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Oral Dysfunction in Patients With Head and Neck Cancer: A Systematic Review

Source:

The Journal of Nursing Research

December 2019, Volume :27 Number 6 , page e58 - e58 [Free]

Keywords

head and neck cancer, oral dysfunction, systematic review

 

Authors

  1. CHEN, Shu-Ching

ABSTRACT

Background: Head and neck cancers (HNCs) and their treatment may cause oral function impairment.

 

Purpose: This study was designed to identify oral dysfunction in patients receiving treatment for HNCs using a systematic review.

 

Methods: The PubMed, Embase, and CINAHL databases were searched for studies on oral function impairment in patients receiving treatment for HNCs published between January 2014 and May 2019. Only descriptive, correlational, and interventional quantitative studies that included patients receiving treatment for HNCs who presented with oral dysfunction, were published in English during the aforementioned time frame, and were accessible in full-text versions were selected.

 

Results: Twenty-eight studies (13 cross-sectional, two longitudinal, 12 randomized controlled trial, and one retrospective chart review) fulfilled the inclusion criteria. Oral mucositis, dysphagia, xerostomia, trismus, and chewing and speech problems were the most common oral dysfunctions. Age, cancer stage, tumor location, treatment modalities, treatment status, treatment dose, and pretreatment oral function were factors associated with oral dysfunction. Although individual interventions were shown to improve oral dysfunction, the related evidence was inconclusive.

 

Conclusions/Implications for Practice: Primary HNCs and their treatment significantly deteriorate oral function. A holistic and interdisciplinary approach may maximize oral function.

 

Article Content

Introduction

Head and neck cancers (HNCs) are one of the most common cancers globally, accounting for 500,000 new cases diagnosed and more than 380,000 deaths annually (Bray et al., 2018). In Taiwan, approximately 6,000 new cases of HNC are diagnosed each year (Taiwan Cancer Registry, 2019). More than 50% of all HNCs present at an advanced stage at initial diagnosis (Bray et al., 2018). Radical resection plus reconstruction combined radiotherapy (RT) or concurrent chemoradiation therapy (CCRT) are the major treatment modes used to treat advanced-stage HNCs (National Comprehensive Cancer Network, 2018). However, surgical resection may change the anatomy of the oral cavity, and postoperative RT or CCRT induces oral mucous membrane lesions in the oral cavity and oropharyngeal region, leading to varying levels of oral dysfunction such as oral mucositis (OM), dysphagia (difficulty swallowing), xerostomia, trismus, and communication dysfunction during and after treatment (Lalla et al., 2017; Tolentino Ede et al., 2011). These dysfunctions may threaten oral intake and eventually lead to malnutrition, frailty, dependence, and cachexia, which increase recurrence rates and reduce survival rates (Buntzel, Micke, Kisters, Buntzel, & Mucke, 2019; Crowder, Douglas, Yanina Pepino, Sarma, & Arthur, 2018).

 

Studies have investigated the effects of interventions on relieving the levels of oral dysfunction. Many types of interventions may be applied to manage an individual's symptom. These interventions include the use of thyme honey (Charalambous et al., 2017, 2018; Hawley, Hovan, McGahan, & Saunders, 2014), swallowing exercises (Chen, Huang, Chung, et al., 2018; Lazarus et al., 2014; Messing et al., 2017), dental care (Funk, Warmling, & Baldisserotto, 2014), mouth rinsing (Huang et al., 2018), mouth-opening exercises (Loorents et al., 2014; Pauli, Andrell, Johansson, Fagerberg-Mohlin, & Finizia, 2015; Zatarain et al., 2018), psychosocial interventions (van der Meulen et al., 2014), and voice rehabilitation training (Zhang, Mu, Chen, Zhang, & Feng, 2018). Although interventions appear to affect oral dysfunction positively and to alleviate related symptoms, the evidence for these effects remains inconclusive. In this systematic review, we aimed to identify (a) oral dysfunction in patients with HNCs and (b) gaps and future directions for research and practice.

 

Methods

Search Strategy

We conducted an electronic search of the PubMed, Embase, and CINAHL databases using the following terms: "head and neck cancer" ("head and neck neoplasms" OR "oropharyngeal neoplasms" OR "oral cavity neoplasms") AND "oral dysfunction" (OR "oral function impairment" OR "oral hypofunction") OR "health-related quality of life" (OR "dysphagia" OR "swallowing" OR "difficulty chewing" OR "oral mucositis" OR "trismus," OR "difficulty opening mouth" OR "xerostomia" OR "dry mouth" OR "speech" OR "communication dysfunction" OR "taste changes" OR "taste dysfunction").

 

Inclusion and Exclusion Criteria

Studies were included if they (a) were published in an English peer-reviewed journal between January 2014 and May 2019; (b) included adult patients with HNCs; (c) specifically identified concepts of health-related quality of life (HRQoL) related to oral dysfunction such as dysphagia, difficulty swallowing, difficulty chewing, OM, trismus, speech, and communication dysfunctions; and (d) used a quantitative design. Studies were excluded if they (a) were summary reports, literature reviews, systematic reviews, letters, or case reports; (b) included patients who were diagnosed with HNCs combined with other cancer types; (c) included adolescent or younger patients; (d) focused on pain not specific to oral dysfunction or investigated generic and disease-specific HRQoL (i.e., physical, emotional, social, cognitive, or social); and (e) included interventions that were not led by nurses or other healthcare professionals (e.g., physician, speech-language pathologist, and physical therapist), used an invasive medical intervention (e.g., acupuncture) or medicines, or were designed as RT dose and modality trials.

 

Data Extraction

The methodological and outcome variables collected from each of the included studies were as follows: author, publication year, sample, main results, and oral function impact symptoms.

 

Results

Study Selection

The Preferred Reporting Items for Systematic Reviews and Meta-Analyses flowchart in Figure 1 presents the stages of the review process, including study identification, inclusion, and exclusion. A search of PubMed, Embase, and CINAHL yielded 487 studies. After duplicates were removed and titles and abstracts were screened, 58 full-text studies were assessed. Of these, 28 fulfilled the inclusion criteria. Of the 30 excluded studies, one investigated HNCs combined with breast cancer, 16 included interventions provided by healthcare professionals other than the aforementioned ones, five applied invasive medical interventions (acupuncture), one was a trial for RT dose and modalities, and seven did not fulfill the oral dysfunction criterion of HRQoL.

  
Figure 1 - Click to enlarge in new windowFigure 1. Preferred Reporting Items for Systematic Reviews and Meta-Analyses flowchart.

Characteristics of the Selected Studies

The characteristics of the 28 selected studies are summarized in Table 1. The mean participant age range, determined at the time of diagnosis, was 51.13-66.5 years. In terms of research design, 13 were cross-sectional (Study nos. 1, 4, 5, 8, 9, 11, 14-16, and 22-25), two were longitudinal (Study nos. 7 and 20), 12 were randomized controlled trial (Study nos. 2, 3, 6, 10, 12, 13, 17-19, 21, 26, and 27), and one was a retrospective chart review (Study no. 28).

  
Table 1 - Click to enlarge in new windowTABLE 1. Summary of Studies on Oral Dysfunction in Patients With HNCs

The included studies were conducted in 12 countries: six in Taiwan (Study nos. 4-8 and 13), six in the United States (Study nos. 15, 17, 19, 22, and 27), two in Japan (Study nos. 16 and 20), two in Brazil (Study nos. 14 and 24), two in the Netherlands (Study nos. 25 and 26), two in Turkey (Study nos. 2 and 3), two in Sweden (Study nos. 18 and 21), one in France (Study no. 1), one in Norway (Study no. 11), one in Canada (Study no. 12), one in Switzerland (Study no. 23), and one in China (Study no. 28).

 

Across all studies, oral dysfunction was assessed at various time points: from pretreatment to posttreatment (surgery, RT, or CCRT; Study nos. 7, 10, and 20), undergoing treatment (RT or CCRT; Study nos. 11-14, 17-19, 22, and 24), during treatment to posttreatment (RT; Study nos. 2, 3, and 27), and posttreatment (surgery, RT, or CCRT; Study nos. 1, 5, 6, 8, 9, 15, 16, 23, 25, 26, and 28).

 

Oral Dysfunction Outcomes

Overall, patients experienced vital oral functional impairments as a result of surgery, RT, or CCRT because of their treatment of HNC. In this review, six of the studies found OM as the most common acute side effect of RT or CCRT (Study nos. 3, 7, and 10-13). Dysphagia (i.e., swallowing impairment) was the most common problem during treatment, with this problem persisting through posttreatment (Study nos. 5, 6, 9, 14-17, 19, 20, 22, 23, and 26). Other oral dysfunctions included xerostomia (Study nos. 2, 4, 14, 17, and 22), trismus (restricted mouth opening; Study nos. 4, 18, 21, and 25-27), difficulty chewing (teeth or gum problems; Study nos. 11, 14, 15, and 20), and speech problems (Study nos. 1, 8, 14, 23, 24, and 28).

 

Oral Mucositis

OM was assessed in six of the studies. Chen, Lai, et al. (2015) revealed that patients reported the highest prevalence of OM at 5 weeks after beginning RT and 6 weeks after beginning CCRT; patients who received CCRT reported a higher prevalence than those receiving RT alone. The peak of OM-related symptoms was at 8 weeks after beginning RT and CCRT. High cumulative radiation dose, smoking, and low body mass index were associated with an increased OM risk. CCRT, high cumulative radiation dose, and smoking were also associated with greater numbers of OM-related symptoms. Gussgard, (2015) observed that patients with HNC who received RT or CCRT experienced OM and its impacts when eating hard foods. Hawley et al. (2014) investigated patients with HNCs undergoing RT or CCT who received honey oral rinses and reported no improvement in OM. Charalambous et al. (2018) investigated patients with HNCs and demonstrated that thyme honey mouth rinsing alleviated radiation-induced OM. Funk et al. (2014) observed that patients with HNCs who underwent a dental care program showed candidiasis and OM alleviation. Huang et al. (2018) showed that patients with oral cavity cancer (OCC) who received saline oral rinses had better physical and socioemotional quality of life (QoL) compared with the standard care group at 8 weeks. Taken together, radiation therapy may cause OM, which may impact on eating and nutritional intake and may be improved through appropriate oral care regimens.

 

Dysphagia (Difficulty Swallowing)

Dysphagia was assessed in 13 of the studies. Chen, Huang, Hung, et al. (2018) surveyed 151 patients with OCC and classified 7.3% (n = 11) with dysphagia. The most common swallowing impairments were as follows: difficulty swallowing dry or hard food and swallowing problems interfering with QoL. Patients with tumors of the tongue had worse functional dysphagia QoL than those with cancers in other locations. Chen, Huang, Chung, et al. (2018) observed that following the swallowing exercise education program effectively improved dysphagia-related emotional QoL during the initial 6 months of treatment in patients with OCC. Dixon et al. (2018) observed that poorer performance status, abnormal pretreatment diet, and enteral feeding during RT were all significantly associated with lower composite and dysphagia in oropharyngeal cancer after CCRT within 2 years. Iriya et al. (2017) surveyed 57 patients with HNCs and observed that oral function did not differ significantly by tumor location. Kamal et al. (2019) surveyed 152 patients with HNCs and observed that 67% of the survivors reported a restricted oral diet (without tube use), 3% had partial tube dependence for some oral intake, and 2% could consume nothing through their mouths (or nothing per oral).

 

Symptom severity for difficulty swallowing and tooth and gum problems remained significantly associated with functional oral intake. Kamiyanagi et al. (2018) observed that patients with HNCs who had undergone maxillectomy and were wearing the prosthesis had better swallowing ability during the oral stage than their healthy peers. Lazarus et al. (2014) studied patients with oral and oropharyngeal cancer undergoing RT or CCRT and showed that patients who participated in their swallowing exercise program reported no improvements in tongue strength and swallowing efficiency after the program. Messing et al. (2017) included patients with advanced HNCs who participated in prophylactic swallowing therapy with active exercises and reported oromotor functions, pharyngeal impairments, oral pharyngeal swallow efficiencies, and incisal opening at early time points (i.e., 3-6 months). Ohkoshi et al. (2018) surveyed 52 patients with oral cancer and observed that patients treated with anterior or extensive mandibular bone resection reported swallowing problems and had poor intake at 3 months after surgery. Kamiyanagi et al. (2018) observed that patients with HNCs who received maxillectomy and who wore the prosthesis had better swallowing ability during the oral stage than their healthy peers. Rogus-Pulia et al. (2016) observed that patients with HNCs undergoing CCRT reported significantly lower tongue endurance than reported by healthy people. Romer et al. (2019) identified an impact on postsurgery swallowing function in patients with early-stage OCC who underwent resection. van der Meulen et al. (2014) showed that patients with HNCs who participated in a nurse-led psychosocial program had better swallowing ability 12 months after the intervention. Patients with HNC may experience dysphagia because of tumor location, treatment modalities, or intervention participation.

 

Trismus

Trismus was assessed in six studies. In their cross-sectional study of 110 nasopharyngeal carcinoma survivors, Chen et al. (2016) showed that the severity of trismus may be greater after receiving two-dimensional RT than after receiving tomotherapy or intensity-modulated radiation therapy (IMRT). van der Geer et al. (2019) reported that 23.6% of their patients with HNCs experienced trismus after treatment. Zatarain et al. (2018) also reported that using a Jaw Dynasplint for 30 minutes, three times a day, during primary or adjuvant RT in patients with HNC is unfeasible as a preventative intervention for trismus. Loorents et al. (2014) observed that patients with HNCs receiving prophylactic training showed no improvement in maximum interincisal openings either during treatment or in the posttreatment period. Similar findings were noted by Pauli et al. (2015). van der Meulen et al. (2014) showed that patients with HNCs who participated in a nurse-led psychosocial program had a lower level of trismus 12 months after their intervention. In summary, radiation therapy causes inflammation and fibrosis of muscles, which may lead to trismus during treatment as well as for an indefinite period afterward.

 

Xerostomia

Xerostomia was assessed in five studies. Chen et al. (2016) observed that, in 3 months to 5 years of treatment, patients with nasopharyngeal carcinoma who received two-dimensional RT had significantly more severe trismus and xerostomia than did those who received tomotherapy and IMRT. Lazarus et al. (2014) investigated oral and oropharyngeal cancer treated with RT or CCRT and showed that patients who participated in a swallowing exercise program reported no improvement in tongue strength, swallow efficiency, or salivary flow after the training. Rogus-Pulia et al. (2016) showed that patients with HNCs who received CCRT experienced lower tongue endurance and decreased salivary flow rate during the posttreatment period. Charalambous et al. (2017) included patients with HNCs and showed that thyme honey mouth rinsing during RT improved RT-related xerostomia through 6 months posttreatment. In summary, modern RT techniques, including tomotherapy and IMRT and greater protection of salivary glands from RT, offer complementary and alternative palliative treatments for dry mouth.

 

Difficulty Chewing

Chewing was assessed in four of the studies. Gussgard et al. (2015) observed that patients with HNCs who received RT or CCRT had oral mucosal ulceration and thus had impaired abilities to consume hard foods. Iriya et al. (2017) showed that chewing was not correlated with tumor location. Kamal et al. (2019) observed that HNC survivors had gum problems and that 67% of the survivors reported a restricted oral diet (without tube), 3% had partial tube dependence for some oral intake, and 2% were nothing per oral. Ohkoshi et al. (2018) included patients with oral cancer who received anterior or extensive mandibular bone resection and reported poor oral intake at 3 months after surgery. Thus, patients with HNC experience difficulty chewing and distress caused by radiation therapy, oral mucosal lesions, and gum or mandible resection.

 

Speech Problems

Speech problems were assessed in six of the studies. Balaguer et al. (2019) observed that surgery causes the significant morphological modification of the oral cavity or oropharyngeal structures and thus affects speech. Chen, Yu, et al. (2015) reported that 70.8% of their patients reported a decrease in the amount of time they spoke after surgery compared with before surgery. Patients with higher body-image-related stress, greater symptom severity, and hypopharyngeal or laryngeal cancer reported speaking less after their surgery. Iriya et al. (2017) observed that, in patients with HNCs who had undergone a maxillectomy, oral function did not significantly differ based on tumor location. Romer et al. (2019) showed that patients who had received neck dissections and who were older in age experienced significantly greater impairments in speech. Rosa et al. (2018) revealed that chemoradiotherapy treatment had a greater effect on the voice than on swallowing. Zhang et al. (2018) observed that voice rehabilitation training may not improve post-RT vocal quality in patients with laryngeal cancer and that oral function and psychosocial factors may contribute to speech problems.

 

Discussion

The Impact on Oral Function of Head and Neck Cancer and Related Treatments

Patients with HNCs experience oral dysfunction during active treatment and follow-up, with major oral cavity function impairments including OM, dysphagia, trismus, xerostomia, chewing, and speech problems. These findings are similar to those of Kirca and Kutluturkan (2017), who indicated that mouth sores, changes in the taste of food, difficulties in swallowing, and a loss of appetite are highly distressing problems during active treatment and peak at the end of treatment. Psychological problems (e.g., feeling vulnerable, feeling sad, and worrying) may co-occur with oral dysfunction. These findings may be attributable to differences in treatment status. Because the time since treatment completion varied across studies, some patients may have developed late or long-term side effects of surgery, RT, or CCRT. Additional studies exploring concurrent oral dysfunction and psychological concerns and comparing oral dysfunction among different stages of cancer treatment trajectories are warranted.

 

Factors Associated With Oral Dysfunction

Impairment in the oral function of patients with HNCs is often complicated by multiple oral dysfunctions. The results of this study are similar to those of Chiang, Ho, Wang, and Lin (2018), which reported that patients with HNCs who received postoperative RT reported symptom clusters including pain, dry mouth, lack of appetite, sleep disturbance, fatigue, drowsiness, distress, and sadness in Cluster 1 and nausea, vomiting, numbness, shortness of breath, and difficulty remembering in Cluster 2. As this review study was limited to individual problems, additional research will be necessary to understand multiple oral dysfunctions under a diverse set of influencing factors.

 

Some studies have related oral dysfunction to multiple treatment modalities, cancer stages (Kao, Peters, Krishnan, & Ooi, 2016), and tumor locations (Schache et al., 2009). The advanced tumor-node-metastasis stage and the use of adjuvant RT have also been identified as having negative effects on swallowing function (Kao et al., 2016). However, in this review study, evidence supporting that oral function did not differ by tumor location was limited. This inconsistency in the findings may be explained by differences in surgery types and in the use of flap reconstruction. Moreover, patient participation in and compliance with swallowing rehabilitation affects oral function. Although the relationship between disease treatment characteristics and personnel behavior influences the factors of oral function, this topic should be further explored in patients with HNC because of the controversial effect that was observed in the reviewed studies.

 

Interventions for Oral Dysfunction in Patients With Head and Neck Cancers

Three studies examined the effects of thyme honey mouth rinsing on oral dysfunction, including OM and xerostomia, in patients with HNCs, with the related evidence proving to be inconclusive (Charalambous et al., 2017, 2018; Hawley et al., 2014). Nonsignificant improvement was shown in one study (i.e., low, severe OM rate), probably because of participant selection bias. In addition, patients with severe OM had a high dropout rate. Therefore, samples should be identified before initiating an intervention.

 

Evidence regarding the effects of mouth-opening exercises on trismus was inconsistent (Scherpenhuizen, van Waes, Janssen, Van Cann, & Stegeman, 2015). The effects were not significant in comparison with usual care (Loorents et al., 2014; Pauli et al., 2015; Zatarain et al., 2018). This finding may be explained by the wide variety of intervention components, formats, time frames, and durations in the studies measuring this outcome. Therefore, the effects of mouth-opening exercises on trismus are uncertain and lack clinical validation across the studies. Patient motivations for complying with interventions should be considered when designing interventions.

 

Strengths and Limitations

This review is affected by several limitations. First, this review focused on the oral dysfunction of patients with HNCs without reviewing other literature on dysfunction as additional studies (e.g., neck or shoulder dysfunction). Further research should integrate the full range of functional impairments attributable to HNCs and their treatments. Second, most of the outcome measures were quantitative. Clinically meaningful, qualitative interviews were not considered. Patients perceive meaning, feeling, and thinking. Thus, qualitative studies are necessary to more completely identify the oral dysfunction concerns of these patients. Finally, the variations in the disease phase (e.g., undergoing treatment, short-term posttreatment, long-term posttreatment/survival phase) were attributable to differences in the oral dysfunction identification in individual studies. Additional reviews comparing the differences in oral dysfunction between patients undergoing treatment and completing treatment are warranted.

 

Implications for Practice

This review showed that oral dysfunction is a critical part of the oral-related QoL of patients with HNC. There are differences in oral dysfunction between tumor location and treatment modalities. Healthcare providers should actively assess oral function based on individual factors. Moreover, the review identified the commonly reported oral-dysfunction-related symptoms and related concern experiences of patients with HNCs during treatment and survivorship trajectories. Although the current evidence suggests that interventions play a key role in the way patients adjust to oral dysfunction, methodological issues limit the generalization of the results. Healthcare providers should encourage patients to express their oral dysfunction experiences and characteristics and guide patients to use the most effective strategies to minimize functional impairments.

 

Implications for Research

Findings from this review inform that oral dysfunction involves multiple aspects. There are currently no instruments that address multiple oral functions. Development and validation of an effective and brief screening tool is needed to quickly assess multiple oral dysfunctions in patients with HNC. Although previous studies have reported that the thyme honey mouth-rinsing intervention improves OM and xerostomia and that mouth-opening exercises improve trismus, further high-quality studies with considerations of confounding factors such as pretreatment oral function and compliance should be performed to identify the effects of interventions and of individual factors.

 

Conclusions

This systematic review provided an overview of the current knowledge concerning the associated factors and changes over time of oral dysfunction in patients with HNCs during the treatment and posttreatment phases. Overall, patients with HNCs reported oral dysfunction 3-4 weeks after the initiation of treatment and reported the highest level of oral dysfunction at the end of treatment. Oral dysfunction included a range of symptoms, including OM, mouth dryness, eating difficulties, swallowing difficulties, taste changes, and speech dysfunction. Patients with HNC may continue to struggle with these problems into survivorship, which diminishes long-term QoL. We also identified the associated factors of oral dysfunction, including age, cancer stage, tumor location, treatment modalities, treatment status, treatment dose, and pretreatment oral function. Individual interventions reduced the levels of single oral dysfunction in patients with HNCs during treatment and posttreatment. This complex and necessary oral dysfunction is common in patients with HNCs because of the primary disease and its treatment. Healthcare professionals and providers may use holistic and interdisciplinary approaches to maximize oral function.

 

References

 

Balaguer M., Boisguerin A., Galtier A., Gaillard N., Puech M., & Woisard V. (2019). Factors influencing intelligibility and severity of chronic speech disorders of patients treated for oral or oropharyngeal cancer. European Archives of Oto-Rhino-Laryngology, 276(6), 1767-1774. https://doi.org/10.1007/s00405-019-05397-6[Context Link]

 

Bray F., Ferlay J., Soerjomataram I., Siegel R. L., Torre L. A., & Jemal A. (2018). Global cancer statistics 2018: GLOBOCAN estimates of incidence and mortality worldwide for 36 cancers in 185 countries. CA: A Cancer Journal of Clinicians, 68(6), 394-424. https://doi.org/10.3322/caac.21492[Context Link]

 

Buntzel J., Micke O., Kisters K., Buntzel J., & Mucke R. (2019). Malnutrition and survival-Bioimpedance data in head neck cancer patients. In Vivo, 33(3), 979-982. https://doi.org/10.21873/invivo.11567[Context Link]

 

Charalambous A., Lambrinou E., Katodritis N., Vomvas D., Raftopoulos V., Georgiou M., [horizontal ellipsis] Charalambous M. (2017). The effectiveness of thyme honey for the management of treatment-induced xerostomia in head and neck cancer patients: A feasibility randomized control trial. European Journal of Oncology Nursing, 27, 1-8. https://doi.org/10.1016/j.ejon.2017.01.001[Context Link]

 

Charalambous M., Raftopoulos V., Paikousis L., Katodritis N., Lambrinou E., Vomvas D., [horizontal ellipsis] Charalambous A. (2018). The effect of the use of thyme honey in minimizing radiation-induced oral mucositis in head and neck cancer patients: A randomized controlled trial. European Journal of Oncology Nursing, 34, 89-97. https://doi.org/10.1016/j.ejon.2018.04.003[Context Link]

 

Chen S. C., Huang B. S., Chung C. Y., Lin C. Y., Fan K. H., Chang J. T., & Wu S. C. (2018). Effects of a swallowing exercise education program on dysphagia-specific health-related quality of life in oral cavity cancer patients posttreatment: A randomized controlled trial. Supportive Care in Cancer, 26(8), 2919-2928. https://doi.org/10.1007/s00520-018-4148-7[Context Link]

 

Chen S. C., Huang B. S., Hung T. M., Chang Y. L., Lin C. Y., Chung C. Y., [horizontal ellipsis] Wu S. C. (2018). Swallowing ability and its impact on dysphagia-specific health-related QOL in oral cavity cancer patients post-treatment. European Journal of Oncology Nursing, 36, 89-94. https://doi.org/10.1016/j.ejon.2018.07.002[Context Link]

 

Chen S. C., Lai Y. H., Huang B. S., Lin C. Y., Fan K. H., & Chang J. T. (2015). Changes and predictors of radiation-induced oral mucositis in patients with oral cavity cancer during active treatment. European Journal of Oncology Nursing, 19(3), 214-219. https://doi.org/10.1016/j.ejon.2014.12.001[Context Link]

 

Chen S. C., Yu P. J., Hong M. Y., Chen M. H., Chu P. Y., Chen Y. J., [horizontal ellipsis] Lai Y. H. (2015). Communication dysfunction, body image, and symptom severity in postoperative head and neck cancer patients: Factors associated with the amount of speaking after treatment. Supportive Care in Cancer, 23(8), 2375-2382. https://doi.org/10.1007/s00520-014-2587-3[Context Link]

 

Chen Y. J., Chen S. C., Wang C. P., Fang Y. Y., Lee Y. H., Lou P. J., [horizontal ellipsis] Lai Y. H. (2016). Trismus, xerostomia and nutrition status in nasopharyngeal carcinoma survivors treated with radiation. European Journal of Cancer Care, 25(3), 440-448. https://doi.org/10.1111/ecc.12270[Context Link]

 

Chiang S. H., Ho K. Y., Wang S. Y., & Lin C. C. (2018). Change in symptom clusters in head and neck cancer patients undergoing postoperative radiotherapy: A longitudinal study. European Journal of Oncology Nursing, 35, 62-66. https://doi.org/10.1016/j.ejon.2018.01.014[Context Link]

 

Crowder S. L., Douglas K. G., Yanina Pepino M., Sarma K. P., & Arthur A. E. (2018). Nutrition impact symptoms and associated outcomes in post-chemoradiotherapy head and neck cancer survivors: A systematic review. Journal of Cancer Survivorship, 12(4), 479-494. https://doi.org/10.1007/s11764-018-0687-7[Context Link]

 

Dixon L., Ramasamy S., Cardale K., Dyker K., Garcez K., Lee L. W., [horizontal ellipsis] Thomson D. (2018). Long term patient reported swallowing function following chemoradiotherapy for oropharyngeal carcinoma. Radiotherapy and Oncology, 128(3), 452-458. https://doi.org/10.1016/j.radonc.2018.06.014[Context Link]

 

Funk C. S., Warmling C. M., & Baldisserotto J. (2014). A randomized clinical trial to evaluate the impact of a dental care program in the quality of life of head and neck cancer patients. Clinical Oral Investigations, 18(4), 1213-1219. https://doi.org/10.1007/s00784-013-1068-2[Context Link]

 

Gussgard A. M., Jokstad A., Hope A. J., Wood R., & Tenenbaum H. (2015). Radiation-induced mucositis in patients with head and neck cancer: Should the signs or the symptoms be measured? Journal of Canadian Dental Association, 81, f11. [Context Link]

 

Hawley P., Hovan A., McGahan C. E., & Saunders D. (2014). A randomized placebo-controlled trial of manuka honey for radiation-induced oral mucositis. Supportive Care in Cancer, 22(3), 751-761. https://doi.org/10.1007/s00520-013-2031-0[Context Link]

 

Huang B. S., Wu S. C., Lin C. Y., Fan K. H., Chang J. T., & Chen S. C. (2018). The effectiveness of a saline mouth rinse regimen and education programme on radiation-induced oral mucositis and quality of life in oral cavity cancer patients: A randomised controlled trial. European Journal of Cancer Care, 27(2), e12819. https://doi.org/10.1111/ecc.12819[Context Link]

 

Iriya P. M. O., Romaniszen L. W., Fernandes T. M. F., & Poleti M. L. (2017). Health-related quality of life of patients with squamous cell carcinoma: A comparison according to tumor location. Brazilian Oral Research, 31, e105. https://doi.org/10.1590/1807-3107BOR-2017.vol31.0105[Context Link]

 

Kamal M., Barrow M. P., Lewin J. S., Estrella A., Gunn G. B., Shi Q., MD Anderson Head and Neck Cancer Symptom Working Group. (2019). Modeling symptom drivers of oral intake in long-term head and neck cancer survivors. Supportive Care in Cancer, 27(4), 1405-1415. https://doi.org/10.1007/s00520-018-4434-4[Context Link]

 

Kamiyanagi A., Sumita Y., Ino S., Chikai M., Nakane A., Tohara H., [horizontal ellipsis] Taniguchi H. (2018). Evaluation of swallowing ability using swallowing sounds in maxillectomy patients. Journal of Oral Rehabilitation, 45(2), 126-131. https://doi.org/10.1111/joor.12593[Context Link]

 

Kao S. S., Peters M. D., Krishnan S. G., & Ooi E. H. (2016). Swallowing outcomes following primary surgical resection and primary free flap reconstruction for oral and oropharyngeal squamous cell carcinomas: A systematic review. Laryngoscope, 126(7), 1572-1580. https://doi.org/10.1002/lary.25894[Context Link]

 

Kirca K., & Kutluturkan S. (2017). Symptoms of patients with head and neck cancers undergoing radiotherapy. European Journal of Cancer Care, 6(6), e12584. https://doi.org/10.1111/ecc.12584[Context Link]

 

Lalla R. V., Treister N., Sollecito T., Schmidt B., Patton L. L., & Mohammadi K. [horizontal ellipsis] the OraRad Study Group. (2017). Oral complications at six months after radiation therapy for head and neck cancer. Oral Disease, 23(8), 1134-1143. https://doi.org/10.1111/odi.12710[Context Link]

 

Lazarus C. L., Husaini H., Falciglia D., DeLacure M., Branski R. C., Kraus D., [horizontal ellipsis] Sanfilippo N. (2014). Effects of exercise on swallowing and tongue strength in patients with oral and oropharyngeal cancer treated with primary radiotherapy with or without chemotherapy. International Journal of Oral and Maxillofacial Surgery, 43(5), 523-530. https://doi.org/10.1016/j.ijom.2013.10.023[Context Link]

 

Loorents V., Rosell J., Karlsson C., Lidback M., Hultman K., & Borjeson S. (2014). Prophylactic training for the prevention of radiotherapy-induced trismus-A randomised study. Acta Oncologica, 53(4), 530-538. https://doi.org/10.3109/0284186X.2014.892211[Context Link]

 

Messing B. P., Ward E. C., Lazarus C. L., Kim M., Zhou X., Silinonte J., [horizontal ellipsis] Califano J. (2017). Prophylactic swallow therapy for patients with head and neck cancer undergoing chemoradiotherapy: A randomized trial. Dysphagia, 32(4), 487-500. https://doi.org/10.1007/s00455-017-9790-6[Context Link]

 

National Comprehensive Cancer Network. (2018). NCCN guidelines for treatment of cancer by site-Head and neck cancers treatment. Retrieved from https://www.nccn.org/professionals/physician_gls/default.aspx[Context Link]

 

Ohkoshi A., Ogawa T., Nakanome A., Ishida E., Ishii R., Kato K., & Katori Y. (2018). Predictors of chewing and swallowing disorders after surgery for locally advanced oral cancer with free flap reconstruction: A prospective, observational study. Surgical Oncology, 27(3), 490-494. https://doi.org/10.1016/j.suronc.2018.05.029[Context Link]

 

Pauli N., Andrell P., Johansson M., Fagerberg-Mohlin B., & Finizia C. (2015). Treating trismus: A prospective study on effect and compliance to jaw exercise therapy in head and neck cancer. Head and Neck, 37(12), 1738-1744. https://doi.org/10.1002/hed.23818[Context Link]

 

Rogus-Pulia N. M., Larson C., Mittal B. B., Pierce M., Zecker S., Kennelty K., [horizontal ellipsis] Connor N. P. (2016). Effects of change in tongue pressure and salivary flow rate on swallow efficiency following chemoradiation treatment for head and neck cancer. Dysphagia, 31(5), 687-696. https://doi.org/10.1007/s00455-016-9733-7[Context Link]

 

Romer C. A. E., Broglie Daeppen M. A., Mueller M., Huber G. F., Guesewell S., & Stoeckli S. J. (2019). Long-term speech and swallowing function after primary resection and sentinel node biopsy for early oral squamous cell carcinoma. Oral Oncology, 89, 127-132. https://doi.org/10.1016/j.oraloncology.2018.12.027[Context Link]

 

Rosa M. E. D., Mituuti C. T., & Ghirardi A. C. A. M. (2018). Correlation between the voice handicap and swallowing quality of life in patients with laryngeal cancer submitted to chemoradiotherapy. Codas, 30(2), e20170060. https://doi.org/10.1590/2317-1782/20182017060[Context Link]

 

Schache A. G., Lieger O., Rogers P., Kelly A., Newman L., & Kalavrezos N. (2009). Predictors of swallowing outcome in patients treated with surgery and radiotherapy for advanced oral and oropharyngeal cancer. Oral Oncology, 45(9), 803-808. https://doi.org/10.1016/j.oraloncology.2008.12.010[Context Link]

 

Scherpenhuizen A., van Waes A. M., Janssen L. M., Van Cann E. M., & Stegeman I. (2015). The effect of exercise therapy in head and neck cancer patients in the treatment of radiotherapy-induced trismus: A systematic review. Oral Oncology, 51(8), 745-750. https://doi.org/10.1016/j.oraloncology.2015.05.001[Context Link]

 

Taiwan Cancer Registry. (2019). 2015 annual report. Retrieved from http://crs.cph.ntu.edu.tw/[Context Link]

 

Tolentino Ede S., Centurion B. S., Ferreira L. H., Souza A. P., Damante J. H., & Rubira-Bullen I. R. (2011). Oral adverse effects of head and neck radiotherapy: Literature review and suggestion of a clinical oral care guideline for irradiated patients. Journal of Applied Oral Science, 19(5), 448-454. [Context Link]

 

van der Geer S. J., van Rijn P. V., Kamstra J. I., Langendijk J. A., van der Laan B. F. A. M., Roodenburg J. L. N., & Dijkstra P. U. (2019). Prevalence and prediction of trismus in patients with head and neck cancer: A cross-sectional study. Head and Neck, 41(1), 64-71. https://doi.org/10.1002/hed.25369[Context Link]

 

van der Meulen I. C., May A. M., de Leeuw J. R., Koole R., Oosterom M., Hordijk G. J., & Ros W. J. (2014). Long-term effect of a nurse-led psychosocial intervention on health-related quality of life in patients with head and neck cancer: A randomised controlled trial. British Journal of Cancer, 110(3), 593-601. https://doi.org/10.1038/bjc.2013.733[Context Link]

 

Zatarain L. A., Smith D. K., Deng J., Gilbert J., Dietrich M. S., Niermann K. J., [horizontal ellipsis] Murphy B. A. (2018). A randomized feasibility trial to evaluate use of the jaw dynasplint to prevent trismus in patients with head and neck cancer receiving primary or adjuvant radiation-based therapy. Integrative Cancer Therapies, 17(3), 960-967. https://doi.org/10.1177/1534735418784363[Context Link]

 

Zhang M. J., Mu J. W., Chen X. R., Zhang X., & Feng C. (2018). Effect of voice rehabilitation training on the patients with laryngeal cancer after radiotherapy. Medicine (Baltimore), 97(26), e11268. https://doi.org/10.1097/MD.0000000000011268[Context Link]

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