Published online Feb 14, 2014. doi: 10.3748/wjg.v20.i6.1470
Revised: November 13, 2013
Accepted: January 6, 2014
Published online: February 14, 2014
Processing time: 154 Days and 5.8 Hours
Helicobacter pylori (H. pylori) is a major cause of chronic gastritis and gastric ulcers and considerable evidence supports the notion that infection with this bacterium is also associated with gastric malignancy in addition to various other conditions including pulmonary, vascular and autoimmune disorders. Gastric juice infected with H. pylori might play an important role in upper respiratory tract infection. Although direct and/or indirect mechanisms might be involved in the association between H. pylori and upper respiratory tract diseases, the etiological role of H. pylori in upper respiratory tract disorders has not yet been fully elucidated. Although various studies over the past two decades have suggested a relationship between H. pylori and upper respiratory tract diseases, the findings are inconsistent. The present overview describes the outcomes of recent investigations into the impact of H. pylori on upper respiratory tract and adjacent lesions.
Core tip: This review evaluates the role of Helicobacter pylori (H. pylori) in the upper respiratory system. Many studies have reported the presence of H. pylori in the upper respiratory tract, but their findings have varied. A definitive relationship between H. pylori and upper respiratory tract disorders has not been established, and further controlled studies are required.
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Citation: Kariya S, Okano M, Nishizaki K. An association between
Helicobacter pylori and upper respiratory tract disease: Fact or fiction? World J Gastroenterol 2014; 20(6): 1470-1484 - URL: https://www.wjgnet.com/1007-9327/full/v20/i6/1470.htm
- DOI: https://dx.doi.org/10.3748/wjg.v20.i6.1470
The Gram-negative bacterium Helicobacter pylori (H. pylori) resides in the human stomach, which was formerly considered a sterile environment due to its low pH[1]. Permanent H. pylori infection is often acquired early in life[2]. Numerous studies have shown that H. pylori is the major cause of stomach inflammation, and it is recognized as a key factor in the development of upper gastrointestinal tract pathologies including peptic ulcer disease, gastric cancer, extragastric intestinal malignancies and gastric mucosal-associated lymphoid tissue lymphoma[3-10].
Among the known H. pylori virulence factors that include cytotoxin-associated gene A product (CagA), vacuolating cytotoxin (VacA), outer inflammatory protein and duodenal ulcer promoting[11], VacA and CagA have been the most thoroughly investigated in an effort to understand the pathogenicity of this bacterium. VacA is a pore-forming toxin that disrupts cell polarity in the gastric mucosa, promotes the apoptosis of epithelial cells, and inhibits T cell proliferation. CagA is an immunodominant antigen that is translocated into gastric epithelial cells through the Cag type IV secretion system encoded by cag pathogenicity islands[12]. H. pylori strains that express CagA are associated with an increased risk of gastric cancer. In addition to these local interactions, H. pylori impairs T cell-mediated immunity via systemic mechanisms[13].
Systemic immune and inflammatory responses to H. pylori might be related to extra-gastrointestinal system diseases[13]. Recent studies have identified a potential relationship between H. pylori infection and the pathogenesis of cardiovascular, neurological, dermatological, immunological, hematological, hepatobiliary, ophthalmological and gynecological diseases, as well as diabetes mellitus[14-23]. A role of H. pylori in the development of lower respiratory disease has also been suggested, but a pathophysiological association has not been proven[24-28].
The impact of gastric H. pylori infection on the pathogenesis of gastroesophageal reflux disease (GERD) is controversial[29,30], but H. pylori can survive for a certain period in gastric juice in the esophagus[31]. Gastric juices infected with H. pylori and systemic immune responses to gastric H. pylori infection might play a causative role in upper respiratory diseases[32-34]. In contrast, the findings of recent cross-sectional studies indicate that the risk of developing childhood- or early-onset allergic asthma, allergic rhinitis and atopic dermatitis is decreased in carriers of H. pylori compared with non-infected individuals[35-40], indicating that H. pylori can have both harmful and beneficial effects in patients with upper respiratory diseases.
Although the pathogenicity of H. pylori in gastrointestinal lesions has been extensively studied, the role of this bacterium in upper respiratory tract disorders is under debate. The present review summarizes current findings regarding the relationship between H. pylori and upper respiratory tract diseases.
Allergic rhinitis is the most widespread type of chronic rhinitis, and it is the typical type I, immunoglobulin (Ig) E (IgE) antibody-mediated, hypersensitive response of the nasal mucosa to environmental allergens for all age groups[41]. Allergic rhinitis and asthma are pathologically similar, and mucosal inflammation including the production of inflammatory factors (cytokines, adhesion molecules and inflammatory mediators) in allergic rhinitis is similar to that associated with bronchial asthma. In addition, allergic rhinitis is an independent risk factor for the development of asthma[41,42]. H. pylori is not always detectable in the nasal secretions of patients with gastric H. pylori[43] (Table 1), yet an inverse association between H. pylori infection and allergic rhinitis has been reported. An investigation into the association between the prevalence of H. pylori and pollinosis symptoms in healthy volunteers and the relationship between serum H. pylori-IgG and specific IgE antibodies for pollen, mites and house dust in 211 consecutive patients concluded that H. pylori infection might play an important role in protecting against the development of pollinosis, especially among younger patients[44]. The findings of a cross-sectional analysis of data from 7412 participants in the National Health and Nutrition Examination Survey 1999-2000 similarly showed that H. pylori seropositivity is inversely related to recent wheezing, allergic rhinitis, and dermatitis, eczema, or rash[37]. One possible explanation for these findings is the hygiene hypothesis[45]. Although definitive mechanisms remain unknown and contradictory opinions have been published[46,47], a protective role of H. pylori against allergic disorders including allergic rhinitis and asthma is biologically plausible.
Ref. | Patients (n) | Samples | Methods | Positive results |
Rhinitis | ||||
Cellini et al[43] | 42 | Nasal mucus | Culture | 0% |
Imamura et al[44] | 211 | Blood | ELISA | 44.8% |
Sinusitis | ||||
Ozyurt et al[52] | 32 | Nasal polyp | PCR | 59.4% |
Szczygielski et al[53] | 61 | Nasal polyp | Urease test | 0% |
Kaviani et al[54] | 37 | Nasal polyp | Urease test | 24.3% |
Blood | ELISA (IgG) | 66.2% | ||
Cvorovic et al[55] | 23 | Nasal polyp | Urease test/giemsa staining | 26.1% |
Včeva et al[57] | 35 | Nasal polyp | PCR | 28.6% |
Blood | ELISA | 85.7% | ||
Burduk et al[58] | 30 | Nasal polyp | PCR | 100% |
Morinaka et al[59] | 11 | Nasal and maxillary sinus tissues | PCR | 18.2% |
Urease test | 27.3% | |||
Culture | 0% | |||
IHC | 63.6% | |||
Ozdek et al[60] | 12 | Ethmoid mucosa | PCR | 33.3% |
Koc et al[61] | 30 | Nasal polyp | IHC | 20% |
Blood | ELISA | 86.7% | ||
Kim et al[62] | 48 | Intranasal tissue | Urease test/IHC | 25% |
Jelavic et al[63] | 40 | Nasal polyp | IHC | 70% |
Ozcan et al[64] | 25 | Nasal polyp | Urease test | 4% |
IHC | 0% | |||
Blood | ELISA | 24% | ||
Dinis et al[71] | 15 | Sinonasal tissue | PCR | 19% |
Nemati et al[72] | 25 | Nasal polyp | PCR | 0% |
Culture | 0% | |||
Urease test | 0% |
Non-allergic rhinitis is also known as idiopathic, irritant-induced, and vasomotor rhinitis. Non-allergic rhinitis is a heterogeneous condition that has been classified in many ways. Because of the complexity of pathophysiological mechanisms in non-allergic rhinitis, this condition remains undefined and consensus regarding a management strategy has not been reached[48]. To the best of our knowledge, the relationship between non-allergic rhinitis and H. pylori and the role of H. pylori in acute rhinitis have never been investigated.
Chronic rhinosinusitis is defined as a persistent inflammatory response involving the mucous membranes of the nasal cavity and paranasal sinuses. It is usually diagnosed based on having at least two of the following characteristic symptoms: nasal congestion, facial pain/pressure, anterior or posterior nasal drainage, reduced or no sense of smell and persisting for > 12 wk, together with objective evidence of sinus disease determined by direct visualization or imaging[49-51].
H. pylori and the cagA gene have frequently been detected in nasal polyp specimens and the inflamed mucosa of the paranasal sinus in patients with chronic rhinosinusitis[52-58] (Table 1). H. pylori might play a positive role in chronic rhinosinusitis[59,60]. The prevalence of sinonasal H. pylori is higher in patients with, than without chronic rhinosinusitis[61,62]. Recent functional endoscopic sinus surgery for patients with chronic rhinosinusitis revealed that postoperative endoscopic scores improved significantly more among patients with chronic rhinosinusitis and H. pylori sinonasal colonization[63].
Contradictory opinions regarding the role of H. pylori in chronic rhinosinusitis have also been published. Ozcan et al[64] reported that infection with H. pylori is only transient, and that such infection could not possibly be an etiological factor for nasal polyposis. Furthermore, Lund-MacKay computed tomography and symptom scores did not indicate a significant correlation between intranasal H. pylori colonization and the preoperative severity of chronic rhinosinusitis[62].
Gastro-esophageal reflux might play a role in the pathogenesis of chronic rhinosinusitis[65-70]. Although pepsin/pepsinogen has been detected in sinonasal samples[71], others did not find a significant association between H. pylori in nasal polyps and nasal polyposis in patients without signs or symptoms of GERD[72]. These findings suggest that gastric juice infected with H. pylori and not H. pylori itself is involved in the development of chronic rhinosinusitis.
Chronic as well as allergic fungal rhinosinusitis can exist with or without nasal polyps, and sinusitis also includes acute rhinosinusitis[49,50]. Further studies are needed to identify the roles of H. pylori in the etiology of each subtype of sinusitis.
Adenoiditis is acute or chronic inflammation of the pharyngeal tonsils (adenoids). Adenoid hypertrophy, also termed adenoid hyperplasia or enlarged adenoids, is the unusual, non-tumorous, growth of the adenoid tissue.
Early studies used the rapid urease test (also known as the campylobacter-like organism test; CLO test) to detect H. pylori in adenoid tissues[73,74] (Table 2). Recent studies have applied the polymerase chain reaction (PCR) to detect H. pylori in adeno-tonsillar tissue specimens[75-77]. Exposure to an unsuitable environment can induce this organism to enter a viable but non-culturable state and to persist in the environment until it enters a suitable host[78,79]. Because of the characteristics, culturing the H. pylori organism from the samples of upper respiratory tract can be difficult, and thus can have low sensitivity[80]. A comparison of the sensitivity and specificity of the rapid urease test, PCR and blood serology to detect H. pylori in the adenotonsillar tissue of symptomatic children with chronic adenotonsillitis found that PCR is the most reliable method of detecting H. pylori infection[80].
Ref. | Patients(n) | Samples | Methods | Positive results |
Unver et al[73] | 12 | Adenoid tissue | Urease test | 25% |
Khademi et al[74] | 56 | Adenotonsillar tissue | Urease test | 48% |
Farhadi et al[75] | 40 | Adenoid tissue | PCR | 15% |
Blood | ELISA (IgG) | 20% | ||
ELISA (IgA) | 17.5% | |||
Eyigor et al[76] | 47 | Adenotonsillar tissue | Urease test | 5.5% |
PCR | 0% | |||
Cirak et al[77] | 10 | Adenoid tissue | PCR | 30% |
Abdel-Monem et al[80] | 10 | Adenoid tissue | Urease test | 40% |
PCR | 20% | |||
Blood | ELISA | 20% | ||
Bulut et al[81] | 71 | Adenotonsillar tissue | Urease test | 13.6% |
PCR | 24.6% | |||
Vilarinho et al[82] | 55 | Adenoid tissue | Urease test | 3.6% |
IHC | 0% | |||
FISH | 0% | |||
PCR | 0% | |||
Hussey et al[83] | 78 | Adenoid tissue | PCR | 0% |
Histology | 0% | |||
Vayisoglu et al[84] | 60 | Adenoid tissue | Urease test | 3.3% |
IHC | 3.3% | |||
Blood | ELISA (IgG) | 13.3% | ||
ELISA (IgA) | 3.3% | |||
Bitar et al[85] | 25 | Adenoid tissue | Urease test | 84% |
Histology | 16% | |||
PCR | 0% | |||
Bitar et al[86] | 18 | Adenoid tissue | Urease test | 72.2% |
PCR | 0% | |||
Pitkäranta et al[87] | 20 | Adenoid tissue | Culture | 0% |
Fecal samples | ELISA | 20% | ||
Toros et al[88] | 84 | Adenoid tissue | Urease test | 0% |
Histology | 0% | |||
Ozcan et al[89] | 19 | Adenoid tissue | Urease test | 0% |
IHC | 0% | |||
Fancy et al[90] | 45 | Adenoid tissue | PCR | 22.2% |
Yilmaz et al[91] | 42 | Adenoid tissue | Culture | 28.6% |
PCR | 47.6% | |||
Yilmaz et al[92] | 38 | Adenoid tissue | PCR | 2.6% |
Agirdir et al[93] | 30 | Adenoid tissue | Urease test | 33.3% |
Park et al[96] | 62 | Adenoid tissue | PCR | 14.5% |
Several studies have detected H. pylori in adenoids and considered that the adenoids might serve as an ecological niche and as an extra-gastric reservoir for H. pylori[73-77,80,81]. However, contradictory opinions have also been expressed[82-84]. An analysis of 78 pediatric patients concluded that adenoid inflammation and enlargement are probably not due to ongoing H. pylori infection[83]. In addition, some authors reported that H. pylori has a limited (if any) role in the process of adenoid disease[85-90]. The pathophysiological role of H. pylori in adenoid tissue remains controversial and a definitive relationship between H. pylori and adenoid disease has not been established.
Adenoiditis and adenoid hyperplasia are related to otitis media. We searched the English literature and found 11 original research studies of human samples and one systemic review describing the relationship between H. pylori and otitis media with effusion[86,87,89-98] (Table 3). In addition, two clinical studies investigated H. pylori in patients with chronic otitis media, and two studies examined the role of H. pylori in experimental animal models of otitis media[99-102].
Ref. | Patients(n) | Samples | Methods | Positive results |
Bitar et al[86] | 28 | Middle ear fluid | Culture | 0% |
Pitkäranta et al[87] | 20 | Middle ear fluid | Culture | 0% |
Ozcan et al[89] | 25 | Middle ear fluid | Urease test | 0% |
Blood | ELISA (IgG) | 32% | ||
ELISA (IgA) | 12% | |||
Fancy et al[90] | 45 | Middle ear fluid | PCR | 32% |
Yilmaz et al[91] | 22 | Middle ear fluid | Culture | 9% |
PCR | 31.8% | |||
Middle ear mucosa | Culture | 4.5% | ||
PCR | 27.3% | |||
Yilmaz et al[92] | 18 | Middle ear fluid | PCR | 66.7% |
Agirdir et al[93] | 45 | Middle ear fluid | Urease test | 66.6% |
Morinaka et al[94] | 15 | Middle ear fluid | Urease test | 20% |
IHC | 80% | |||
Karlidag et al[95] | 38 | Middle ear fluid | PCR | 16.3% |
Park et al[96] | 60 | Middle ear fluid | Urease test | 26.7% |
PCR | 33.3% | |||
Bai et al[97] | 60 | Middle ear fluid | PCR | 40% |
Culture | 11.7% | |||
Urease test | 11.7% | |||
Kutluhan et al[101] | 38 | Middle ear tissue | PCR | 7.9% |
Dagli et al[102] | 41 | Middle ear mucosa | Urease test | 53.6% |
H. pylori was detected in middle ear effusions in 8 of 11 clinical studies of otitis media with effusion[90-97]. On the other hand, cultures of middle ear fluid were all negative for H. pylori and CLO test results were also negative in another study of middle ear effusions[86,87,89]. Because H. pylori is difficult to detect in culture, its presence in middle ear effusions of some, but not all, patients with otitis media with effusion might be assumed. The next issue is whether H. pylori plays a role in the etiology of otitis media with effusion. Agirdir et al[93] collected middle ear effusions from 30 pediatric patients with otitis media with effusion, and washed the middle ears of 15 age-matched patients without middle ear effusion. They detected H. pylori in 20 (66.6%) patients with otitis media with effusion, but not in washes of the middle ears of patients without middle ear effusion according to the CLO. A PCR-based study of aspiration samples collected from 60 adult patients showed that 24 (40%) were H. pylori-positive[97]. These findings suggest that H. pylori could be responsible for the etiopathogenesis of otitis media with effusion. However, the relationship between H. pylori and otitis media with effusion remains controversial.
The CLO test and nested PCR of middle ear tissue samples found that 53.6% and 7.9%, respectively, of patients with chronic otitis media were positive for H. pylori[101,102]. The role of H. pylori in chronic otitis media is presently under investigation.
Live H. pylori or physiological saline was added to the middle ear cavities of New Zealand white rabbits with histamine-induced otitis media. A further injection of live H. pylori induced accelerated inflammation in the middle ear compared with animals that had been injected with histamine[99]. Another study found that the direct injection of protein extracted from whole cell sonicates of H. pylori (American Type Culture Collection) into the middle ear of mice induced the up-regulation of inflammatory cytokines (macrophage migration inhibitory factor, macrophage inflammatory protein 2, interleukin-1β and tumor necrosis factor-α), as well as the severe proliferation of inflammatory cells in middle ear epithelium[100]. These findings suggest that H. pylori plays a role in the development of middle ear inflammation, even if the bacterium is not live.
Particularly among children, acute otitis media is a common disease that is most often caused by Streptococcus pneumoniae, nontypeable Haemophilus influenzae, and Moraxella catarrhalis[103]. We could not find any publications in the English literature describing the relationship between H. pylori infection and acute otitis media.
Numerous authors have reported the presence[104-109] or absence[110-114] of H. pylori in the oral cavity, especially in dental plaque, which is formed by colonizing bacteria attempting to attach to the smooth surface of teeth[115-121] (Table 4). The prevalence of gastric H. pylori infection was significantly higher among 443 dyspeptic patients with dental plaque that was positive, than negative for H. pylori[122].
Ref. | Patients(n) | Samples | Methods | Positive results |
Bernander et al[110] | 94 | Dental plaque | Culture | 0% |
Luman et al[113] | 120 | Saliva and dental plaque | Culture | 0% |
Chaudhry et al[118] | 89 | Dental plaque | PCR | 51.6% |
Butt et al[119] | 178 | Dental plaque | Urease test | 100% |
Sudhakar et al[121] | 50 | Dental plaque | Culture | 10% |
Urease test | 70% | |||
Assumpção et al[126] | 99 | Dental plaque | PCR | 72% |
93 | Urease test | 52% | ||
Gao et al[127] | 96 | Dental plaque | PCR | 82.3% |
Fernández-Tilapa et al[143] | 200 | Saliva and dental plaque | PCR | 17% |
Blood | ELISA | 62% | ||
Eskandari et al[144] | 67 | Dental plaque | PCR | 5.9% |
Karczewska et al[145] | 329 | Gingival pocket material | Culture | 50% |
PCR | 35% | |||
Oshowo et al[150] | 208 | Dental plaque | PCR | 7.2% |
Culture | 0.9% | |||
Tongue scraping | PCR | 0% | ||
Culture | 0% | |||
Gall-Troselj et al[174] | 268 | Tongue mucosa | PCR | 16% |
Suzuki et al[177] | 326 | Saliva | PCR | 6.2% |
H. pylori usually spreads via the fecal-oral route, and possibly by the oral-oral route and the spread of contaminated secretions[31,79,123-125]. An investigation of H. pylori genotypes in saliva, dental plaques, stools and gastric biopsy samples from 300 patients found that the fecal-oral route was the main method of H. pylori transmission. Furthermore, the oral cavity might serve as a reservoir for H. pylori because the genotypes of H. pylori isolates from saliva, stomach and stool are similar[126-129]. Debate continues regarding whether or not the oral cavity is the major reservoir of H. pylori for gastric re-infection[130-139]. Although some investigators have reported that the oral cavity is the reservoir for H. pylori[140-151], insufficient evidence supports the notion that dental treatment can prevent recurrent gastric H. pylori infection[152].
Aphthous stomatitis is the most common oral mucosal disease that causes small ulcers in the mouth, usually inside the lips, on the cheeks, or on the tongue and H. pylori might be an important factor in the recurrence of this condition[153-158]. However, conflicting findings have been reported[159-166]. A study of 36 consecutive patients affected by minor and major forms of recurrent aphthous stomatitis and 48 healthy volunteers found that H. pylori is not involved in recurrent aphthous stomatitis[167]. A recent systematic review has also shown that the pathogenesis of recurrent aphthous stomatitis and H. pylori are not associated[168].
A relationship with H. pylori has been investigated among various oral disorders including periodontal disease[169-173], glossitis, burning mouth syndrome[174], halitosis[175-177], Behçet’s syndrome[178], lichen planus[179,180], and taste perception[181]. Combining periodontal with systemic therapy might be a promising approach to improving therapeutic effects and decreasing the risk of recurrent gastric infection[182]. However, an association between H. pylori and various periodontal disorders has not been established.
H. pylori might comprise part of the normal oral microflora[105]. H. pylori in dental plaque might not be associated with brushing frequency and oral health status and one study of 161 patients concluded that H. pylori is not pathogenic in the oral cavity[183-185].
In conclusion, whether or not H. pylori in the oral cavity plays a pathogenic role remains debatable. Nonetheless, dentists and dental professionals are at increased risk of exposure to H. pylori through contact with the oral cavities of infected patients[186,187].
Chronic tonsillitis is a common condition characterized by persistent inflammation of the palatine tonsils, and bacterial infection is usually the cause. Idiopathic tonsillar hypertrophy presents without a history of infection and sometimes leads to obstructive sleep apnea and dysphagia.
H. pylori is detectable in tonsillar tissues and viable H. pylori can colonize these tissues[188-193] (Table 5). In addition, H. pylori has been identified in both tonsillar surface and core tissues[194,195]. A histopathological assessment of tonsillar tissues found that 130 (39.6%) of 285 children were positive for H. pylori and that the rapid urease test was not sensitive enough as a diagnostic tool[191]. A single method alone might not be sufficiently reliable to detect H. pylori in the tonsils, and thus, a combination of diagnostic methods could be recommended[196].
Ref. | Patients(n) | Samples | Methods | Positive results |
Unver et al[73] | 16 | Tonsillar tissue | Urease test | 62.5% |
Cirak et al[77] | 22 | Tonsillar tissue | PCR | 18.2% |
Abdel-Monem et al[80] | 20 | Tonsillar tissue | Urease test | 60% |
PCR | 15% | |||
Blood | ELISA | 20% | ||
Najafipour et al[188] | 103 | Tonsillar tissue | Urease test | 48.5% |
PCR | 19.4% | |||
Farivar et al[189] | 103 | Tonsillar tissue | PCR | 21.4% |
Histology | 18.4% | |||
Jabbari Moghaddam et al[191] | 285 | Tonsillar tissue | Histology | 39.6% |
Urease test | 14.0% | |||
Blood | ELISA | 5.2% | ||
Wibawa et al [192] | 19 | Tonsillar tissue | Culture | 15.7% |
Nártová et al[193] | 89 | Tonsillar tissue | PCR | 80.9% |
Khademi et al[194] | 55 | Adenotonsillar tissue | Urease test | 82% |
Aslan et al[195] | 52 | Tonsil core tissue | Urease test | 47% |
Mucosal tissue | Urease test | 42% | ||
Tonsillar tissue | Histology | 0% | ||
Lin et al[197] | 94 | Tonsillar tissue | Urease test | 35% |
Kusano et al[201] | 173 | Tonsillar tissue | IHC | 72.8% |
Kusano et al[202] | 55 | Tonsillar tissue | IHC | 78.2% |
Yilmaz et al[203] | 50 | Blood | ELISA | 56% |
Stool | ELISA | 50% | ||
Tonsillar tissue | Urease test | 0% | ||
Skinner et al[204] | 50 | Blood | ELISA | 28% |
Tonsillar tissue | Urease test | 0% | ||
Jelavic et al[205] | 77 | Blood | ELISA | 79% |
Tonsillar tissue | Urease test | 12% | ||
di Bonaventura et al[206] | 72 | Tonsillar swab | Culture | 0% |
IHC | 0% | |||
Di Bonaventura et al[207] | 72 | Tonsillar tissue | PCR | 0% |
The rate of H. pylori infection was significantly higher in tonsillar tissues from a group of patients with tonsillitis compared with a group who had sleep-related breathing disorders (48% vs 24%)[197]. In contrast, another study found no significant difference between the incidence of H. pylori-positive tonsillar samples from patients with chronic tonsillitis and those with obstructive sleep apnea syndrome (80% vs 83%)[193]. Regardless, the high incidence of H. pylori infection in tonsil tissue indicates that tonsillectomy might impact gastric infection with this bacterium. A multiple regression analysis of confounding variables in patients with H. pylori gastric infection revealed that a history of tonsillectomy is associated with a decreased prevalence of gastric H. pylori[198]. In contrast, another report indicated that tonsillar tissue does not seem to be a reservoir for H. pylori infection and that tonsillectomy does not significantly affect gastric H. pylori eradication; however, the results might have been skewed by a relatively small sample size[199]. A comparison of genotypes between oropharyngeal and gastric H. pylori isolates from six patients revealed important differences within each individual[200]. Although the sample size was very small, these findings suggest that tonsils do not comprise a reservoir for gastric H. pylori infection, and that more than one H. pylori strain can exist in the oropharynx and stomach of the same patient.
Coccoid H. pylori isolated from the tonsillar tissues of patients with IgA nephropathy is one causative antigen of this disease[201,202]. A relationship between H. pylori and acute tonsillitis has not been reported.
Although a possible role for H. pylori residing in the tonsils has been indicated, other studies have not detected H. pylori in specimens of adenotonsillectomy, and have not found that tonsillar tissues constitute a reservoir for H. pylori infection[203-207]. The disparity might be due to a difference in sample populations and methodology.
Acute or chronic pharyngitis is defined as inflammation of the mucous membranes and submucosal tissues of the pharynx. The main symptom of pharyngitis is a sore throat. Several factors including nasal obstruction, chronic sinonasal infection, allergy, smoking, chronic periodontal infections, polluted air, industrial fumes, excessively hot or cold foods and alcohol consumption are associated with pharyngeal inflammation[208]. Gastroesophageal reflux is also considered an important factor in pharyngeal disorders[209,210], and H. pylori residing in the pharynx might play a role in the development of pharyngitis. Some studies have tested this hypothesis by examining an association between H. pylori and pharyngitis (Table 6).
Ref. | Patients(n) | Samples | Methods | Positive results |
Pharyngeal disease | ||||
Aladag et al[208] | 41 | Blood | ELISA | 78% |
Zhang et al[211] | 50 | Pharyngeal tissue | Histology | 38% |
Kaptan et al[212] | 70 | Pharyngeal tissue | PCR | 27.1% |
Culture | 5.8% | |||
Elsheikh et al[213] | 146 | Pharyngeal tissue | PCR | 32.9% |
Laryngeal disease | ||||
Ozyurt [52] | 27 | Laryngeal tissue | PCR | 58.6% |
Burduk et al[58] | 30 | Laryngeal tissue | PCR | 100% |
Cekin et al[215] | 43 | Laryngeal tissue | PCR | 55.8% |
Youssef et al[217] | 212 | Stool | ELISA | 57.5% |
Rubin et al[222] | 101 | Blood | ELISA | 54.5% |
Talaat et al[223] | 162 | Stool | ELISA | 86.4% |
Tiba M et al[224] | 14 | Laryngeal tissue | PCR | 71.4% |
IHC | 71.4% | |||
Borkowski et al[226] | 35 | Laryngeal tissue | Urease test | 17.1% |
Siupsinskiene et al[227] | 54 | Laryngeal tissue | Urease test | 37.0% |
Jaspersen et al[228] | 38 | Gastric tissue | Urease test | 36.8% |
Laryngeal swab | Culture | 0% |
A prospective study of 50 patients with chronic pharyngitis found that none of the control group had H. pylori in the pharynx, whereas 19 (38.0%) in the group with pharyngitis were H. pylori-positive in template-directed dye-terminator assays with fluorescence polarization detection[211]. One study of 70 patients with chronic pharyngitis and 20 healthy controls using PCR and cultures to detect H. pylori colonization in pharynx mucous membranes found that none of the controls had H. pylori in the pharynx and that chronic nonspecific pharyngitis without gastric H. pylori infection was significantly related to H. pylori colonization in the pharynx[212]. They concluded that chronic pharyngitis might be associated with H. pylori infection and that gastric involvement increases the rate of pharyngeal colonization by H. pylori.
Another study identified a possible relationship between the prevalence of H. pylori DNA and recurrent aphthous ulcerations in mucosa-associated lymphoid tissues of the pharynx[213]. Acute pharyngitis is usually caused by bacterial or viral infection. To the best of our knowledge, a causative role of H. pylori in acute pharyngitis has never been reported. The etiological role of H. pylori in pharyngeal diseases remains obscure. Further studies are needed to understand the pathogenic role of H. pylori in the pharynx.
The impact of gastric juice with low pH on laryngeal disorders has been reported[214]. Both laryngopharyngeal and gastroesophageal reflux might cause laryngopharyngeal symptoms, and laryngopharyngeal reflux has been identified in 50.4% (57/113) of patients with laryngeal and voice disorders[215-221]. Laryngopharyngeal reflux is involved in the pathogenesis of several laryngeal disorders, including chronic posterior laryngitis, vocal fold nodules, paroxysmal laryngospasm, Reinke’s edema, laryngeal true vocal fold ulcers and granuloma as well as globus sensation[216].
The larynx could be directly exposed to H. pylori as a result of pharyngolaryngeal reflux, and gastric H. pylori infection might be associated with disorders of the larynx[52,222] (Table 6). One study found more prevalent H. pylori infection among 162 patients who presented mainly with chronic, persistent cough of unidentifiable causes compared with controls and that the eradication of H. pylori significantly improved patient symptomatology[223]. Another study found that patients with minimal vocal fold lesions (vocal fold polyps and nodules, and posterior granulomas) were commonly positive for H. pylori and that its eradication should be considered when presented with such lesions[224]. A PCR study detected H. pylori DNA (ureA gene) in samples from all of 30 patients with benign larynx diseases (polyps and Reinke’s edema) and the H. pylori cagA gene was identified in 7 (23.3%) of them[58].
Laryngitis is inflammation of the larynx due to various factors[225]. Some clinical studies have shown a possible role for H. pylori in the etiology of chronic laryngitis[226,227]. The positive rates of H. pylori in laryngeal samples from patients with vocal cord polyps and laryngitis were significantly higher than the rate in control samples (32.0% and 45.5% vs 9.1%)[227]. In contrast, others have found no evidence to support the notion that H. pylori is associated with laryngitis and rather suggested that acid reflux was the underlying etiology[228].
Presumably H. pylori is detectable in some laryngeal diseases. However, whether H. pylori plays an etiological role in the larynx has not been established due to the paucity and reliability of published studies.
H. pylori infection causes chronic gastritis and peptic ulceration and it is the strongest risk factor for the development of gastric and colorectal cancers[8,9]. H. pylori might also be related to other cancers. Some epidemiological studies have shown that the odds ratios (estimated relative risks) of lung cancer with H. pylori infection range from 1.24 to 17.78 compared with controls, suggesting an increased risk of lung cancer in populations exposed to H. pylori infection, although a causal relationship between H. pylori and lung cancer has not been confirmed[229]. However, evidence regarding the role of H. pylori infection in gastrointestinal carcinogenesis suggests a relationship between H. pylori and malignancies of the head and neck[227].
Several investigators have identified H. pylori in patients with head and neck malignancies[230-232] (Table 7). Inflammation induced by H. pylori would cause epithelial cell proliferation that could develop into laryngeal cancer[233]. A pilot study uncovered a possible association between H. pylori and an increased risk of oral cancer, and another study detected H. pylori antibodies in serum samples from 34 (64.2%) of 53 patients with head and neck squamous cell carcinoma (larynx, hypopharynx, tongue, tonsil, nasopharynx, and tongue base/vallecula)[234,235]. Multivariate regression analyses in two case control studies identified H. pylori infection as an independent risk factor for laryngohypopharyngeal carcinoma[236,237]. A recent study of a large patient cohort associated immunohistochemically detected H. pylori expression in oral squamous cell carcinoma with reduced disease-free survival[238].
Ref. | Patients(n) | Samples | Methods | Positive results |
Siupsinskiene et al[227] | 13 | Laryngeal tissue | Urease test | 46.2% |
Shi et al[230] | 59 | Laryngeal tissue | PCR | 76.3% |
Aygenc et al[231] | 26 | Blood | ELISA | 73.1% |
Okuda et al[232] | 58 | Oral swab | PCR | 100% |
Burduk[233] | 80 | Laryngeal tissue | Urease test | 62.5% |
Dayama et al[234] | 20 | Oral tissue | Culture | 15% |
PCR | 15% | |||
Rubin et al[235] | 53 | Blood | ELISA | 64.2% |
Rezaii et al[236] | 98 | Blood | ELISA | 93.9% |
Gong et al[237] | 81 | Laryngeal tissue | PCR | 71.6% |
Blood | ELISA | 77.8% | ||
Grimm [238] | 191 | Oral tissue | IHC | 21.5% |
Kizilay et al[241] | 69 | Laryngeal tissue | Histology | 0% |
Akbayir et al[242] | 50 | Laryngeal tissue | IHC | 0% |
Pirzadeh et al[243] | 65 | Laryngeal tissue | Urease test | 0% |
Histology | 0% | |||
Kanda et al[244] | 31 | Laryngeal tissue | PCR | 0% |
Culture | 0% | |||
IHC | 0% | |||
Urine | ELISA | 67.7% | ||
Grandis et al[245] | 21 | Blood | ELISA | 57% |
Nurgalieva et al[246] | 119 | Blood | ELISA | 32.8% |
Lukeš et al[248] | 11 | Oropharyngeal lymphoid tissue | Culture | 9.1% |
23 | Oropharyngeal lymphoid tissue | PCR | 73.9% | |
41 | Blood | ELISA | 78.1% | |
Pavlík et al[249] | 3 | Blood | ELISA | 0% |
Tonsillar tissue | PCR | 100% |
In contrast, others have not found H. pylori in head and neck cancers or in laryngeal carcinoma samples[239-243]. PCR, culture and immunohistochemical methods did not detect H. pylori in head and neck tumor tissues from 31 patients, even though 21 of them carried anti-H. pylori antibodies[244]. A statistically significant difference in the incidence of H. pylori seropositivity between patients with head and neck cancer and controls has not yet been reported and others have shown that H. pylori infection either protects against or promotes laryngopharyngeal carcinoma[245,246].
The presence of H. pylori in head and neck tumor tissues and/or the stomach of patients with head and neck malignancies might be widespread; however, more information is required about H. pylori activities in patients with head and neck carcinogenesis[247-249].
Epidemiological studies have shown that the prevalence of carrying H. pylori ranges from 10%-20% to 80%-90% in developed and developing countries, respectively, and most carriers are asymptomatic[250,251]. The findings of published studies on the impact of H. pylori on the upper respiratory tract are inconsistent. Whether or not H. pylori is located in the upper respiratory tract and whether or not it plays a role in the pathogenesis of upper respiratory tract diseases remain unresolved. The risks and benefits of H. pylori and its role in upper respiratory disorders including cancer require urgent assessment.
P- Reviewers: Lee YY, Ozturk Y S- Editor: Zhai HH L- Editor: A E- Editor: Wang CH
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