Рак языка и дна полости рта: современные аспекты диагностики


https://doi.org/10.20862/0042-4676-2015-0-5-84-89

Полный текст:


Аннотация

В настоящее время проблема диагностики и лечения рака языка и дна полости рта сохраняет свою актуальность, так как 60–80% пациентов впервые обращаются к специалистам лишь на последних стадиях заболевания. В обзоре проанализированы
данные отечественной и зарубежной литературы, посвященные основным методам лучевой диагностики рака языка и дна полости рта. Отражены возможности компьютерной томографии в диагностике данной патологии, оценке глубоко лежащих анатомических структур языка и дна полости рта, а также в выявлении метастатического поражения лимфатических узлов шеи.

Об авторах

А. л. Юдин
1ГБОУ ВПО «Российский национальный исследовательский медицинский университет им. Н.И. Пирогова» Министерства здравоохранения РФ
Россия
д. м. н., профессор, заведующий кафедрой лучевой диагностики и терапии, рентгенолог


р. А. Щетинин
ГБОУ ВПО «Российский национальный исследовательский медицинский университет им. Н.И. Пирогова» Министерства здравоохранения РФ, ГБУЗ «Онкологический клинический диспансер № 1» Департамента здравоохранения г. Москвы,
Россия
аспирант, рентгенолог


Н. И. Афанасьева
ГБОУ ВПО «Российский национальный исследовательский медицинский университет им. Н.И. Пирогова» Министерства здравоохранения РФ
Россия
к. м. н., доцент кафедры лучевой диагностики и терапии


Список литературы

1. Moore S.R., Johnson N.W., Pierce A.M., Wilson D.F. The epidemiology of mouth cancer: a review of global incidence. Oral. Dis. 2000; 6 (2): 65–74.

2. Paches A.I. Head and neck tumors. Moscow: Meditsina; 2000 (in Russian).

3. Solov'ev V.A., Mitina L.A., Stepanov S.O., Prozorova E.V., Ratushnaya V.V., Dolgacheva D.V. Possibilities of ultrasound diagnosis of tongue tumors. In: Book of abstracts of the International Congress on diseases of the head and neck. Мoscow; 2014: 31 (in Russian).

4. Belov Yu.V., Komarov R.N., Chernyavskiy S.V., Vinokurov I.A. Surgical treatment of the tongue cancer metastasis in the carotid artery. Khirurgiya. 2013; 10: 43–5 (in Russian).

5. Wakasugi-Sato N., Kodama M., Matsuo K., Yamamoto N., Oda M., Ishikawa A. et al. Advanced clinical usefulness of ultrasonography for diseases in oral and maxillofacial regions. Int. J. Dent. 2010; 2010: 639382.

6. Kodama M., Khanal A., Habu M., Iwanaga K., Yoshioka I., Tanaka T. et al. Ultrasonography for intraoperative determination of tumor thickness and resection margin in tongue carcinomas. J. Oral. Maxillofac. Surg. 2010; 68 (8): 1746–52.

7. Tominaga K., Yamamoto K., Khanal A., Morimoto Y., Tanaka T., Kodama M. et al. Intraoperative surgical clearance confirmation of tongue carcinomas using ultrasound. Dentomaxillofacial Radiology. 2007; 36 (7): 409–11.

8. Van den Brekel M.W., Castelijns J.A. What the clinician wants to know: surgical perspective and ultrasound for lymph node imaging of the neck. Cancer Imaging. 2005; 5: S41–9.

9. Shin L.K., Fischbein N.J., Kaplan M.J., Jeffrey R.B. Metastatic squamous cell carcinoma presenting as diffuse and punctate cervical lymph node calcifications: sonographic features and utility of sonographically guided fine-needle aspiration biopsy. J. Ultras. Med. 2009; 28 (12): 1703–7.

10. Stepanov S.O., Mitina L.A., Ratushnaya V.V., Dolgacheva D.V., Solov'ev V.A. Ultrasound diagnosis of tumor of tongue and floor of the mouth. Onkokhirugiya. 2013; 5 (1): 72–3 (in Russian).

11. Hohlweg-Majert B., Metzger M.C., Voss P.J., Hцlzle F., Wolff K.D., Schulze D. Preoperative cervical lymph node size evaluation in patients with malignant head/neck tumors: comparison between ultrasound and computer tomography. J. Cancer Res. Clin. Oncol. 2009; 135: 753–9.

12. Petrovichev V.S., Vasil'ev P.V., Mershina E.A., Sinitsyn V.E. Radiological diagnostic of tongue cancer. Luchevaya diagnostika i terapiya. 2013; 2 (4): 34–7.

13. Petrovichev V.S. Multidetector computed tomography in the diagnostic and evaluation of treatment of tongue cancer. PhD med. sci. Diss. Moscow; 2014 (in Russian).

14. Yousem D.M., Chalian A.A. Oral cavity and pharynx. Radiol. Clin. N. Am. 1998; 36 (5): 967–81.

15. De Bondt R.B., Nelemans P.J., Hofman P.A., Casselman J.W., Kremer B., van Engelshoven J.M. et al. Detection of lymph node metastases in head and neck cancer: а meta-analysis comparing US, USgFNAC, CT and MR imaging. Eur. J. Radiol. 2007; 64: 266–72.

16. Jansen J.F., Schцder H., Lee N.Y., Stambuk H.E., Wang Y., Fury M.G. et al. Tumor metabolism and perfusion in head and neck squamous cell carcinoma: pretreatment multimodality imaging with 1H magnetic resonance spectroscopy, dynamic contrast-enhanced MRI, and [18F] FDG-PET. Int. J. Radiat. Oncol. Biol. Phys. 2012; 82 (1): 299–307.

17. Castaldi P., Leccisotti L., Bussu F., Micciche` F., Rufini V. Role of 18FFDG PET-CT in head and neck squamous cell carcinoma. Acta. Otorhinolaryngologica. Italica. 2013; 33 (1): 1–8.

18. Schwarz E., Hurlimann S., Soyka J.D., Bortoluzzi L., Strobel K. FDG-positive Warthin's tumors in cervical lymph nodes mimicking metastases in tongue cancer staging with PET/CT. Otolaryngol. Head Neck. Surg. 2009; 140: 134–5.

19. Beyer T., Townsend D.W., Brun T., Kinahan P.E., Charron M., Roddy R. et al. A combined PET/CT scanner for clinical oncology. J. Nucl. Med. 2000; 41 (8): 1369–79.

20. Loeffelbein D.J., Souvatzoglou M., Wankerl V., Martinez-Mцller A., Dinges J., Schwaiger M. et al. PET MRI fusion in head-and-neck oncology: current status and implications for hybrid PET/MRI. J. Oral Maxillofac. Surg. 2012; 70 (2): 473–83.

21. Buchbender C., Heusner T.A., Lauenstein T.C., Bockisch A., Antoch G. Oncologic PET/MRI, part 1: tumors of the brain, head and neck, chest, abdomen, and pelvis. J. Nucl. Med. 2012; 53 (6): 928–38.

22. Wiener E., Pautke C., Link T.M., Neff A., Kolk A. Comparison of 16-slice MSCT and MRI in the assessment of squamous cell carcinoma of the oral cavity. EJR. 2006; 58 (1): 113–8.

23. Priante A.V.M., Carvalho A.L., Kowalski L.P. Second primary tumor in patients with upper aerodigestive tract cancer. Braz. J. Otorhinolaryngol. 2010; 76 (2): 251–6.

24. Larsson S.G., Mancuso A.A., Hanafee W. Computed tomography of the tongue and floor of the mouth. Radiology. 1982; 143 (2): 493–500.

25. Ostrinskaya T.V., Dobromyslova N.A., Trofimets M.I., Matusova N.S., Nuraev N.B. Magnetic-resonance imaging and multidetector spiral computed tomography as a method of imaging tumors of the base of tongue. Luchevaya diagnostika i terapiya. 2013; 4: 57–65.

26. Hoang J.K., Glastonbury C.M., Chen L.F., Salvatore J.K., Eastwood J.D. CT mucosal window settings: a novel approach to evaluating early T-Stage head and neck carcinoma. AJR. 2010; 195: 1002–6.

27. Fatterpekar G.M., Delman B.N., Shroff M.M., Naidich T.P., Sacher M.S., Som P.M. Distension technique to improve computed tomographic evaluation of oral cavity lesions. Arch. Otolaryngol. Head Neck Surg. 2003; 129 (2): 229–32.

28. Crespo Martнnez M., Navarro Navarro M., Castro Copete C., Carnero Ruiz M., Lorente Fernбndez M.F., Calbo Maiques J. Tumors of the oral cavity: the usefulness of dynamic CT. Radiologia. 2008; 50 (6): 509–16.

29. Nair S., Kumar Sh., Nair D., Chaturvedi P., D'Cruz A.K. Tumor thickness as predictor of prognosis in carcinoma of tongue. Oral Oncol. 2013; 49 (Supp. 1): S11– 2.

30. Johnson C.R., Khandelwal S.R., Schmidt-Ullrich R.K., Ravalese J., Wazer D.E. The influence of quantitative tumour volume measurements on local control in dvanced head and neck cancer using concomitant boost accelerated superfractionated irradiation. Int. J. Radiat. Oncol. Biol. Phys. 1995; 32 (3): 635–41.

31. Kuriakose M.A., Loree T.R., Hicks W.L., Welch J.J., Wang H., DeLacure M.D. Tumour volume estimated by computed tomography as a predictive factor in carcinoma of the tongue. Br. J. Oral. Maxillofac. Surg. 2000; 38 (5): 460–5.

32. Mancuso A.A., Mukherji S.K., Schmalfuss I., Mendenhall W.M., Parsons J.T., Stringer S.P. Preradiotherapy computed tomography as a predictor of local control in supraglottic carcinoma. J. Clin. Oncol. 1999; 17 (2): 631–7.

33. Rutkowski T. The role of tumor volume in radiotherapy of patients with head and neck cancer. Oncology. 2014; 9 (23): 1–9.

34. Van den Brekel M.W. Lymph node metastases: CT and MRI. Eur. J. Radiol. 2000; 33 (3): 230–8.

35. Vasil'ev A.Yu., Duditskaya T.K., Vikulova Yu.V. Comparative analysis of the possibilities of multislice computed tomography and magnetic resonance imaging in the diagnosis of tumors of the oral cavity and oropharynx. Radiologiya praktika. 2013; 1: 4–10 (in Russian).

36. Nakayama E., Ariji E., Shinohara M., Yoshiura K., Miwa K., Kanda S. Computed tomography appearance of marked keratinization of metastatic cervical lymph nodes: a case report. Oral. Surg. Oral. Med. Oral. Pathol. Oral. Radiol. Endod. 1997; 84 (3): 321–6.

37. Som P.M., Curtin H.D. Head and neck imaging. Mosby-Year Book. 2003; 2: 1361–74.

38. Mukherji S.K., Isaacs D.L., Creager A., Shockley W., Weissler M., Armao D. CT detection of mandibular invasion by squamous cell carcinoma of the oral cavity. Am. J. Roentgenol. 2001; 177 (1): 237–43.

39. Handschel J., Naujoks C., Depprich R.A., Kьbler N.R., Krцpil P., Kuhlemann J. et al. CT scan is a valuable tool to detect mandibular involvement in oral cancer patients. Oral. Oncol. 2012; 48(4): 361–6.

40. Emonts P., Bourgeois P., Lemort M., Flamen P. Functional imaging of head and neck cancers. Current Opin. Oncol. 2009; 21: 212–7.

41. Hansen M.L., Norling R., Lauridsen C. Computed tomography (CT) perfusion in abdominal cancer: technical aspects. Diagnostics. 2013; 3 (2): 261–70.

42. Faggioni L., Neri E., Bartolozzi C. CT Perfusion of head and neck tumors: how we do it. Am. J. Roentgenol. 2010; 194 (1): 62–9.

43. Szarvas T., Jager T., Droste F., Becker M., Kovalszky I., Romics I. et al. Serum levels of angiogenic factors and their prognostic relevance in bladder cancer. Pathol. Oncol. Res. 2009; 15 (2): 193–201.

44. Rossler J., Taylor M., Geoerger B., Farace F., Lagodny J., Peschka- Sьss R. et al. Angiogenesis as a target in neuroblastoma. Eur. J. Cancer. 2008; 44 (12): 1645–56.

45. Cuenod C.A., Fournier L., Balvay D., Guinebretie`re J.M. Tumor angiogenesis: pathophysiology and implications for contrast-enhanced MRI and CT assessment. Abdom. Imaging. 2006; 31 (2): 188–93.

46. Provenzale J.M. Imaging of angiogenesis: clinical techniques and novel imaging methods. Am. J. Roentgenol. 2007; 188 (1): 11–23.

47. Sahani D.V. Perfusion CT: An overview of technique and clinical applications. Proc. Intl. Soc. Mag. Reson. Med. 2010; 18: 1–12.

48. Rumboldt Z., Al-Okaili R., Deveikis J.P. Perfusion CT for head and neck tumors: pilot study. Am. J. Neuroradiol. 2005; 26 (5): 1178–85.

49. Bisdas S., Rumboldt Z., Surlan-Popovic K., Baghif M., Kohd T.S., Vogl T.J. et al. Perfusion CT in squamous cell carcinoma of the upper aerodigestive tract: longterm predictive value of baseline perfusion CT measurements. Am. J. Neuroradiol. 2010; 31 (3): 576–81.

50. Bhatnagar P., Subesinghe M., Patel C., Prestwich R., Scarsbrook A.F. Functional imaging for radiation treatment planning, response assessment, and adaptive therapy in head and neck cancer. RadioGraphics. 2013; 33 (7): 1909–29.


Дополнительные файлы

Для цитирования: Юдин А.л., Щетинин р.А., Афанасьева Н.И. Рак языка и дна полости рта: современные аспекты диагностики. Вестник рентгенологии и радиологии. 2015;(5):42-48. https://doi.org/10.20862/0042-4676-2015-0-5-84-89

For citation: Yudin A.L., Shсhetinin R.A., Afanas'eva N.I. Cancer of the tongue and floor of the mouth: Current aspects of diagnosis. Journal of radiology and nuclear medicine. 2015;(5):42-48. (In Russ.) https://doi.org/10.20862/0042-4676-2015-0-5-84-89

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