口腔癌术后言语功能的评估工具：一项范围综述

doi:10.3969/j.issn.1674-8115.2022.12.010

摘要/Abstract

摘要：

目的·对口腔癌术后言语功能的评估工具做范围审查，以获得现有研究中存在的口腔癌术后言语功能的评估工具，总结口腔癌术后言语功能评估工具的应用方法、应用场景及发展现况。方法·采用澳大利亚JBI（Joanna Briggs Institute）循证卫生保健中心范围综述的方法为方法学框架，检索库包括PubMed、Web of Science、Embase、CINAHL、CNKI、万方、维普，英文检索词为（"oral cancer" or "oral cavity cancer" or "head and neck neoplasm*"［MeSH Terms］）AND（"speech" or "language"［MeSH Terms］）AND（"assess*" or "evaluat*"［MeSH Terms］），中文检索关键词为“言语”“言语障碍”“言语功能”，检索学科限定为“口腔医学”或“护理学”。检索时限为建库至2022年7月，对纳入文献进行汇总分析。结果·从文献库中初步检索后得到4 476篇文章，剔除重复文献、与研究目的及内容无关文献、综述类文献、非中文或非英文文献等，最终纳入9篇文献，包含7篇横断面研究和2篇队列研究，纳入文献的时间范围为1990—2022年，国家来源包含美国、日本、德国、印度等，共归纳出3种评估方式，分别为量表、自动化识别技术和物联设备等其他方式，其中量表评估为目前最主流的评估方式，言语障碍指数（speech handicap index，SHI）为应用最广泛的评估量表之一，在我国已得到文化调适及汉化，但本土原创的评估工具未检索到。结论·口腔癌术后言语评估工具中，量表为应用最广泛的方式，但同时兼顾主观和客观的言语评估工具较少，目前国内相关研究处于空缺。未来可结合这两方面开展相关研究，研发适用于本土语言的口腔癌术后言语功能评估工具。

关键词: 言语障碍, 口腔癌, 评估工具, 术后, 范围综述

Abstract:

Objective ·To obtain the evaluation tools of postoperative speech function of oral cancer in existing studies, and summarize the application methods, application scenarios and development status of the postoperative speech function assessment tools for oral cancer. Methods ·The methodological framework was based on the review method of the Joanna Briggs Institute evidence-based health care center in Australia. The databases included PubMed, Web of Science, Embase, CINAHL, CNKI, Wanfang and VIP. The English terms were ("oral cancer" or "oral cavity cancer" or "head and neck neoplasm*"[MeSH Terms]) AND ("speech" or" language" [MeSH Terms]) AND ("assess*" or "evaluat*"[MeSH Terms]), the Chinese terms were "speech", "speech disorders", "speech function", and the search discipline was limited to "stomatology" or "nursing".The retrieval time was from the establishment of the database to July 2022, and the included literature was summarized and analyzed. Results ·A preliminary search of 4 476 articles from the literature databases was obtained, excluding duplicate literature, literature that was not relevant to the purpose and content of the study, review literature, non-Chinese or non-English literature, etc. A total of 9 articles were included, including 7 cross-sectional studies and 2 cohort studies. The time range of the included literature was 1990?2022, and the national sources included the United States, Japan, Germany, India, etc. A total of three evaluation methods were summarized, namely scales, automatic identification technology and other methods such as internet of things (IoT) devices, in which scale evaluation is currently the most mainstream evaluation method, and speech handicap index (SHI) is one of the most widely used evaluation scales, which has been culturally adapted and localized in China, but the evaluation tools of local original research have not been retrieved. Conclusion ·Among the oral cancer postoperative speech assessment tools, the scale is the most widely used method, but there are few studies that can balance subjective speech assessment and objective speech assessment, and the domestic related research is vacant. In the future, relevant research can be carried out in combination with these two aspects, and a tool for assessing speech function after oral cancer surgery suitable for local languages can be developed.

Key words: speech function, oral cancer, evaluation tool, postoperation, scoping review

中图分类号:

R782

吴媚, 梁妍景, 侯黎莉. 口腔癌术后言语功能的评估工具：一项范围综述[J]. 上海交通大学学报（医学版）, 2022, 42(12): 1720-1728.

WU Mei, LIANG Yanjing, HOU Lili. Evaluation tools for speech function after oral cancer surgery: a scoping review[J]. Journal of Shanghai Jiao Tong University (Medical Science), 2022, 42(12): 1720-1728.

图/表 3

参考文献 32

1	李江, 张春叶. 口腔癌及口咽癌病理诊断规范[J]. 中国口腔颌面外科杂志, 2020, 18(4): 289-296.
	LI J, ZHANG C Y.Pathological diagnosis of oral cancer and oropharyngeal cancer[J].Chin J Stomatol, 2020(3): 145-152.
2	BRAY F, FERLAY J, SOERJOMATARAM I, et al. Global cancer statistics 2018: globocan estimates of incidence and mortality worldwide for 36 cancers in 185 countries[J]. CA Cancer J Clin, 2018, 68(6): 394-424.
3	FENG R M, ZONG Y N, CAO S M, et al. Current cancer situation in China: good or bad news from the 2018 Global Cancer Statistics? [J]. Cancer Commun, 2019, 39(1): 22.
4	郑家伟, 李金忠, 钟来平, 等. 口腔鳞状细胞癌临床流行病学研究现状[J]. 中国口腔颌面外科杂志, 2007, 5(2): 83-90.
	ZHENG J W, LI J Z, ZHONG L P, et al. Clinical epidemiological research status of oral squamous cell carcinoma[J]. China J Oral Maxillofac Surg, 2007, 5(2):83-90.
5	中华口腔医学会口腔颌面外科专业委员会肿瘤学组. 口腔颌面部恶性肿瘤治疗指南[J]. 中国口腔颌面外科杂志, 2010, 8(2): 98-106.
	Oncology Group, Oral and Maxillofacial Surgery Committee, Chinese Stomatology Association. Guidelines for the treatment of oral and maxillofacial malignancies[J]. China J Oral Maxillofac Surg, 2010, 8(2): 98-106.
6	JOO Y H, CHO J K, Koo B S, et al. Guidelines for the surgical management of oral cancer: Korean society of thyroid-head and neck surgery[J]. Clin Exp Otorhinolaryngol, 2019, 12(2): 107-144.
7	LAM L, SAMMAN N. Speech and swallowing following tongue cancer surgery and free flap reconstruction: a systematic review[J]. Oral Oncol, 2013, 49(6): 507-524.
8	OMURA K. Current status of oral cancer treatment strategies: surgical treatments for oral squamous cell carcinoma[J]. Int J Clin Oncol, 2014, 19(3): 423-430.
9	何三纲. 口腔解剖生理学[M]. 8版. 北京: 人民卫生出版社, 2020: 257-260.
	HE S G. Oral anatomy and physiology[M]. 8th ed. Beijing: People's Medical Publishing House, 2020: 257-260.
10	FOSTER C C, MELOTEK J M, BRISSON R J, et al. Definitive chemoradiation for locally-advanced oral cavity cancer: a 20-year experience[J]. Oral Oncol, 2018, 80: 16-22.
11	BLYTH K M, MCCABE P, MADILL C, et al. Speech and swallow rehabilitation following partial glossectomy: a systematic review[J]. Int J Speech Lang Pathol, 2015, 17(4): 401-410.
12	彭翠娥, 李赞, 周波, 等. 口腔癌术后患者症状群与生活质量的相关性研究[J]. 中华现代护理杂志, 2020, 26(8): 1038-1043.
	PENG C E, LI Z, ZHOU B, et al. A study on the correlation between symptom groups and quality of life in patients after oral cancer surgery[J].Chin J Modern Nurs, 2020, 26(8): 1038-1043.
13	LOCKWOOD C, DOS SANTOS K B, PAP R. Practical guidance for knowledge synthesis: scoping review methods[J]. Asian Nurs Res (Korean Soc Nurs Sci), 2019, 13(5): 287-294.
14	WOISARD V, BALAGUER M, FREDOUILLE C, et al. Construction of an automatic score for the evaluation of speech disorders among patients treated for a cancer of the oral cavity or the oropharynx: the Carcinologic Speech Severity Index[J]. Head Neck, 2022, 44(1): 71-88.
15	DOKHE Y, THANKAPPAN K, SOOD R, et al. Validation of an intelligibility assessment tool in an Indian language for perceptual speech analysis in oral cancer patients[J]. Indian J Surg Oncol, 2021, 12(1): 100-107.
16	KEILMANN A, KONERDING U, OBERHERR C, et al. The Articulation Handicap Scale with 12 items (AHS-12): a short form of the Articulation Handicap Index (AHI)[J]. Logoped Phoniatr Vocol, 2021, 46(2): 70-76.
17	KEILMANN A, KONERDING U, OBERHERR C, et al. Articulation handicap index: an instrument for quantifying psychosocial consequences of impaired articulation[J]. Eur Arch Otorhinolaryngol, 2016, 273(12): 4493-4500.
18	RIEMANN M, KNIPFER C, ROHDE M, et al. Oral squamous cell carcinoma of the tongue: prospective and objective speech evaluation of patients undergoing surgical therapy[J]. Head Neck, 2016, 38(7): 993-1001.
19	ELLABBAN M A, SHOAIB T, DEVINE J, et al. The functional intraoral Glasgow scale in floor of mouth carcinoma: longitudinal assessment of 62 consecutive patients[J]. Eur Arch Otorhinolaryngol, 2013, 270(3): 1055-1066.
20	RINKEL R N, VERDONCK-DE LEEUW I M, VAN REIJ E J, et al. Speech Handicap Index in patients with oral and pharyngeal cancer: better understanding of patients' complaints[J]. Head Neck, 2008, 30(7): 868-874.
21	NISHIGAWA G, NATSUAKI N, MARUO Y, et al. Galvanic skin response of oral cancer patients during speech[J]. J Oral Rehabil, 2003, 30(5): 522-525.
22	LIST M A, RITTER-STERR C, LANSKY S B. A performance status scale for head and neck cancer patients[J]. Cancer, 1990, 66(3): 564-569.
23	NG E, LAW T, TANG E C H, et al. The cutoff point and diagnostic accuracy of the voice handicap index in Cantonese-speaking population[J]. J Voice, 2021, 35(2): 163-168.
24	CHAN H F, NG M L, ROSEN C A, et al. Cultural adaptation and validation of speech handicap index: a scoping review[J]. Am J Speech Lang Pathol, 2021, 30(2): 748-760.
25	吴沛霞, 姚晴, 王韦, 等. 中文版言语障碍指数量表的信效度评价[J]. 护理学杂志, 2014, 29(18): 28-31.
	WU P X, YAO Q, WANG W, et al. Evaluation of the reliability and validity of the Chinese version of the Speech Handicap Index Scale[J]. J Nurs Sci, 2014, 29(18): 28-31.
26	CHAN H F, NG M L, ROSEN C A, et al. Cultural adaptation and validation of speech handicap index: a scoping review[J]. Am J Speech Lang Pathol, 2021, 30(2): 748-760.
27	FICHAUX-BOURIN P, WOISARD V, GRAND S, et al. Validation of a self assessment for speech disorders (Phonation Handicap Index)[J]. Rev Laryngol Otol Rhinol (Bord), 2009, 130(1): 45-51.
28	GOLDIE S J, JACKSON M S, SOUTAR D S, et al. The functional intraoral Glasgow scale (FIGS) in retromolar trigone cancer patients[J]. J Plast Reconstr Aesthet Surg, 2006, 59(7): 743-746.
29	BALAGUER M, POMMÉE T, FARINAS J, et al. Effects of oral and oropharyngeal cancer on speech intelligibility using acoustic analysis: systematic review[J]. Head Neck, 2020, 42(1): 111-130.
30	RINKEL R N P M, VERDONCK-DE LEEUW I M, BREE R, et al. Validity of patient-reported swallowing and speech outcomes in relation to objectively measured oral function among patients treated for oral or oropharyngeal cancer[J]. Dysphagia, 2015, 30(2): 196-204.
31	CONSTANTINESCU G, RIEGER J, WINGET M, et al. Patient perception of speech outcomes: the relationship between clinical measures and self-perception of speech function following surgical treatment for oral cancer[J]. Am J Speech Lang Pathol, 2017, 26(2): 241-247.
32	BECK-BROICHSITTER B E, HUCK J, KÜCHLER T, et al. Self-perception versus professional assessment of functional outcome after ablative surgery in patients with oral cancer[J]. J Cancer Res Clin Oncol, 2017, 143(2): 305-311.

Authour	Year	Nation	Subjects	Objective	Design	Sample size
WOISARD， et al^［14］	2022	France	Patients with oropharyngeal or oral cancer who are in the "chronic" stage （i.e.， having completed treatment at least 6 months ago） and are in clinical remission， ensuring that the speech impairment is as stable as possible. The control group consisted of the patients' companion to be close to the subjects in terms of age， lifestyle， and location	Through acoustic parameters， an automatic speech severity index model suitable for clinical practice is established to help predict the degree of speech impairment	Cross-sectional studies	87 vs 35
DOKHE， et al^［15］	2021	India	Patients after oral cancer surgery	It aims to develop a speech intelligibility tool that can perceive and analyze Malayalam	Cross-sectional studies	120
KEILMANN，et al^［16］	2021	Germany	Survivors of oral cancer （floor of the mouth，tongue，palatine tonsils，base of tongue， palate， jaw， oropharynx， nasopharynx or cheek） who have undergone surgery	To build a simplified assessment tool for measuring the subjective experience of dysphonia	Cross-sectional studies	113
KEILMANN，et al^［17］	2016	Germany	Patients with treated head and neck tumors.Treatment includes radiotherapy，chemotherapy， immunotherapy and surgery. Head and neck tumors include tumors of the floor of the mouth， tongue， palate， tonsils， base of tongue， maxilla， jaw， oropharynx， nasopharynx and cheeks	To develop the AHI scale and do its psychometric analysis	Cross-sectional studies	113
RIEMANN， et al^［18］	2015	Germany	Patients with squamous cell carcinoma of the tongue who have undergone surgery	Through the automatic objective speech recognition system， prospective speech intelligibility evaluation was carried out for patients with postoperative oral squamous cell carcinoma	Cohort studies	25 vs 40
ELLABBAN，et al^［19］	2012	Egypt	Patients with squamous cell carcinoma of the floor of the mouth who have undergone surgery	Oral function was reported by using a FIGS scale to determine the patient's ability to speak， chew， and swallow after surgical treatment for squamous cell carcinoma of the floor of the mouth	Cohort studies	62
RINKEL， et al^［20］	2008	Netherlands	Oral or pharyngeal cancer that has been treated， including chemotherapy， radiation and surgery	A SHI scale was developed for 92 patients with oral or pharyngeal cancer and 110 healthy patients	Cross-sectional studies	92 vs 110
NISHIGAWA， et al^［21］	2003	Japan	Patients with maxillary defects after oral cancer surgery	To develop a new method to use galvanic skin response as an indicator of satisfaction with pronunciation function	Cross-sectional studies	11
LIST， et al^［22］	1990	America	Patients with head and neck tumors	To develop a simple， practical assessment tool to measure function in patients with head and neck tumors in a standard and systematic way	Cross-sectional studies	181

Authour	Year	Nation	Subjects	Objective	Design	Sample size
WOISARD， et al^［14］	2022	France	Patients with oropharyngeal or oral cancer who are in the "chronic" stage （i.e.， having completed treatment at least 6 months ago） and are in clinical remission， ensuring that the speech impairment is as stable as possible. The control group consisted of the patients' companion to be close to the subjects in terms of age， lifestyle， and location	Through acoustic parameters， an automatic speech severity index model suitable for clinical practice is established to help predict the degree of speech impairment	Cross-sectional studies	87 vs 35
DOKHE， et al^［15］	2021	India	Patients after oral cancer surgery	It aims to develop a speech intelligibility tool that can perceive and analyze Malayalam	Cross-sectional studies	120
KEILMANN，et al^［16］	2021	Germany	Survivors of oral cancer （floor of the mouth，tongue，palatine tonsils，base of tongue， palate， jaw， oropharynx， nasopharynx or cheek） who have undergone surgery	To build a simplified assessment tool for measuring the subjective experience of dysphonia	Cross-sectional studies	113
KEILMANN，et al^［17］	2016	Germany	Patients with treated head and neck tumors.Treatment includes radiotherapy，chemotherapy， immunotherapy and surgery. Head and neck tumors include tumors of the floor of the mouth， tongue， palate， tonsils， base of tongue， maxilla， jaw， oropharynx， nasopharynx and cheeks	To develop the AHI scale and do its psychometric analysis	Cross-sectional studies	113
RIEMANN， et al^［18］	2015	Germany	Patients with squamous cell carcinoma of the tongue who have undergone surgery	Through the automatic objective speech recognition system， prospective speech intelligibility evaluation was carried out for patients with postoperative oral squamous cell carcinoma	Cohort studies	25 vs 40
ELLABBAN，et al^［19］	2012	Egypt	Patients with squamous cell carcinoma of the floor of the mouth who have undergone surgery	Oral function was reported by using a FIGS scale to determine the patient's ability to speak， chew， and swallow after surgical treatment for squamous cell carcinoma of the floor of the mouth	Cohort studies	62
RINKEL， et al^［20］	2008	Netherlands	Oral or pharyngeal cancer that has been treated， including chemotherapy， radiation and surgery	A SHI scale was developed for 92 patients with oral or pharyngeal cancer and 110 healthy patients	Cross-sectional studies	92 vs 110
NISHIGAWA， et al^［21］	2003	Japan	Patients with maxillary defects after oral cancer surgery	To develop a new method to use galvanic skin response as an indicator of satisfaction with pronunciation function	Cross-sectional studies	11
LIST， et al^［22］	1990	America	Patients with head and neck tumors	To develop a simple， practical assessment tool to measure function in patients with head and neck tumors in a standard and systematic way	Cross-sectional studies	181

Author	Speech-related assessment methods	Purpose of assessment	How to measure results	Key results of the study
WOISARD， et al^［14］	① SHI ② PHI ③ SLP ④ ASR Systems： openSMILE 3.0， PRAAT 6.1， VOCALAB 4	①SHI is used to assess the degree of speech impairment ②PHI is used to assess the degree of sound impairment ③SLP assesses speech comprehension ④ASR is used to measure speech intelligibility	Eighty-seven patients were treated for oral or oropharyngeal cancer and 35 controls performed different speech-producing tasks and completed questionnaires about speech-related quality of life. The recordings were then evaluated by human perception and automatic speech recognition. A score was derived from a classical Logistic regression model that can describe the severity of the patient's speech disorder	After using three software programs for acoustic treatment， 6 parameters were derived to help predict speech disorders in the future， and the assessment was automated and more reproducible than from manual evaluation
DOKHE， et al^［15］	ASIAT	ASIAT is used for perceptual analysis of speech functions to obtain speech intelligibility and comprehensibility	Internal consistency and reliability and validity tests	The scale has high internal consistency， with Cronbach's α of 0.847， a strong correlation between Malayalam and English， and a Pearson correlation coefficient of 0.646
KEILMANN，et al^［16］	① AHI ② Short form AHI-12	AHI-12 is used to assess the degree of dysphonia	Reliability and validity test	The short form AHS-12 questionnaire provides almost as much information as AHI， and it takes significantly less time to complete it. Optimal with 12 entries， Cronbach's α is 0.96
KEILMANN，et al^［17］	①AHI ②Self-assessment	AHI is used to assess the degree of dysphonia	Cronbach's α values for the AHI scale's item total correlation， principal component analysis， and outcome component. To test its validity， the relationship between AHI and self-evaluation was applied to Kendall's tau values between AHI scores and self-assessments	AHI is one-dimensional， so only a full Cronbach's α coefficient was measured， and Cronbach's α coefficient was 0.96. The AHI score and Kendall's tau value between the self-rating and the self-rating were 0.69 （P< 0.001）
RIEMANN，et al^［18］	ASR systems PEAKS （programme for evaluation and analysis for all types speech disorders）	ASR is used to measure speech intelligibility and word recognition rate	Patients were evaluated before surgery， 14‒20 d after surgery， 3 months， 6 months and 12 months after surgery， and the cumulative speech function evaluation results of patients were obtained， and then compared between groups	At 12 months before and after surgery， patients developed significant language impairment compared with healthy controls （P≤0.002）. Speech intelligibility decreased significantly 14 to 20 d after surgery （P<0.001）， but was readjusted to preoperative levels after 12 months （P=0.159）. After 12 months， tongue retention significantly improved speech intelligibility （P=0.007）
ELLABBAN，et al^［19］	FIGS	FIGS is used to assess intraoral function and includes three dimensions： swallowing， speech， and chewing	Patient scoring data were collected preoperatively， 2， 6 and 12 months postoperatively to obtain trends in FIGS scores	The mean baseline speech score was 4.9 points， which decreased to 4.1 points two months after surgery. At 6 and 12 months after surgery， the mean speech score increased to 4.2 and 4.3 at the same time. FIGS is a simple and comprehensive way to assess functional impairment in postoperative patients
RINKEL， et al^［20］	① SHI ② EORTC QLQ-H&N35 ③The control group was asked if they had a question about speaking （answered "yes" or "no"）	①SHI is used to assess the degree of speech impairment ②EORTC QLQ-H&N35 is used to assess quality of life in patients with head and neck tumors， including the dimension of speech function	The reliability of the SHI scale was assessed by using internal consistency （Cronbach's α） and retesting stability （Pearson's r）.	The internal consistency reliability （Cronbach's α coefficient） for the SHI total score was 0.98 in the patient group and 0.92 in the control group， and the Pearson's r coefficients for the total score and subscale were 5.85， 0.83， and 0.72， respectively. The correlation （Pearson's r coefficients） between the SHI Total Score， the SHI Verbal Function Subscale， the SHI Psychosocial Function Subscale， and the EORTC QLQ-H & N35 Speech Scale （Pearson's r coefficients） were 0.86， 0.81， and 0.84， respectively
NISHIGAWA，et al^［21］	① Speech intelligibility test （assessed by SLP） ② VAS ③ GSR measuring instrument	① VAS is used in patients to self-assess the degree of speech impairment ② GSR judges speech function through the results of the electric skin response	The results of galvanic skin reactions before and after the prostheses were compared	The mean rate of decline in articulation resistance in patients with prostheses was significantly smaller than the value without prostheses， and the results were statistically different （P<0.05）， suggesting that wearing prostheses helped with pronunciation
LIST，et al^［22］	PSS-HN	It is used to evaluate postoperative dietary function， speech comprehension and eating in public in patients with head and neck tumors	Reliability and validity test	The degree of agreement between rater scores was described by using κ statistics，κ = 0.88 ［standard error （SE） = 0.08］ for a normal diet； Speech comprehensibility κ = 0.64 （SE = 0.12）； Eating in public， κ = 0.78 （SE = 0.11）. Kruskal-Wallis statistics showed that the difference between groups was significant on all three subscales （P < 0.05）

Author	Speech-related assessment methods	Purpose of assessment	How to measure results	Key results of the study
WOISARD， et al^［14］	① SHI ② PHI ③ SLP ④ ASR Systems： openSMILE 3.0， PRAAT 6.1， VOCALAB 4	①SHI is used to assess the degree of speech impairment ②PHI is used to assess the degree of sound impairment ③SLP assesses speech comprehension ④ASR is used to measure speech intelligibility	Eighty-seven patients were treated for oral or oropharyngeal cancer and 35 controls performed different speech-producing tasks and completed questionnaires about speech-related quality of life. The recordings were then evaluated by human perception and automatic speech recognition. A score was derived from a classical Logistic regression model that can describe the severity of the patient's speech disorder	After using three software programs for acoustic treatment， 6 parameters were derived to help predict speech disorders in the future， and the assessment was automated and more reproducible than from manual evaluation
DOKHE， et al^［15］	ASIAT	ASIAT is used for perceptual analysis of speech functions to obtain speech intelligibility and comprehensibility	Internal consistency and reliability and validity tests	The scale has high internal consistency， with Cronbach's α of 0.847， a strong correlation between Malayalam and English， and a Pearson correlation coefficient of 0.646
KEILMANN，et al^［16］	① AHI ② Short form AHI-12	AHI-12 is used to assess the degree of dysphonia	Reliability and validity test	The short form AHS-12 questionnaire provides almost as much information as AHI， and it takes significantly less time to complete it. Optimal with 12 entries， Cronbach's α is 0.96
KEILMANN，et al^［17］	①AHI ②Self-assessment	AHI is used to assess the degree of dysphonia	Cronbach's α values for the AHI scale's item total correlation， principal component analysis， and outcome component. To test its validity， the relationship between AHI and self-evaluation was applied to Kendall's tau values between AHI scores and self-assessments	AHI is one-dimensional， so only a full Cronbach's α coefficient was measured， and Cronbach's α coefficient was 0.96. The AHI score and Kendall's tau value between the self-rating and the self-rating were 0.69 （P< 0.001）
RIEMANN，et al^［18］	ASR systems PEAKS （programme for evaluation and analysis for all types speech disorders）	ASR is used to measure speech intelligibility and word recognition rate	Patients were evaluated before surgery， 14‒20 d after surgery， 3 months， 6 months and 12 months after surgery， and the cumulative speech function evaluation results of patients were obtained， and then compared between groups	At 12 months before and after surgery， patients developed significant language impairment compared with healthy controls （P≤0.002）. Speech intelligibility decreased significantly 14 to 20 d after surgery （P<0.001）， but was readjusted to preoperative levels after 12 months （P=0.159）. After 12 months， tongue retention significantly improved speech intelligibility （P=0.007）
ELLABBAN，et al^［19］	FIGS	FIGS is used to assess intraoral function and includes three dimensions： swallowing， speech， and chewing	Patient scoring data were collected preoperatively， 2， 6 and 12 months postoperatively to obtain trends in FIGS scores	The mean baseline speech score was 4.9 points， which decreased to 4.1 points two months after surgery. At 6 and 12 months after surgery， the mean speech score increased to 4.2 and 4.3 at the same time. FIGS is a simple and comprehensive way to assess functional impairment in postoperative patients
RINKEL， et al^［20］	① SHI ② EORTC QLQ-H&N35 ③The control group was asked if they had a question about speaking （answered "yes" or "no"）	①SHI is used to assess the degree of speech impairment ②EORTC QLQ-H&N35 is used to assess quality of life in patients with head and neck tumors， including the dimension of speech function	The reliability of the SHI scale was assessed by using internal consistency （Cronbach's α） and retesting stability （Pearson's r）.	The internal consistency reliability （Cronbach's α coefficient） for the SHI total score was 0.98 in the patient group and 0.92 in the control group， and the Pearson's r coefficients for the total score and subscale were 5.85， 0.83， and 0.72， respectively. The correlation （Pearson's r coefficients） between the SHI Total Score， the SHI Verbal Function Subscale， the SHI Psychosocial Function Subscale， and the EORTC QLQ-H & N35 Speech Scale （Pearson's r coefficients） were 0.86， 0.81， and 0.84， respectively
NISHIGAWA，et al^［21］	① Speech intelligibility test （assessed by SLP） ② VAS ③ GSR measuring instrument	① VAS is used in patients to self-assess the degree of speech impairment ② GSR judges speech function through the results of the electric skin response	The results of galvanic skin reactions before and after the prostheses were compared	The mean rate of decline in articulation resistance in patients with prostheses was significantly smaller than the value without prostheses， and the results were statistically different （P<0.05）， suggesting that wearing prostheses helped with pronunciation
LIST，et al^［22］	PSS-HN	It is used to evaluate postoperative dietary function， speech comprehension and eating in public in patients with head and neck tumors	Reliability and validity test	The degree of agreement between rater scores was described by using κ statistics，κ = 0.88 ［standard error （SE） = 0.08］ for a normal diet； Speech comprehensibility κ = 0.64 （SE = 0.12）； Eating in public， κ = 0.78 （SE = 0.11）. Kruskal-Wallis statistics showed that the difference between groups was significant on all three subscales （P < 0.05）

[1]	姚皓弋, 刘赟, 秦凯捷, 周密, 王哲, 陈安清, 赵强, 李海清. 中度缺血性二尖瓣关闭不全合并左室收缩功能减退的外科治疗效果分析[J]. 上海交通大学学报（医学版）, 2022, 42(5): 629-634.
[2]	黄康慧, 李梦瑶, 施澜, 郑子一, 温弗乐, 章雅青. 中文版职业坐姿及体力活动问卷在重症监护室护士中的信效度评价[J]. 上海交通大学学报（医学版）, 2022, 42(11): 1582-1588.
[3]	何烨, 方芳. 非体外循环冠状动脉搭桥患者术前糖化血红蛋白水平与术后谵妄的关系[J]. 上海交通大学学报(医学版), 2022, 42(1): 21-27.
[4]	吴懿, 方芳, 黄浩, 陈瑛. 口服益生菌对肝部分切除术患者术后感染和肝功能恢复的影响[J]. 上海交通大学学报(医学版), 2022, 42(1): 9-15.
[5]	王子涵, 沈杰, 罗艳. 复合脊神经阻滞用于单孔胸腔镜下肺段/叶切除术的镇痛效果[J]. 上海交通大学学报(医学版), 2021, 41(8): 1062-1067.
[6]	吴志山, 黄润, 梁丽萍, 朱宇婷, 郑乔木, 姜丽萍. ICU老年患者术后谵妄发生的特征及影响因素分析[J]. 上海交通大学学报(医学版), 2021, 41(12): 1580-1586.
[7]	江艳, 范巧玲, 蔡成, 邱佳瑜, 李燕, 张凯. 新生儿坏死性小肠结肠炎风险评估工具的研究进展[J]. 上海交通大学学报(医学版), 2021, 41(11): 1540-1544.
[8]	吕恒宇，黄晨，夏翔，赵刚. 预测根治性胃癌切除术后并发症危险因素的列线图模型的建立[J]. 上海交通大学学报(医学版), 2020, 40(7): 894-900.
[9]	刘成伟，刘亦凡，黄瑶，王齐，倪鹏文，谢挺. 放射性皮肤溃疡评估工具的构建[J]. 上海交通大学学报(医学版), 2020, 40(12): 1687-1692.
[10]	罗钢，崔永晨，曹越，张俊峰. 手术创伤对2型糖尿病小鼠术后认知功能和脑葡萄糖代谢的影响[J]. 上海交通大学学报(医学版), 2020, 40(11): 1468-1472.
[11]	张森，蔡美华，贺盼，张瑞冬，黄悦，郑吉建. 近期合并上呼吸道感染的先天性心脏病患儿行治疗性心导管术的安全性评估[J]. 上海交通大学学报（医学版）, 2018, 38(4): 422-.
[12]	黄晓虹，严彬，刘佳，王晓宁. 颈椎术中体感诱发电位监测与术后疗效分析[J]. 上海交通大学学报（医学版）, 2017, 37(12): 1674-.
[13]	徐欣，马秀梅，周荻，白永瑞 . 淋巴结转移状态对局部晚期食管鳞癌术后患者放射治疗预后的影响[J]. 上海交通大学学报（医学版）, 2017, 37(10): 1407-.
[14]	崔娓，张弛，葛培青，王雪湖，叶照君，于士剑，张依爵，陶伟平，袁红斌 . 超声引导联合神经刺激仪定位胸椎旁阻滞在肋间神经移位术中的应用[J]. 上海交通大学学报（医学版）, 2017, 37(1): 89-.
[15]	赵嫣红，闻大翔. 非体外循环冠脉搭桥患者术后认知功能障碍的相关因素分析[J]. 上海交通大学学报（医学版）, 2016, 36(1): 100-.