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Items: 1 to 20 of 92

1.

Delta-Aminolevulinic Acid-Mediated Photodiagnoses in Surgical Oncology: A Historical Review of Clinical Trials.

Georges JF, Valeri A, Wang H, Brooking A, Kakareka M, Cho SS, Al-Atrache Z, Bamimore M, Osman H, Ifrach J, Yu S, Li C, Appelt D, Lee JYK, Nakaji P, Brill K, Yocom S.

Front Surg. 2019 Sep 4;6:45. doi: 10.3389/fsurg.2019.00045. eCollection 2019. Review.

2.

5-aminolevulinic acid-induced protoporphyrin IX with multi-dose ionizing irradiation enhances host antitumor response and strongly inhibits tumor growth in experimental glioma in vivo.

Yamamoto J, Ogura S, Shimajiri S, Nakano Y, Akiba D, Kitagawa T, Ueta K, Tanaka T, Nishizawa S.

Mol Med Rep. 2015 Mar;11(3):1813-9. doi: 10.3892/mmr.2014.2991. Epub 2014 Nov 21.

PMID:
25420581
3.

Quantitative fluorescence using 5-aminolevulinic acid-induced protoporphyrin IX biomarker as a surgical adjunct in low-grade glioma surgery.

Valdés PA, Jacobs V, Harris BT, Wilson BC, Leblond F, Paulsen KD, Roberts DW.

J Neurosurg. 2015 Sep;123(3):771-80. doi: 10.3171/2014.12.JNS14391. Epub 2015 Jul 3.

4.

Dual-labeling with 5-aminolevulinic acid and fluorescein for fluorescence-guided resection of high-grade gliomas: technical note.

Suero Molina E, Wölfer J, Ewelt C, Ehrhardt A, Brokinkel B, Stummer W.

J Neurosurg. 2018 Feb;128(2):399-405. doi: 10.3171/2016.11.JNS161072. Epub 2017 Mar 24.

PMID:
28338432
5.

Comparative study of X-ray treatment and photodynamic therapy by using 5-aminolevulinic acid conjugated gold nanoparticles in a melanoma cell line.

Mohammadi Z, Sazgarnia A, Rajabi O, Seilanian Toosi M.

Artif Cells Nanomed Biotechnol. 2017 May;45(3):467-473. doi: 10.3109/21691401.2016.1167697. Epub 2016 Apr 7.

PMID:
27052440
6.

Scanning Fiber Endoscope Improves Detection of 5-Aminolevulinic Acid-Induced Protoporphyrin IX Fluorescence at the Boundary of Infiltrative Glioma.

Belykh E, Miller EJ, Hu D, Martirosyan NL, Woolf EC, Scheck AC, Byvaltsev VA, Nakaji P, Nelson LY, Seibel EJ, Preul MC.

World Neurosurg. 2018 May;113:e51-e69. doi: 10.1016/j.wneu.2018.01.151. Epub 2018 Feb 2.

7.

Histopathological implications of ventricle wall 5-aminolevulinic acid-induced fluorescence in the absence of tumor involvement on magnetic resonance images.

Moon JH, Kim SH, Shim JK, Roh TH, Sung KS, Lee JH, Park J, Choi J, Kim EH, Kim SH, Kang SG, Chang JH.

Oncol Rep. 2016 Aug;36(2):837-44. doi: 10.3892/or.2016.4881. Epub 2016 Jun 16.

PMID:
27374931
8.

5-aminolevulinic acid photodynamic therapy for the treatment of high-grade gliomas.

Mahmoudi K, Garvey KL, Bouras A, Cramer G, Stepp H, Jesu Raj JG, Bozec D, Busch TM, Hadjipanayis CG.

J Neurooncol. 2019 Feb;141(3):595-607. doi: 10.1007/s11060-019-03103-4. Epub 2019 Jan 18. Review.

PMID:
30659522
9.

Endoscopic-assisted visualization of 5-aminolevulinic acid-induced fluorescence in malignant glioma surgery: a technical note.

Rapp M, Kamp M, Steiger HJ, Sabel M.

World Neurosurg. 2014 Jul-Aug;82(1-2):e277-9. doi: 10.1016/j.wneu.2013.07.002. Epub 2013 Jul 16.

PMID:
23871813
10.

Review of Neurosurgical Fluorescence Imaging Methodologies.

Pogue BW, Gibbs-Strauss S, Valdés PA, Samkoe K, Roberts DW, Paulsen KD.

IEEE J Sel Top Quantum Electron. 2010 May;16(3):493-505.

11.

Hysteroscopic Photodynamic Diagnosis Using 5-Aminolevulinic Acid: A High-Sensitivity Diagnostic Method for Uterine Endometrial Malignant Diseases.

Matoba Y, Banno K, Kisu I, Kobayashi Y, Tsuji K, Nagai S, Yamagami W, Nakamura M, Tominaga E, Kawaida M, Aoki D.

J Minim Invasive Gynecol. 2019 Aug 12. pii: S1553-4650(19)30372-3. doi: 10.1016/j.jmig.2019.08.012. [Epub ahead of print]

12.

Photodynamic diagnosis of pleural malignant lesions with a combination of 5-aminolevulinic acid and intrinsic fluorescence observation systems.

Kitada M, Ohsaki Y, Matsuda Y, Hayashi S, Ishibashi K.

BMC Cancer. 2015 Mar 25;15:174. doi: 10.1186/s12885-015-1194-0.

13.

Atypical endometrial hyperplasia diagnosed by hysteroscopic photodynamic diagnosis using 5-aminolevulinic acid.

Matoba Y, Banno K, Kisu I, Tsuji K, Aoki D.

Photodiagnosis Photodyn Ther. 2019 Jun;26:45-47. doi: 10.1016/j.pdpdt.2019.03.006. Epub 2019 Mar 5.

14.

5ALA in pediatric brain tumors is not routinely beneficial.

Roth J, Constantini S.

Childs Nerv Syst. 2017 May;33(5):787-792. doi: 10.1007/s00381-017-3371-8. Epub 2017 Mar 14. Review.

PMID:
28293736
15.

Neurosurgical microscopic solid laser-based light inhibits photobleaching during fluorescence-guided brain tumor removal with 5-aminolevulinic acid.

Matsuda F, Ikeda N, Kajimoto Y, Nonoguchi N, Takeuchi K, Fukumura M, Kawabata S, Furuse M, Sugano T, Sato T, Saito K, Kuroiwa T.

Photodiagnosis Photodyn Ther. 2017 Dec;20:120-124. doi: 10.1016/j.pdpdt.2017.09.012. Epub 2017 Sep 19.

PMID:
28935534
16.

What is the Surgical Benefit of Utilizing 5-Aminolevulinic Acid for Fluorescence-Guided Surgery of Malignant Gliomas?

Hadjipanayis CG, Widhalm G, Stummer W.

Neurosurgery. 2015 Nov;77(5):663-73. doi: 10.1227/NEU.0000000000000929. Review.

17.

Quantitative and qualitative 5-aminolevulinic acid-induced protoporphyrin IX fluorescence in skull base meningiomas.

Bekelis K, Valdés PA, Erkmen K, Leblond F, Kim A, Wilson BC, Harris BT, Paulsen KD, Roberts DW.

Neurosurg Focus. 2011 May;30(5):E8. doi: 10.3171/2011.2.FOCUS1112.

18.

Coregistered fluorescence-enhanced tumor resection of malignant glioma: relationships between δ-aminolevulinic acid-induced protoporphyrin IX fluorescence, magnetic resonance imaging enhancement, and neuropathological parameters. Clinical article.

Roberts DW, Valdés PA, Harris BT, Fontaine KM, Hartov A, Fan X, Ji S, Lollis SS, Pogue BW, Leblond F, Tosteson TD, Wilson BC, Paulsen KD.

J Neurosurg. 2011 Mar;114(3):595-603. doi: 10.3171/2010.2.JNS091322. Epub 2010 Apr 9.

19.

5-ALA and FDA approval for glioma surgery.

Hadjipanayis CG, Stummer W.

J Neurooncol. 2019 Feb;141(3):479-486. doi: 10.1007/s11060-019-03098-y. Epub 2019 Jan 14. Review.

PMID:
30644008
20.

Hyperspectral data processing improves PpIX contrast during fluorescence guided surgery of human brain tumors.

Bravo JJ, Olson JD, Davis SC, Roberts DW, Paulsen KD, Kanick SC.

Sci Rep. 2017 Aug 25;7(1):9455. doi: 10.1038/s41598-017-09727-8.

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