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Analysis of pathogenetic process of fungal rhinosinusitis:Report of two cases

2020-04-22LinLinWangFengJiChenLongSuYangJieEnLi

World Journal of Clinical Cases 2020年2期
关键词:依赖性粮油贸易战

Lin-Lin Wang, Feng-Ji Chen, Long-Su Yang, Jie-En Li

Lin-Lin Wang, Feng-Ji Chen, Long-Su Yang, Jie-En Li, Department of Otolaryngology, Head and Neck Surgery, The First Affiliated Hospital of Guangxi Medical University, No.6,Shuangyong Road, Nanning 530022, Guangxi Zhuang Autonomous Region, China

Abstract

Key words: Fungal rhinosinusitis; Aspergillosis; Fungus ball; Sinus surgery;Classification; Diagnosis; Case report

INTRODUCTION

Fungal rhinosinusitis is a comprehensive term that includes primarily inflammatory diseases of the nasal cavity and/or sinus caused by fungal infections.Much controversy exists regarding the classification of fungal rhinosinusitis, but the most widely accepted classification roughly divides fungal rhinosinusitis into two groups according to the histopathological findings as follows:Invasive fungal rhinosinusitis and noninvasive fungal rhinosinusitis.Invasive fungal rhinosinusitis includes three categories:Acute invasive sinusitis, chronic invasive sinusitis, and granulomatous sinusitis.There are three different clinical manifestations of noninvasive fungi:Saprophytic fungal infection, fungal ball, and allergic fungal rhinosinusitis[1,2].

世界一带一路基金会荣誉主席、时代链集团创始合伙人、湖南凯美特气股份有限公司董事长祝恩福在《从中美贸易战看世界粮食未来与中国可持续农业的发展》的分享中表示,目前我国粮油、种子等还存在结构性问题,具有较高的对外依赖性。保障我国粮食安全及农业种植发展、推动我国绿色高效的可持续农业发展刻不容缓,而土壤修护是其中的关键所在。

Fungi are ubiquitous, and spores are inhaled with every breath.Guangxi Zhuang Autonomous Region has a subtropical monsoon climate, and the weather is warm and humid, which is more conducive to fungal growth.The incidence of fungal rhinosinusitis in Guangxi is higher than that in other provinces.A statistical analysis of total chronic sinusitis (CRS) and fungal rhinosinusitis patients in our hospital from 2009 to 2018 indicated that 2518 patients with CRS were treated in 10 years, including 471 patients with fungal rhinosinusitis, accounting for 18.71% of CRS patients.In the past 10 years, the overall fungal rhinosinusitis trend in our hospital has increased each year (Figure 1).However, its pathogenesis and causes are still unclear.Anatomical disorders, environmental exposure, microbial toxicity, genetic background, and the immune status of infected hosts are considered to be potential causes[3].Fungi are found in the nasal mucosa and paranasal sinuses of healthy people and CRS patients.Fungal infections do not occur in every colonized patient, and the immune status of patients largely determines the nature of fungal disease in the nasal cavity[4].However, the pathophysiological mechanism of the transformation from harmless fungal colonization to fungal rhinosinusitis in patients is still unclear, and there are no relevant literature reports at present.

In our follow-up study of fungal rhinosinusitis patients at the First Affiliated Hospital of Guangxi Medical University, we found two patients with complete progression from harmless fungal colonization to fungal rhinosinusitis.In this paper,by studying the pathogenic progression of these two patients from harmless fungal colonization to fungal rhinosinusitis, we estimated the time required for the pathological transition in these patients and examined the cause of their nasal or sinus infections, which is important for the effective prevention and treatment of fungal rhinosinusitis in the future.Below are the case reports of the two patients.

CASE PRESENTATION

Chief complaints

Case 1:On November 5, 2017, a 52-year-old female patient presented with two months of pain in the right forehead more than one year after the operation for right nasal inverted papilloma.

Case 2:A patient was admitted to the hospital on February 10, 2019 due to repeated aspiration of blood sputum for more than 3 mo.

Figure 1 Annual changes in the number of fungal rhinosinusitis patients from 2009 to 2018.

History of present illness

Case 1:The patient had experienced dull pain in the right forehead since before February, which was intermittent and occasionally accompanied by dizziness, but a diagnosis and treatment had not been performed.The posterior right temporal dull pain was aggravated and paroxysmal, and a small amount of pus was observed; the patient presented to our hospital for treatment.Nevertheless, she was in good spirits,in good health, and sleeping well, and had no substantial alterations in weight or physical manifestations on the upper face.

Case 2:The patient developed aspirational blood stasis after a cold in March, and the blood stasis was intermittent without nasal congestion or purulent sputum.Nevertheless, she was in good spirits, in good health, and sleeping well, and had no substantial alterations in weight or physical manifestations on the upper face.

History of past illness

Case 1:The general health condition was normal.On February 19, 2016, endoscopic resection of the nasal tumors was performed under general anesthesia.The pathological findings indicated an inverted papilloma.The right shoulder fracture caused by the fall 10 years ago had been operated without sequelae.He was diagnosed with tuberculosis as a child and has been cured.The patient had no history of hypertension, diabetes, nerve disease, cerebrovascular disease, neuropsychiatric disease, hepatitis, malaria, mental process, trauma, blood transfusion, or food or drug allergies.

Case 2:The general health status was normal.In 2004, the patient was diagnosed with hypertension, taking amlodipine besylate tablets 1 qd, lisinopril 1 qd, and aspirin 1 qd, and usually had good blood pressure control.A history of cerebral infarction was found on physical examination in 2015.The patient had no history of diabetes, nerve disease, neuropsychiatric disease, hepatitis, tuberculosis, malaria, mental process,trauma, blood transfusion, or food or drug allergies.

Personal and family history

Case 1:The patient had no epidemic exposure and no exposure to chemical,radioactive, and toxic substances.The patient had no history of drug abuse, smoking,or drinking.Family history is not special.

Case 2:The patient had no epidemic exposure and no exposure to chemical,radioactive, and toxic substances.The patient had no history of drug abuse, smoking,or drinking.Her family history was not special.

Physical examination upon admission

Case 1:The patient's body temperature was 36.6 °C, pulse was 79/min, respiratory rate was 20/min, and blood pressure was 125/74 mmHg.The patient had a normal conjunctiva, no yellow staining in the sclera, normal pupil, no abnormal secretions in the external auditory canal, and no tenderness in the mastoid handling.At the time of admission, the patient had a normal gingiva and oral mucosa.The tongue color was normal, and the patient did not have enlarged tonsils or thyroid gland.The patient's external nose was not deformed, and the nasal mucosa was ruddy.The turbinate mucosa was reddish, smooth, and moist, and the probe was soft and elastic.Epithelialization was observed on the right nasal passage, and a little secretion was attached.Among them, a gray-white new creature was seen with a smooth surface.The nasal septum was centered, and there was no congested olfactory sulcus in the Li's area.There was no empyema in the olfactory sulcus.No abnormality was found in the posterior nostril.The mucosa of the nasopharynx was smooth, the pharyngeal crypts on both sides were symmetrical, without fullness, and no new organism was found in the nasopharynx.The epiglottis had no deformity, lifting well.The ventricular zone was symmetrical, the surface was smooth, and no pre hyperemia union and no abnormality were found.The surface was smooth without hyperemia.There was no hyperemia in bilateral vocal cords, but there was a smooth margin, free movement, and symmetry and good closure of the glottis.No abnormality was found under the glottis.In addition, there were no deformities in the chest, no veins in the chest wall, and no tapping pain in the breastbone.Respiratory movement, intercostal space, and tremor were normal.The patient had normal breathing, obvious respiratory sounds in both lungs, no dry or wet sounds, and no pleural friction sounds.

Case 2:The patient's body temperature was 36.4 °C, pulse was 92/min, respiratory rate was 20/min, and blood pressure was 143/98 mmHg.The patient had a normal conjunctiva, no yellow staining in the sclera, normal pupil, no abnormal secretions in the external auditory canal, and no tenderness in the mastoid handling.At the time of admission, the patient had a normal gingiva and oral mucosa.The tongue color was normal, and the patient did not have enlarged tonsils or thyroid gland.The patient's external nose was not deformed, and the nasal mucosa was ruddy.The turbinate mucosa was reddish, smooth, and moist, and the probe was soft and elastic.The nasal passage was unobstructed, and no abnormal secretion was found.The nasal septum was centered, and there was no congested olfactory sulcus in the Li's area.There was no empyema in the olfactory sulcus.No abnormality was found in the posterior nostril.The mucosa of nasopharynx was smooth, the pharyngeal crypts on both sides were symmetrical, without fullness, and no new organism was found in the nasopharynx.Epiglottis had no deformity, lifting well.The ventricular zone was symmetrical, the surface was smooth, and no pre hyperemia union and no abnormality were found.The surface was smooth without hyperemia.There was no hyperemia in bilateral vocal cords, but there was a smooth margin, free movement,and symmetry and good closure of the glottis.No abnormality was found under the glottis.In addition, there were no deformities in the chest, no veins in the chest wall,and no tapping pain in the breastbone.Respiratory movement, intercostal space, and tremor were normal.The patient had normal breathing, obvious respiratory sounds in both lungs, no dry or wet sounds, and no pleural friction sounds.

Laboratory examinations

Case 1:On October 19, 2017, paranasal sinus computed tomography (CT) showed:(1)Right maxillary sinus inflammation and bleeding; and (2) postoperative changes of the right ethmoid sinus.Nasopharyngoscopy showed that the epithelialization of the right nasal passage was seen, with a little secretion attached.A gray-white new creature was seen, the surface was smooth, and it showed postoperative changes.Routine blood test was abnormal (Tables 1 and 2).

Case 2:Nasal endoscopy performed at Binjiang Hospital (November 21, 2018)suggested bleeding from the right nose.Nasopharynx CT (November 21, 2018)performed at 303 Hospital indicated inflammation of the right maxillary sinus,hypertrophy of bilateral lower turbinate mucosa, and slightly deviated nasal septum.The patient was negative for EB virus antibodies.Routine blood test was normal(Table 3).

Imaging examinations

Case 1:There was a preoperative examination of the first operation on February 4,2016.Axial and sagittal paranasal sinus CT scans showed dense shadows in the soft tissue of the right inferior nasal tract with small, low-density shadows, which were indistinct from the inferior turbinate and ethmoid sinus, and bone destruction in the ethmoid sinus (Figure 2A-D).Histopathologic findings showed that the nasal mass was an inverted papilloma and that the maxillary sinus exhibited chronic inflammation of the mucous membrane (Figure 2E-F).

There was a preoperative examination of the second operation on October 19, 2017.Axial and sagittal paranasal sinus CT scans showed that most of the ethmoid plates in the right ethmoid sinus were missing.Patchy, dense shadows were visible in the right maxillary sinus, and strips of dense shadows were visible in the right maxillary sinus.No abnormal bone tissue was observed in the sinus wall (Figure 3).

Table 1 Blood tests showing an increase in the number of leukocytes, lymphocytes and neutrophils (February 16, 2016)

There was a postoperative re-examination on December 28, 2018.Axial and sagittal magnetic resonance imaging of the right maxillofacial region showed that most of the ethmoid plates, and the middle turbinate and part of the upper turbinate of the right ethmoid sinus were absent, indicating postoperative changes.The opening of the right maxillary sinus was satisfactory, the mucosa was slightly thickened on the medial wall, and no abnormal signal or shadow was observed in the nasal cavity(Figure 4).

Case 2:The patient exhibited a right maxillary sinus cyst on a head CT scan performed during a physical examination in 2016 (Figure 5).In 2017, another head CT scan (Figure 6) revealed that the maxillary sinus cyst had disappeared, and no abnormalities were found in the remaining sinuses.In 2018, during a physical examination, a head CT scan (Figure 7) showed new maxillary sinus inflammation.The patient was admitted to the hospital on February 10, 2019.Nasal endoscopy showed right epistaxis, and nasal CT showed a rounded, dense shadow in the right maxillary sinus (Figure 8).A diagnosis of right maxillary sinusitis was considered.Endoscopic sinus surgery was performed on the right upper maxillary sinus, and postoperative pathology showed (Figure 9) a large amount of fungal flora in the right maxillary sinus.Three months after the operation, a repeat sinus CT scan was performed (Figure 10).

FINAL DIAGNOSIS

The two cases were pathologically diagnosed as maxillary sinus aspergillosis.

TREATMENT

Transnasal endoscopic maxillary sinus surgery was performed.

Table 2 Blood tests showing an increase in the number of eosinophils (November 6, 2017)

OUTCOME AND FOLLOW-UP

After the operation, hemostasis, fluid replacement, and anti-inflammatory treatment were routinely administered.

DISCUSSION

A fungal ball is the most common noninvasive fungal sinusitis finding; it is usually located on one side of the maxillary sinus and is more common in middle-aged and elderly women[5,6].These patients are mainly characterized by runny and stuffy nose,dried blood in the nose, headaches, and facial pain.However, as host immune function deteriorates, the fungal ball may develop into an invasive form that erodes the sinus wall, causing facial pain or obstructing the sinus opening and causing secondary bacterial infection.Currently, the clinical diagnosis of fungal rhinosinusitis relies mainly on imaging examination.On CT, fungal rhinosinusitis is characterized by microcalcification in the diseased sinus.Surgery is the first choice for treatment of symptomatic fungal spherical sinusitis, which involves minimally invasive procedures and clearing of the field.Surgery can clear the lesions, remove the obstructive factors, reconstruct the normal anatomy, protect the sinus mucosa, and return the patient to normal physiological function[7,8].Antifungal therapy is usually not required after complete excision of the fungal ball, but removal of the fungal ball for pathological diagnosis is a common procedure[9,10].

The first patient was found to have a mass during a physical examination in January 2016, and the tumor was surgically removed in February.In September 2017,the patient began to have headaches in the right frontal part of the head.In November, the patient visited again.A paranasal sinus CT scan showed a highdensity shadow in the maxillary sinus (Figure 3), raising the possibility of maxillary sinus mycosis.The postoperative pathological diagnosis was right maxillary sinus aspergillosis.Approximately one and a half years were required for the patient to develop fungal rhinosinusitis, which may be related to the deficient immune status caused by the recurrence of the patient's inverted papilloma or to the bacterial changes caused by the invasiveness of the first surgical procedure.

The second patient underwent a physical examination in May 2016.A head CT scanshowed a submucosal cyst in the right maxillary sinus.In May 2017, a CT scan of the maxillary sinus cavity showed that the cyst had disappeared.In May 2018, a head CT scan obtained during a physical examination showed new maxillary sinus inflammation.No treatment was administered for two years.In November 2018, the patient had repeated aspiration of blood sputum and was admitted to the hospital in February 2019.The postoperative pathology showed a large number of fungal colonies in the right maxillary sinus, which were PAS (+) and PASD (+) upon staining, and the diagnosis of aspergillosis was clear.The time required for progression of the maxillary sinus cyst to fungal rhinosinusitis was 2.5 years.The patient had been diagnosed with hypertension in 2004 and usually had good blood pressure control.A physical examination revealed a history of cerebral infarction in 2015.We conclude that the occurrence of fungal rhinosinusitis was associated with decreased immunity due to cardiovascular disease.

Based on the analysis of the above two cases, we speculate that the pathological transition from fungal colonization to fungal rhinosinusitis requires approximately one to three years.The duration may be related to underlying disease, surgical treatment, decreased immunity, and use of hormone antibiotics and hormones.Not every colonized patient develops fungal infection.The interaction of fungi with the host immune system determines the occurrence or disappearance of infection.Studies have shown that many factors may cause chronic fungal rhinosinusitis; 10% of patients are exposed to a harmful work environment (mining), 10% of patients smoke,and 20% have had surgery for CRS.Leszczyńskaet al[11]suggested that hypertension and confirmed type 2 diabetes are predominant in patients with fungal rhinosinusitis.Successful antifungal immunity depends on the innate and adaptive immune systems.Innate immune responses to fungi are mainly orchestrated by phagocytes and the epithelium.Toxins secreted by fungi, such as candidalysin, can directly damage epithelial membranes and trigger a danger-response signaling pathway that activates epithelial immunity[12].C-type lectin receptors (CLRs), which include Dectin-1 and Dectin-2, are essential pattern recognition receptors involved in fungal recognition and initiation of protective antifungal immunity[13].Upon binding of its ligands,Dectin-1 activates a number of cellular responses, including phagocytosis, reactive oxygen species production, and the production of numerous cytokinesviamultiple signaling pathways[14].The best characterized Dectin-1 signaling pathway is the Syk-CARD9 pathway, which leads to activation of the canonical NF-κB subunits, c-Rel,and p65 and, subsequently, production of pro-IL-1β, IL-6, IL-10, IL-23, and TNF-α[15].Dectin-1-mediated cytokine production has been shown to influence T-cell polarization.Dectin-1-/-mice infected intratracheally withAspergillus fumigatusshowed reduced levels of key Th17 cytokines (IL-17 and IL-23) and a dominant IL-12p40/IFN-γ-producing Th1 response, with increased lung fungal burdens relative to wild-type infected animals[16].The importance of Th1 and Th17 immunity in antifungal defense mechanisms has been described in both mice and humans.Th1 cells secrete IFN-γ, GM-CSF, and TNF, which affect the maturation and killing ability of phagocytes as well as antigen-presenting cell function.The synergistic action of TNF with IFN-γ induces macrophage reactive oxygen species productionin vitro,which is thought to contribute toin vivogrowth arrest of intracellular fungal pathogens includingHistoplasma capsulatumandCoccidioides immitis[17,18].In humans,deficiencies in receptors for either IL-12 or IFN-γ have been associated with increased susceptibility to coccidioidomycosis and histoplasmosis[19,20].Notably, IFN-γ immunotherapy has been shown to improve the outcome of patients with aspergillosis, cryptococcosis, or coccidioidomycosis[21].Th17 cells produce cytokines,including IL-17A, IL-17F, and IL-22, that promote neutrophil trafficking and fungicidal activity and are involved in the induction of antimicrobial peptides such as S100A7, S100A8, S100A9, and β-defensins from epithelial cells and keratinocytes that defend against fungal overgrowth[22].Th17 cells are essential for preventing mucosal fungal infections, such as chronic mucocutaneous candidiasis, andMalasseziaskin infections[23].In humans, a deficiency in the IL-17/IL-17R axis and in signaling components, including genetic defects in STAT1 and STAT3 (hyper-IgE syndrome),results in increased susceptibility to chronic mucocutaneous candidiasis[24].CLRs have been implicated in Th2-mediated fungal allergic responses.For instance, in mice,following repeated lung exposure toAspergillus fumigatus, CD4+ T cells produce IL-4,IL-5, and IL-13 in a Dectin-1-dependent manner (Clec7a-/-mice)[24].Moreover,intratracheal administration ofA.versicolorspores in mice exacerbated house dust mite-induced allergic asthma through the production of IL-4 and IL-13[25].

From the blood test results of the patients, we found that the number of eosinophils before surgery was increased in the first patient and that the number of eosinophils before surgery was normal in the second patient.To our knowledge, the presence of prevalent eosinophilic infiltration of the inflamed mucosa is the most constant pathological finding in CRS.This feature is equally observed both in allergic and nonallergic patients.Such a pathological finding might be due to a prevalent Th2 immune response and a similar pattern of cytokines.The eosinophils in the sinus mucosa have been proposed to be mainly responsible for the initial tissue damage and can alter the epithelial innate immunity.In turn, tissue damage may promote bacterial aggression in the sinus mucosa; in particular,Staphylococcus aureuscan cause superantigenic stimulation of the adaptive immune system through the production of exotoxins, and its biofilms have been associated with eosinophilic inflammation and elevated eosinophilic cationic protein and IL-5 levels[26].CRS affects 1% to 9% of the general population and exhibits two traditional clinical phenotypes, CRS with nasal polyps (CRSwNP) and CRS without nasal polyps (CRSsNP).CRSwNP is characterized by T-helper cell type 2-skewed inflammation, whereas CRSsNP exhibits a T-helper cell type 1-mediated inflammatory response[27].Iinumaet al[28]classified patients with CRSwNP as having non-eosinophilic chronic rhinosinusitis (NECRS) or eosinophilic CRS (ECRS).Some findings have suggested major differences in the pathophysiology of the two forms of CRSwNP.CD4+ T cells, basophils, and IgE+mast cells could contribute to the eosinophilic infiltration and overall pathogenesis of ECRS, but this was not found for non-eosinophilic chronic rhinosinusitis[29].Several pathological findings and clinical observations have suggested that CRS and asthma may be part of the same disease process, characterized by diffuse eosinophilic inflammation of the respiratory airways, from the nostrils to the bronchi, which constitutes the pathological basis of the so-called “United Airways Disease” theory[30].The histological features of CRS and comorbid asthma largely overlap; both the sinuses and bronchial mucosa show eosinophilic inflammation and signs of airway remodeling.CRS and asthma may also interactviathe systemic route through the release of pro-inflammatory cytokines in the blood, including IL-5 from peripheral sites; then, those mediators act on the bone marrow, leading to the maturation and mobilization of inflammatory cells, including eosinophils and basophils[26].Some studies have shown that, following initial fungal allergen exposure of naïve mice,basophils are rapidly recruited to the airways, produce IL-4, and influence the development of the adaptive immune response[31].The mechanism underlying eosinophil infiltration in fungal diseases has not been determined, but if a common mechanism could be identified, it would lead to a breakthrough in the treatment of many diseases.

Figure 3 The second preoperative examination (October 19, 2017).

CONCLUSION

In the above two cases, we have described in detail the pathogenic process from fungal colonization to fungal sinusitis.The pathological change in these two cases required approximately one to three years.At present, few related reports have been published on these subjects domestically or abroad.We have highlighted the central role of CLRs, such as Dectin-1, in inducing and modulating cytokine production and directing antifungal immune responses.However, many of the important mechanisms shaping these responses are yet to be fully understood.The formation of fungal rhinosinusitis may be related to the reduced immune function caused by endoscopic sinus surgery and hypertension in the above cases, which requires further discussion.Further understanding of other mechanisms that shape T-cell immunity during fungal infections is of great significance for the development of emerging therapies.

Figure 4 Postoperative re-examination (December 28, 2018).

Figure 5 Physical examination (May 27, 2016).

Figure 6 Physical examination (May 26, 2017).

Figure 7 Physical examination (May 31, 2018).

Figure 8 Preoperative examination (February 11, 2019).

Figure 9 Postoperative pathological findings (right maxillary sinus mass) showing a large number of fungal mycetes when observed under a microscope,consistent with aspergillosis (February 14, 2019).

Figure 10 Postoperative re-examination (June 6, 2019).

ACKNOWLEDGEMENTS

We would like to thank the two patients for allowing us to use their personal information.

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