric symptomatology in Wegener's granulomatosis. Tijdschrift voor Psychiatrie. 2006;48(4):325-329
  40. 40. Shrivastava A, Jain S, Damaraju V, Naidu G, Dhir V, Rathi M, et al. Severity and determinants of psychosocial comorbidities in granulomatosis with polyangiitis and their impact on quality of life. Rheumatology International. 2023;43(8):1467-1477
  41. 41. Koutantji M, Pearce S, Harrold E. Psychological aspects of vasculitis. Rheumatology (Oxford, England). 2000;39(11):1173-1179
  42. 42. Marin C, Alobid I, López-Chacón M, VanStrahlen CR, Mullol J. Type 2 and non-type 2 inflammation in the upper airways: Cellular and molecular alterations in olfactory neuroepithelium cell populations. Current Allergy and Asthma Reports. 2024;24(4):211-219
  43. 43. Seals MR, Moran MM, Leavenworth JD, Leavenworth JW. Contribution of dysregulated B-cells and IgE antibody responses to multiple sclerosis. Frontiers in Immunology. 2022;13:900117
  44. 44. Rosenwasser LJ. Mechanisms of IgE inflammation. Current Allergy and Asthma Reports. 2011;11(2):178-183
  45. 45. Ratzlaff RE, Cavanaugh VJ, Miller GW, Oakes SG. Evidence of a neurogenic component during IgE-mediated inflammation in mouse skin. Journal of Neuroimmunology. 1992;41(1):89-96
  46. 46. Cui H, Liu F, Fang Y, Wang T, Yuan B, Ma C. Neuronal FcεRIα directly mediates ocular itch via IgE-immune complex in a mouse model of allergic conjunctivitis. Journal of Neuroinflammation. 2022;19(1):55
  47. 47. Liu F, Xu L, Chen N, Zhou M, Li C, Yang Q , et al. Neuronal Fc-epsilon receptor I contributes to antigen-evoked pruritus in a murine model of ocular allergy. Brain, Behavior, and Immunity. 2017;61:165-175
  48. 48. Crosson T, Wang JC, Doyle B, Merrison H, Balood M, Parrin A, et al. FcεR1-expressing nociceptors trigger allergic airway inflammation. The Journal of Allergy and Clinical Immunology. 2021;147(6):2330-2342
  49. 49. Ebrahim Soltani Z, Badripour A, Haddadi NS, Elahi M, Kazemi K, Afshari K, et al. Allergic rhinitis in BALB/c mice is associated with behavioral and hippocampus changes and neuroinflammation via the TLR4/NF-κB signaling pathway. International Immunopharmacology. 2022;108:108725
  50. 50. Elahi M, Ebrahim Soltani Z, Afrooghe A, Ahmadi E, Dehpour AR. Sex dimorphism in pain threshold and neuroinflammatory response: The protective effect of female sexual hormones on behavior and seizures in an allergic rhinitis model. Journal of Neuroimmune Pharmacology. 2024;19(1):16
  51. 51. Yeh CF, Huang WH, Lan MY, Hung W. Lipopolysaccharide-initiated rhinosinusitis causes neuroinflammation and olfactory dysfunction in mice. American Journal of Rhinology & Allergy. 2023;37(3):298-306
  52. 52. Klein R, Soung A, Sissoko C, Nordvig A, Canoll P, Mariani M, et al. COVID-19 induces neuroinflammation and loss of hippocampal neurogenesis. Research Square. 29 Oct 2021:rs.3.rs-1031824 [Preprint]
  53. 53. Vanderheiden A, Klein RS. Neuroinflammation and COVID-19. Current Opinion in Neurobiology. 2022;76:102608
  54. 54. Bornand D, Toovey S, Jick SS, Meier CR. The risk of new onset depression in association with influenza–A population-based observational study. Brain, Behavior, and Immunity. 2016;53:131-137
  55. 55. Su CY, Menuz K, Carlson JR. Olfactory perception: Receptors, cells, and circuits. Cell. 2009;139(1):45-59
  56. 56. Imamura F, Ito A, LaFever BJ. Subpopulations of projection neurons in the olfactory bulb. Frontiers in Neural Circuits. 2020;14:561822
  57. 57. Krusemark EA, Novak LR, Gitelman DR, Li W. When the sense of smell meets emotion: Anxiety-state-dependent olfactory processing and neural circuitry adaptation. The Journal of Neuroscience. 2013;33(39):15324-15332
  58. 58. Ressler KJ. Amygdala activity, fear, and anxiety: Modulation by stress. Biological Psychiatry. 2010;67(12):1117-1119
  59. 59. Milad MR, Rauch SL. The role of the orbitofrontal cortex in anxiety disorders. Annals of the New York Academy of Sciences. 2007;1121:546-561
  60. 60. Nguyen AD, Shenton ME, Levitt JJ. Olfactory dysfunction in schizophrenia: A review of neuroanatomy and psychophysiological measurements. Harvard Review of Psychiatry. 2010;18(5):279-292
  61. 61. Gao Z, Lv H, Wang Y, Xie Y, Guan M, Xu Y. TET2 deficiency promotes anxiety and depression-like behaviors by activating NLRP3/IL-1β pathway in microglia of allergic rhinitis mice. Molecular Medicine. 2023;29(1):160
  62. 62. Rodrigues J, Rocha MI, Teixeira F, Resende B, Cardoso A, Sá SI, et al. Structural, functional and behavioral impact of allergic rhinitis on olfactory pathway and prefrontal cortex. Physiology & Behavior. 2023;265:114171
  63. 63. Tian J, Kaufman DL. The GABA and GABA-receptor system in inflammation, anti-tumor immune responses, and COVID-19. Biomedicines. 18 Jan 2023;11(2):254
  64. 64. Luscher B, Shen Q , Sahir N. The GABAergic deficit hypothesis of major depressive disorder. Molecular Psychiatry. 2011;16(4):383-406
  65. 65. Bali V, Simmons SC, Manning CE, Doyle MA, Rodriguez M, Stark AR, et al. Characterization of proinflammatory markers in the ventral tegmental area across mouse models of chronic stress. Neuroscience. 2021;461:11-22
  66. 66. Strazdins E, Nie YF, Ramli R, Palesy T, Christensen JM, Marcells GN, et al. Association of mental health status with perception of nasal function. Journal of the American Medical Association Facial Plastic Surgery. 2017;19(5):369-377
  67. 67. Rodrigues J, Franco-Pego F, Sousa-Pinto B, Bousquet J, Raemdonck K, Vaz R. Anxiety and depression risk in patients with allergic rhinitis: A systematic review and meta-analysis. Rhinology. 2021;59(4):360-373
  68. 68. Chang F, Hong J, Yuan F, Wu D. Association between cognition and olfaction-specific parameters in patients with chronic rhinosinusitis. European Archives of Oto-Rhino-Laryngology. 2023;280(7):3249-3258
  69. 69. Upton J. Beck depression inventory (BDI). In: Gellman MD, Turner JR, editors. Encyclopedia of Behavioral Medicine. New York, NY: Springer New York; 2013. pp. 178-179
  70. 70. Rodrigues J, Pinto JV, Alexandre PL, Sousa-Pinto B, Pereira AM, Raemdonck K, et al. Allergic rhinitis seasonality, severity, and disease control influence anxiety and depression. The Laryngoscope. 2023;133(6):1321-1327
  71. 71. Xu K, Linton S, Sunavsky A, Garvey S, Botting H, Steacy LM, et al. Anxiety in adults with allergic rhinitis during the coronavirus disease 2019 pandemic: A Canadian perspective. Annals of Allergy, Asthma & Immunology. 2022;129(5):627-634
  72. 72. Vandelaar LJ, Jiang ZY, Saini A, Yao WC, Luong AU, Citardi MJ. PHQ-9 and SNOT-22: Elucidating the prevalence of depression in chronic rhinosinusitis. Otolaryngology and Head and Neck Surgery. 2020;162(1):142-147
  73. 73. Farhood Z, Schlosser RJ, Pearse ME, Storck KA, Nguyen SA, Soler ZM. Twenty-two-item sino-nasal outcome test in a control population: A cross-sectional study and systematic review. International Forum of Allergy & Rhinology. 2016;6(3):271-277
  74. 74. Quintana GR, Ponce FP, Escudero-Pastén JI, Santibáñez-Palma JF, Nagy L, Koós M, et al. Cross-cultural validation and measurement invariance of anxiety and depression symptoms: A study of the brief symptom inventory (BSI) in 42 countries. Journal of Affective Disorders. 2024;350:991-1006
  75. 75. Mou YK, Wang HR, Zhang WB, Zhang Y, Ren C, Song XC. Allergic rhinitis and depression: Profile and proposal. Frontiers in Psychiatry. 4 Jan 2022;12:820497
  76. 76. Gorman JM, Kent JM. SSRIs and SNRIs: Broad spectrum of efficacy beyond major depression. The Journal of Clinical Psychiatry. 1999;60(Suppl. 4):33-38; discussion 9
  77. 77. Alromaih S, Alsagaf L, Aloraini N, Alrasheed A, Alroqi A, Aloulah M, et al. Drug-induced rhinitis: Narrative review. Ear, Nose & Throat Journal. 15 Nov 2022:1455613221141214
  78. 78. Muñoz-Cano R, Ribó P, Araujo G, Giralt E, Sanchez-Lopez J, Valero A. Severity of allergic rhinitis impacts sleep and anxiety: Results from a large Spanish cohort. Clinical and Translational Allergy. 2018;8:23
  79. 79. Margraf J, Meyer AH, Lavallee KL. Well-being from the knife? Psychological effects of aesthetic surgery. Clinical Psychological Science. 2013;1(3):239-252
  80. 80. Moss TP, Harris DL. Psychological change after aesthetic plastic surgery: A prospective controlled outcome study. Psychology, Health & Medicine. 2009;14(5):567-572
  81. 81. Kucur C, Kuduban O, Ozturk A, Gozeler MS, Ozbay I, Deveci E, et al. Psychological evaluation of patients seeking rhinoplasty. The Eurasian Journal of Medicine. 2016;48(2):102-106
  82. 82. Piromchai P, Suetrong S, Arunpongpaisal S. Psychological status in patients seeking rhinoplasty. Clinical Medicine Insights. Ear, Nose and Throat. 2011;4:31-35
  83. 83. Mahmoudi S, Zadeh MR. Development and validation of the Rhinoplasty outcomes evaluation (ROE) questionnaire: An analytical study. World Journal of Plastic Surgery. 2022;11(2):68-74
  84. 84. White CA. Cognitive behavioral principles in managing chronic disease. The Western Journal of Medicine. 2001;175(5):338-342

Written By

Zahra Ebrahim Soltani and Mohammad Elahi

Submitted: 09 June 2024 Reviewed: 19 June 2024 Published: 27 November 2024

© The Author(s). Licensee IntechOpen. This chapter is distributed under the terms of the Creative Commons 4.0 International License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.

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Name: Merrill Bechtelar CPA

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Introduction: My name is Merrill Bechtelar CPA, I am a clean, agreeable, glorious, magnificent, witty, enchanting, comfortable person who loves writing and wants to share my knowledge and understanding with you.