Crónicas de autores

Carlos Eduardo Da Silva *

Autor invitado por SIIC

O trabalho visa observar se o tumores da base do crânio captam fluoresceína sódica durante o tratamento neurocirúrgico.

USO DE FLUORESCEÍNA SÓDICA EM TUMORES DA BASE DE CRÂNIO

O presente estudo observou que a captação da fluoresceína sódica pelos tumores da base do crânio foi consistente e, através da análise digital fotográfica, foi possível documentar uma diferença pré e pós administração da substância que apresentou significância estatística.

*Carlos Eduardo Da Silva
describe para SIIC los aspectos relevantes de su trabajo
USE OF SODIUM FLUORESCEIN IN SKULL BASE TURMOS
Surgical Neurology International,
1(5):92-96 Sep, 2010

Esta revista, clasificada por SIIC Data Bases, integra el acervo bibliográfico
de la Biblioteca Biomédica (BB) SIIC.

Institución principal de la investigación
*Hospital Ernesto Dornelles, Porto Alegre, Brasil
Imprimir nota
Comprar este artículo
Otros artículos escogidos
Referencias bibliográficas
Moore GE, Peyton WT, French LA, et al. The clinical use of fluorescein in neurosurgery. The localization of brain tumors. J Neurosurg 5:392-398, 1948.
Kabuto M, Kubota T, Kobayashi H, et al. Experimental and clinical study of detection of glioma at surgery using fluorescent imaging by a surgical microscope after fluorescein administration. Neurol Res 19:9-16, 1997.
Kuroiwa T, Kajimoto Y, Ohta T. Comparison between operative findings on malignant glioma by a fluorescein surgical microscopy and histological findings. Neurol Res 21:130-134, 1999.
Kuroiwa T, Kajimoto Y, Ohta T, et al. Development of a fluorescein operative microscope for use during malignant glioma surgery: a technical note and preliminary report. Surg Neurol 50:41-49, 1998.
Shinoda J, Yano H, Yoshimura SI, et al. Fluorescence-guided resection of glioblastoma multiforme by using high-dose fluorescein sodium Technical note. J Neurosurg 99:597-603, 2003.
Stummer W, Novotny A, Stepp H, et al. Fluorescence-guided resection of glioblastoma multiforme by using 5-aminolevulinic acid-induced porphyrins: a prospective study in 52 consecutive patients. J Neurosurg 93:1003-1013, 2000.
Takeda N, Tanaka R. Usefulness of intraoperative administration of fluorescein in patients with cerebral malignant gliomas. Tohoku No-Shuyou Konwakai-shi 25:96-106, 1991.
Morita A, Sekhar LN, Wright DC. Cancer Control 5(2):138-149, 1998.
Von Baeyer A. Uber ein neue Klasse von Farbstoffen. Ber Deut Chem Ges 4:555, 1871.
Noga EJ, Udomkusonsri P. Fluorescein: A rapid, sensitive, nonlethal method for detecting skin ulceration in fish. Vet Pathol 39:726-731, 2002.
Wang XQ, Duan XM, Liu LH, et al. Carboxyfluorescein diacetate succinimidyl ester fluorescent dye for cell labeling. Acta50 Biochimica et Biophysica Sinica 37(6):379-385, 2005.
Mintern J, Li M, Davey GM, Carbone FR, Heath WR. The use of carboxyfluorescein diacetate succinimidyl ester to determine the site, duration and cell type responsible for antigen presentation in vivo. Immunology and Cell Biology 77:539-543, 1999.
Pill J, Issaeva O, Woderer S, et al. Pharmacological profile and toxicity of fluorescein-labelled sinistrin, a novel marker for GFR measurements. Naunyn- Schmiedeberg's Archives of Pharmacology 373(3):204-211, 2006.
Subramanian S, Wellings RM. In vivo and in vitro staining of the myocardium with fluorescein. British Journal of Surgery 51(6):430-432.
Pouliquen H, Algoet M, Buchet V, et al. Acute toxicity of fluorescein to turbot (Scophthalmus maximus). Vet Hum Toxicol 37(6):527-529, 1995.
Walthall WK, Stark JD. The acute and chronic toxicity of two xanthene dyes, fluorescein sodium salt and phloxine B, to Daphnia pulex. Environmental Pollution 104(2):207-215, 1999.
Lira RPC, Oliveira CLA, Marques MVRB, et al. Adverse reactions of fluorescein angiography: a prospective study. Arq Bras Oftalmol 70(4):615-8, 2007.
Kwan ASL, Barry C, McAllister I L, et al. Fluorescein angiography and adverse drug reactions revisited: the Lions Eye experience. Clinical and Experimental Ophthalmology 34:33-38, 2006.
Donald PJ. History of skull base surgery. Skull Base Surgery 1(1):1-3, 1991.
Prevedello DM, Kassan AB, Snyderman C, et al. Endoscopic cranial base surgery: Ready for prime time? Clinical Neurosurgery 54:48-57, 2007.
Rhoton Jr AL. Cranial anatomy and surgical approaches. Schaumburg, IL: Lippincott Williams and Wilkins, 2003.
Doncatto LF, Da Silva JB, Da Silva VD, et al. Cutaneous viability in a rat pedicled TRAM flap model. Plast Reconstr Surg 119(5):1425-1430, 2007.
Rodriguez AL, Stefani FS, De Oliveira Praes CE, et al. Effects of ultraviolet radiation on human cutaneous nerve fibres. Cell Prolif 42(4):562-7, 2009.
Al-Mefty O. Supraorbital-pterional approach to skull base lesions. Neurosurgery 21:474-477, 1987.
Al-Mefty O. Clinoidal meningiomas. J Neurosurg 58:840-849, 1990.
Al-Mefty O, Smith R. Surgery of tumors invading the cavernous sinus. Surg Neurol 30:370-381, 1988.
Al-Mefty O, Fox JL. Petrosal approach for petroclival meningiomas. Neurosurgery 22(3):510-517, 1988.
Cusimano MD, Sekhar LN, Sen CN, et al. The results of surgery for benign tumors of the cavernous sinus. Neurosurgery 37:1-10, 1995.
De Jesus O, Sekhar LN, Parikh HK, et al. Long-term follow-up of patients with meningiomas involving the cavernous sinus: recurrence, progression, and quality of life. Neurosurgery 39:915-920, 1996.
DeMonte F, Smith HK, Al-Mefty O. Outcome of aggressive removal of cavernous sinus meningiomas. J Neurosurg 81:245-251, 1994.
Knosp E, Perneczky A, Koos WT, et al. Meningiomas of the space of the cavernous sinus. Neurosurgery 38:434-444, 1996.
Olivero WC, Lister JR, Elwood PW. The natural history and growth rate of asymptomatic meningiomas: a review of 60 patients. J Neurosurg 83:222-224, 1995.
Samii M, Draf W. Surgery of the skull base: an interdisciplinary approach. 1th ed. Berlin: Springer, 1989.
Simpson D. The recurrence of intracranial meningiomas after surgical treatment. J Neurol Neurosurg Psychiatry 20:22-39, 1957.
Van Havenbergh T, Carvalho G, Tatagiba M, et al. Natural history of petroclival meningiomas. Neurosurgery 52:55-64, 2003.
Yasargil MG, Mortara RW, Curcic M. Meningiomas of the basal posterior cranial fossa. Adv Tech Stand Neurosurg 7:1-115, 1980.
Wu ZB, Yu CJ, Guan SS. Posterior petrous meningiomas: 82 cases. J Neurosurg 102:284-289, 2005.
Bonnal J, Thibaut A, Brotchi J, et al. Invading meningiomas of the sphenoid ridge. J Neurosurg 53:587-599, 1980.
Couldwell WT, Kan P, Liu JK, et al. Decompression of cavernous sinus meningioma for preservation and improvement of cranial nerve function. Technical note. J Neurosurg 105:148-152, 2006.
O'Sullivan MG, Van Loveren HR, Tew JM Jr. The surgical resectability of meningiomas of the cavernous sinus. Neurosurgery 40:238-247, 1997.
Sakatta K, Al-Mefty O, Yamamoto I. Venous Consideration in petrosal appraoch: microsurgical anatomy of the temporal brigding vein. Neurosurgery 47:153 -161, 2000.
Silva CE, Peron CS, Nesi A, et al. Importance of the temporal venous drainage to the petrosal approaches of the skull base. J Bras Neurocir 20(1):27-32, 2009.
Harris FS, Rhoton AL. Anatomy of the cavernous sinus. A microsurgical study. J Neurosurg 45:169-180, 1976.
Heth JA, Al-Mefty O. Cavernous sinus meningiomas. Neurosurg Focus 14:e3, 2003.
Parkinson D. A surgical approach to the cavernous portion of the carotid artery: Anatomical studies and case report. J Neurosurg 23:474-483, 1965.
Rhoton AL Jr, Inoue T. Microsurgical approaches to the cavernous sinus. Clin Neurosurg 37:391-439, 1989.
Samii M, Ammirati M. Cerebellopontine angle meningiomas. In: Al-Mefty O, ed. Meningiomas. 1th ed. New York, NY: Raven Press, pp. 503-515, 1991.
Samii M, Carvalho GA, Tatagiba M, et al. Surgical management of meningiomas originating in Meckel's cave. Neurosurgery 41:767-775, 1997.
Sekhar LN, Burgess J, Akin O. Anatomical study of the cavernous sinus emphasizing operative approaches and related vascular and neural reconstruction. Neurosurgery 21:806-816, 1987.
Sekhar LN, Schramm VL Jr, Jones NF. Subtemporal-preauricular infratemporal fossa approach to large lateral and posterior cranial base neoplasms. J Neurosurg 67:488-499, 1987.
Chang SD, Adler JR Jr. Treatment of cranial base meningiomas with linear accelerator radiosurgery. Neurosurgery 41:1019-1027, 1997.
Couldwell WT, Cole CD, Al-Mefty O. Patterns of skull base meningioma progression after failed radiosurgery. J Neurosurg 106:30-35, 2007.
Duma CM, Lunsford LD, Kondziolka D, et al. Stereotactic radiosurgery of cavernous sinus meningiomas as an addition or alternative to microsurgery. Neurosurgery 32:699-705, 1993.
Subach BR, Lunsford LD, Kondziolka D, et al. Management of petroclival meningiomas by stereotactic radiosurgery. Neurosurgery 42:437-445, 1998.


ua40317