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http://dx.doi.org/10.3340/jkns.2013.54.3.175

Intracavitary Radiation Therapy for Recurrent Cystic Brain Tumors with Holmium-166-Chico : A Pilot Study  

Ha, Eun Jin (Neuro-Oncology Clinic, National Cancer Center)
Gwak, Ho-Shin (Neuro-Oncology Clinic, National Cancer Center)
Rhee, Chang Hun (Department of Neurosurgery, Korea Institute of Radiological and Medical Science)
Youn, Sang Min (Department of Neurosurgery, Korea Institute of Radiological and Medical Science)
Choi, Chang-Woon (Department of Nuclear Medicine, Korea Institute of Radiological and Medical Science)
Cheon, Gi Jeong (Department of Nuclear Medicine, Seoul National University Hospital)
Publication Information
Journal of Korean Neurosurgical Society / v.54, no.3, 2013 , pp. 175-182 More about this Journal
Abstract
Objective : Intracavitary injection of beta-emitting radiation source for control of cystic tumors has been tried with a benefit of localized internal radiation. The authors treated cystic brain tumor patients with Holmium-166-chitosan complex (Ho-166-chico), composed of a beta-emitting radionuclide Holmium-166 and biodegradable chit polymer, and evaluated the safety and effective measurement for response. Methods : Twenty-two patients with recurrent cystic brain tumor and/or located in a deep or eloquent area were enrolled in this pilot study. The cyst volume and wall thickness were determined on CT or MRI to assess radiological response. The activity of Ho-166-chico injected via Ommaya reservoir was prescribed to be 10-25 Gy to the cyst wall in a depth of 4 mm. Results : There was neither complications related to systemic absorption nor leakage of Ho-166-chico in all 22 patients. But, two cases of oculomotor paresis were observed in patients with recurrent craniopharyngioma. Radiological response was seen in 14 of 20 available follow-up images (70%). Seven patients of 'evident' radiological response experienced more than 25% decrease of both cyst volume and wall thickness. Another 7 patients with 'suggestive' response showed decrease of cyst volume without definitive change of the wall thickness or vice versa. All patients with benign tumors or low grade gliomas experienced symptomatic improvement. Conclusion : Ho-166-chico intracavitary radiation therapy for cystic tumor is a safe method of palliation without serious complications. The determination of both minimal effective dosage and time interval of repeated injection through phase 1 trial could improve the results in the future.
Keywords
Holmium; Chitosan; Intracavitary radiation; Intracranial cyst;
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1 Fox JL : Intermittent drainage of intracranial cyst via the subcutaneous Ommaya reservoir. Technical note. J Neurosurg 27 : 272-273, 1967   DOI
2 Gutin PH, Klemme WM, Lagger RL, MacKay AR, Pitts LH, Hosobuchi Y : Management of the unresectable cystic craniopharyngioma by aspiration through an Ommaya reservoir drainage system. J Neurosurg 52 : 36-40, 1980   DOI
3 Henson JW, Ulmer S, Harris GJ : Brain tumor imaging in clinical trials. AJNR Am J Neuroradiol 29 : 419-424, 2008   DOI
4 Julow J, Lányi F, Hajda M, Simkovics M, Arany I, Tóth S, et al. : The radiotherapy of cystic craniopharyngioma with intracystic installation of 90Y silicate colloid. Acta Neurochir (Wien) 74 : 94-99, 1985   DOI
5 Kim JH, Lee JT, Kim EK, Won JY, Kim MJ, Lee JD, et al. : Percutaneous sclerotherapy of renal cysts with a beta-emitting radionuclide, holmium-166-chitosan complex. Korean J Radiol 5 : 128-133, 2004   DOI
6 Kobayashi T, Kageyama N, Ohara K : Internal irradiation for cystic craniopharyngioma. J Neurosurg 55 : 896-903, 1981   DOI
7 Lange M, Kirsch CM, Steude U, Oeckler R : Intracavitary treatment of intrasellar cystic craniopharyngeomas with 90-Yttrium by trans-sphenoidal approach--a technical note. Acta Neurochir (Wien) 135 : 206-209, 1995   DOI
8 Lee JD, Park KK, Lee MG, Kim EH, Rhim KJ, Lee JT, et al. : Radionuclide therapy of skin cancers and Bowen's disease using a specially designed skin patch. J Nucl Med 38 : 697-702, 1997
9 Mumper RJ, Ryo UY, Jay M : Neutron-activated holmium-166-poly (L-lactic acid) microspheres : a potential agent for the internal radiation therapy of hepatic tumors. J Nucl Med 32 : 2139-2143, 1991
10 Leksell L, Backlund EO, Johansson L : Treatment of craniopharyngiomas. Acta Chir Scand 133 : 345-350, 1967
11 Leksell L, Liden K : A therapeutic trial with radioactive isotopes in cystic brain tumor in Atomic Energy Research Establishment (ed) : Radioisotope Techniques : Medical and physiological applications. London : H.M. Stationery Office, 1951, Vol 1
12 Liu Z, Tian Z, Yu X, Li S, Huang H, Kang G, et al. : Stereotactic intratumour irradiation with nuclide for craniopharyngiomas. Chin Med J (Engl) 109 : 219-222, 1996
13 Muzzarelli R, Baldassarre V, Conti F, Ferrara P, Biagini G, Gazzanelli G, et al. : Biological activity of chitosan : ultrastructural study. Biomaterials 9 : 247-252, 1988   DOI
14 Nijsen JF, Zonnenberg BA, Woittiez JR, Rook DW, Swildens-van Woudenberg IA, van Rijk PP, et al. : Holmium-166 poly lactic acid microspheres applicable for intra-arterial radionuclide therapy of hepatic malignancies : effects of preparation and neutron activation techniques. Eur J Nucl Med 26 : 699-704, 1999   DOI
15 Park KB, Kim YM, Shin BC, Kim JR : Study on the preparations of new 166Ho-chitosan complex and its macroaggregates for a potential use of internal radiotherapy. Korean J Nucl Med 30 : 351-360, 1996
16 Pollack IF, Lunsford LD, Slamovits TL, Gumerman LW, Levine G, Robinson AG : Stereotaxic intracavitary irradiation for cystic craniopharyngiomas. J Neurosurg 68 : 227-233, 1988   DOI
17 Prestwich WV, Nunes J, Kwok CS : Beta dose point kernels for radionuclides of potential use in radioimmunotherapy. J Nucl Med 30 : 1036-1046, 1989
18 Backlund EO, Johansson L, Sarby B : Studies on craniopharyngiomas. II. Treatment by stereotaxis and radiosurgery. Acta Chir Scand 138 : 749-759, 1972
19 Burton MA, Gray BN, Klemp PF, Kelleher DK, Hardy N : Selective internal radiation therapy : distribution of radiation in the liver. Eur J Cancer Clin Oncol 25 : 1487-1491, 1989   DOI
20 Huk WJ, Mahlstedt J : Intracystic radiotherapy (90Y) of craniopharyngiomas : CT-guided stereotaxic implantation of indwelling drainage system. AJNR Am J Neuroradiol 4 : 803-806, 1983
21 Suzuki YS, Momose Y, Higashi N, Shigematsu A, Park KB, Kim YM, et al. : Biodistribution and kinetics of holmium-166-chitosan complex (DW-166HC) in rats and mice. J Nucl Med 39 : 2161-2166, 1998
22 Rogers LR, Barnett G : Percutaneous aspiration of brain tumor cysts via the Ommaya reservoir system. Neurology 41 (Pt 1) : 279-282, 1991   DOI
23 Strauss L, Sturm V, Georgi P, Schlegel W, Ostertag H, Clorius JH, et al. : Radioisotope therapy of cystic craniopharyngomas. Int J Radiat Oncol Biol Phys 8 : 1581-1585, 1982   DOI
24 Sturm V RT, Strauss L : Preliminary results of intracavitary irradiation of cystic craniopharyngiomas by means of stereotactically applied yittrium-90, in Schiefer W KM, Brock M (eds) : Advances in Neurosurgery. Berlin : Springer-Verlag, 1981, Vol 9, pp401-404
25 Taasan V, Shapiro B, Taren JA, Beierwaltes WH, McKeever P, Wahl RL, et al. : Phosphorus-32 therapy of cystic Grade IV astrocytomas : technique and preliminary application. J Nucl Med 26 : 1335-1338, 1985
26 Wen PY, Macdonald DR, Reardon DA, Cloughesy TF, Sorensen AG, Galanis E, et al. : Updated response assessment criteria for high-grade gliomas : response assessment in neuro-oncology working group. J Clin Oncol 28 : 1963-1972, 2010   DOI