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01.07.2004 | Head and Neck

Image fusion of thallium-201 SPECT and MR imaging for the assessment of recurrent head and neck tumors following flap reconstructive surgery

verfasst von: Noriaki Tomura, Osamu Watanabe, Koichi Omachi, Ikuo Sakuma, Satoshi Takahashi, Takahiro Otani, Hiroyuki Kidani, Jiro Watarai

Erschienen in: European Radiology | Ausgabe 7/2004

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Abstract

The aim of this study was to assess the value of fused MR and Tl-201 single photon emission computed tomography (SPECT) images in the diagnosis of recurrent head and neck tumors in patients after flap reconstruction surgery. Twenty-four patients after resection of primary head and neck tumors with flap reconstruction were suspected of having recurrent tumor by follow-up MR examination. Both MR examination and Tl-201 SPECT were prospectively performed to produce fused images. For qualitative analysis, two independent readers separately evaluated the existence of tumor recurrence in the fused images. The Tl-201 uptake of the lesion (Tl index) was also quantitatively compared with that of the normal nuchal muscles. Eighteen patients were histologically proved as having recurrence. The remaining 6 patients, false positive on MRI alone, had non-recurrence. Using the fused images, false positive was found in 1 case for one reader and 2 cases for the other reader. The Tl index of recurrent tumors was significantly higher (p<0.001) than that of non-recurrent mass lesions. In the assessment of recurrent tumors following flap reconstruction surgery in the head and neck, the use of fused MRI and Tl-201 SPECT images can reduce the number of false positives.

Urken ML, Weinberg H, Vickery C et al. (1989) Free flap design in head and neck reconstruction to achieve an external segment for monitoring. Arch Otolaryngol Head Neck Surg 115:1447–1453PubMed

Salibian AH, Allison GR, Krugman ME et al. (1995) Reconstruction of the base of the tongue with the microvascular ulnar forearm flap: a functional assessment. Plast Reconstr Surg 96:1081–1089PubMed

Som PM, Urken ML, Biller H et al. (1993) Imaging the postoperative neck. Radiology 187:593–603PubMed

Hudgins PA, Burson JG, Gussack GS et al. (1994) CT and MR appearance of recurrent malignant head and neck neoplasms after resection and flap reconstruction. Am J Neuroradiol 15:1689–1694

Tomura N, Watanabe O, Hirano Y et al. (2002) MR imaging of recurrent head and neck tumours following flap reconstructive surgery. Clin Radiol 57:109–113CrossRefPubMed

Mukherji SK, Gapany M, Phillips D et al. (1999) Thallium-201 single-photon emission CT vs CT for the detection of recurrent squamous cell carcinoma of the head and neck. Am J Neuroradiol 20:1215–1220PubMed

Sobin LH, Wittekind C (eds) (2002) UICC (International Union Against Cancer) TNM classification of malignant tumours, 6th edn. Wiley-Liss, New York, pp 19–56

Cook GJR, Ott RJ (2001) Dural-modality imaging. Eur Radiol 11:1857–1858CrossRefPubMed

Townsend DW, Cherry SR (2001) Combining anatomy and function: the path to true image fusion. Eur Radiol 11:1857–1858CrossRefPubMed

10.

Scott AM, Macapinlac H, Zhang JJ et al. (1994) Clinical applications of fusion imaging in oncology. Nucl Med Biol 21:775–784PubMed

11.

Perault C, Schvartz C, Wampach H et al. (1997) Thoracic and abdominal SPECT-CT image fusion without external markers in endocrine carcinomas. J Nucl Med 38:1234–1242PubMed

12.

Beyer T, Townsend DW, Brun T et al. (2000) A combined PET/CT scanner for clinical oncology. J Nucl Med 41:1369–1379PubMed

13.

Israel O, Keidar Z, Iosilevsky G et al. (2001) The fusion of anatomic and physiologic imaging in the management of patients with cancer. Semin Nucl Med 31:191–205PubMed

14.

Andersson JLR, Sundin A, Valind S (1995) A method for coregistration of PET and MR brain images. J Nucl Med 36:1307–1315PubMed

15.

Uematsu H, Sadato N, Yonekura Y et al. (1998) Coregistration of FDG PET and MRI of the head and neck using normal distribution of FDG. J Nucl Med 39:2121–2127PubMed

16.

Wahl RL, Quint LE, Cieslak RD et al. (1993) “Anatometabolic” tumor imaging: fusion of FDG PET with CT or MRI to localize foci of increased activity. J Nucl Med 34:1190–1197PubMed

17.

Wahl RL, Quint LE, Greenough RL et al. (1994) Staging of mediastinal non-small cell lung cancer with FDG PET, CT, and fusion images: preliminary prospective evaluation. Radiology 191:371–377PubMed

18.

Cai J, Chu JCH, Recine D et al. (1999) CT and PET lung image registration and fusion in radiotherapy treatment planning using the champhor-matching method. Int J Radiat Oncol Biol Phys 43:883–891CrossRefPubMed

19.

Eubank WB, Mankoff DA, Schmiedl UP et al. (1998) Imaging of oncologic patients: benefit of combined CT and FDG PET in the diagnosis of malignancy. AJR 171:1103–1110

20.

Charron M, Beyer T, Bohnen NN, Kinahan PE et al. (2000) Image analysis in patients with cancer studied with a combined PET and CT scanner. Clin Nucl Med 25:905–910PubMed

21.

Schaffler GJ, Groell R, Schoellnast H et al. (2000) Digital image fusion of CT and PET data sets: clinical value in abdominal/pelvic malignancies. J Comput Assist Tomogr 24:644–647CrossRefPubMed

22.

Bocher M, Balan A, Krausz Y et al. (2000) Gamma camera-mounted anatomical X-ray tomography: technology, system characteristics and first images. Eur J Nucl Med 27:619–627CrossRefPubMed

23.

Loats H (1993) CT and SPECT image registration and fusion for spatial localization of metastatic processes using radiolabeled monoclonals. J Nucl Med 43:562–656

24.

Ardekani BA, Braun M, Hutton BF, Kanno I, Iida H (1995) A fully automatic multimodality image registration algorithm. J Comput Assist Tomogr 19:615–623PubMed

25.

Tomura N, Hirano H, Watanabe O et al. (2000) Comparison of thallium-201 and gallium-67 imaging in evaluation of head and neck tumors. J Comput Assist Tomogr 24:454–460CrossRefPubMed

26.

Mukherji SK, Drane WE, Tart RP et al. (1994) Comparison of thallium-201 and F-18 FDG SPECT uptake in squamous cell carcinoma of the head and neck. Am J Neuroradiol 15:1837–1842PubMed

27.

Lapela M, Grenman R, Kurki T et al. (1995) Head and neck cancer: detection of recurrence with PET and 2-[F-18] fluoro-2-deoxy-D-glucose. Radiology 197:205–211PubMed

28.

Anzai Y, Carroll WR, Quint DJ et al. (1996) Recurrence of head and neck cancer after surgery or irradiation: prospective comparison of 2-deoxy-2-[F-18] fluoro-D-glucose PET and MR imaging diagnosis. Radiology 200:135–141PubMed

29.

Elligsen JD, Thompson JE, Frey HE et al. (1974) Correlation of Na–K ATPase activity with growth of normal and transformed cells. Exp Cell Res 87:233–240PubMed

30.

Nagamachi S, Hoshi H, Jinnouchi S et al. (1996) 201 Tl SPECT for evaluating head and neck cancer. Ann Nucl Med 10:105–111PubMed

Titel: Image fusion of thallium-201 SPECT and MR imaging for the assessment of recurrent head and neck tumors following flap reconstructive surgery
verfasst von: Noriaki Tomura
Osamu Watanabe
Koichi Omachi
Ikuo Sakuma
Satoshi Takahashi
Takahiro Otani
Hiroyuki Kidani
Jiro Watarai
Publikationsdatum: 01.07.2004
Verlag: Springer-Verlag
Erschienen in: European Radiology / Ausgabe 7/2004
Print ISSN: 0938-7994
Elektronische ISSN: 1432-1084
DOI: https://doi.org/10.1007/s00330-003-2083-5

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