Warning: Undefined array key "mm" in /www/wwwroot/www.ai-bt.com/si.php on line 10 Deprecated: trim(): Passing null to parameter #1 ($string) of type string is deprecated in /www/wwwroot/www.ai-bt.com/si.php on line 10 Dose to specific subregions of pelvic bone marrow defined with FDG-PET as a predictor of hematologic nadirs during concomitant chemoradiation in anal cancer patients.

Literature DB >> 27277756

Dose to specific subregions of pelvic bone marrow defined with FDG-PET as a predictor of hematologic nadirs during concomitant chemoradiation in anal cancer patients.

Pierfrancesco Franco¹, Francesca Arcadipane², Riccardo Ragona², Adriana Lesca³, Elena Gallio⁴, Massimiliano Mistrangelo⁵, Paola Cassoni⁶, Vincenzo Arena⁷, Sara Bustreo⁸, Riccardo Faletti⁹, Nadia Rondi¹⁰, Mario Morino⁵, Umberto Ricardi².

Abstract

To test the hypothesis that irradiated volume of specific subregions of pelvic active bone marrow as detected by (18)FDG-PET may be a predictor of decreased blood cells nadirs in anal cancer patients undergoing concurrent chemoradiation, we analyzed 44 patients submitted to IMRT and concurrent chemotherapy. Several bony structures were defined: pelvic and lumbar-sacral (LSBM), lower pelvis (LPBM) and iliac (IBM) bone marrow. Active BM was characterized employing (18)FDG-PET and characterized in all subregions as the volume having standard uptake values (SUVs) higher than SUVmean. All other regions were defined as inactive BM. On dose-volume histograms, dosimetric parameters were taken. Endpoints included white blood cell count (WBC), absolute neutrophil count (ANC), hemoglobin (Hb) and platelet (Plt) nadirs. Generalized linear modeling was used to find correlations between dosimetric variables and blood cells nadirs. WBC nadir was significantly correlated with LSBM mean dose (β = -1.852; 95 % CI -3.205/-0.500; p = 0.009), V10 (β = -2.153; 95 % CI -4.263/-0.721; p = 0.002), V20 (β = -2.081; 95 % CI -4.880/-0.112; p = 0.003), V30 (β = -1.971; 95 % CI -4.748/-0.090; p = 0.023) and IBM V10 (β = -0.073; 95 % CI -0.106/-0.023; p = 0.016). ANC nadir found to be significantly associated with LSBM V10 (β = -1.878; 95 % CI -4.799/-0.643; p = 0.025), V20 (β = -1.765; 95 % CI -4.050/-0.613; p = 0.030) and IBM V10 (β = -0.039; 95 % CI -0.066/-0.010; p = 0.027). Borderline significance was found for correlation between Plt nadir and LSBM V30 (β = -0.056; 95 % CI -2.748/-0.187; p = 0.060), V40 (β = -0.059; 95 % CI -3.112/-0.150; p = 0.060) and IBM V30 (β = -0.028; 95 % CI -0.074/-0.023; p = 0.056). No inactive BM subsites were found to be correlated with any blood cell nadir. (18)FDG-PET is able to define active bone marrow within pelvic osseous structures. LSBM is the strongest predictor of decreased blood cells nadirs in anal cancer patients undergoing concurrent chemoradiation.

Entities: Disease Gene Species

Keywords: Anal cancer; Bone marrow; Concomitant radiochemotherapy; Hematologic toxicity; IMRT; PET; Radiotherapy

Mesh：

Substances：

Year: 2016 PMID： 27277756 DOI： 10.1007/s12032-016-0789-x

Source DB: PubMed Journal: Med Oncol ISSN： 1357-0560 Impact factor: 3.064

28 in total

1. Epidermoid anal cancer: results from the UKCCCR randomised trial of radiotherapy alone versus radiotherapy, 5-fluorouracil, and mitomycin. UKCCCR Anal Cancer Trial Working Party. UK Co-ordinating Committee on Cancer Research.

Authors:
Journal: Lancet Date: 1996-10-19 Impact factor: 79.321

2. Concomitant radiotherapy and chemotherapy is superior to radiotherapy alone in the treatment of locally advanced anal cancer: results of a phase III randomized trial of the European Organization for Research and Treatment of Cancer Radiotherapy and Gastrointestinal Cooperative Groups.

Authors: H Bartelink; F Roelofsen; F Eschwege; P Rougier; J F Bosset; D G Gonzalez; D Peiffert; M van Glabbeke; M Pierart
Journal: J Clin Oncol Date: 1997-05 Impact factor: 44.544

3. Incorporation of SPECT bone marrow imaging into intensity modulated whole-pelvic radiation therapy treatment planning for gynecologic malignancies.

Authors: John C Roeske; Anthony Lujan; Richard C Reba; Bill C Penney; S Diane Yamada; Arno J Mundt
Journal: Radiother Oncol Date: 2005-07-18 Impact factor: 6.280

4. Locally Advanced (T3-T4 or N+) Anal Cancer Treated with Simultaneous Integrated Boost Radiotherapy and Concurrent Chemotherapy.

Authors: Pierfrancesco Franco; Francesca Arcadipane; Riccardo Ragona; Massimiliano Mistrangelo; Paola Cassoni; Nadia Rondi; Mario Morino; Patrizia Racca; Umberto Ricardi
Journal: Anticancer Res Date: 2016-04 Impact factor: 2.480

5. Fluorouracil, mitomycin, and radiotherapy vs fluorouracil, cisplatin, and radiotherapy for carcinoma of the anal canal: a randomized controlled trial.

Authors: Jaffer A Ajani; Kathryn A Winter; Leonard L Gunderson; John Pedersen; Al B Benson; Charles R Thomas; Robert J Mayer; Michael G Haddock; Tyvin A Rich; Christopher Willett
Journal: JAMA Date: 2008-04-23 Impact factor: 56.272

6. Dosimetric predictors of acute hematologic toxicity during concurrent intensity-modulated radiotherapy and chemotherapy for anal cancer.

Authors: P Franco; R Ragona; F Arcadipane; M Mistrangelo; P Cassoni; N Rondi; M Morino; P Racca; U Ricardi
Journal: Clin Transl Oncol Date: 2016-04-01 Impact factor: 3.405

Review 7. Structural and functional imaging of normal bone marrow and evaluation of its age-related changes.

Authors: Judy S Blebea; Mohamed Houseni; Drew A Torigian; Chengzhong Fan; Ayse Mavi; Ying Zhuge; Tad Iwanaga; Shipra Mishra; Jay Udupa; Jiyuan Zhuang; Rohit Gopal; Abass Alavi
Journal: Semin Nucl Med Date: 2007-05 Impact factor: 4.446

8. Intensity-modulated radiation therapy with simultaneous integrated boost combined with concurrent chemotherapy for the treatment of anal cancer patients: 4-year results of a consecutive case series.

Authors: Pierfrancesco Franco; Massimiliano Mistrangelo; Francesca Arcadipane; Fernando Munoz; Piera Sciacero; Rosella Spadi; Fernanda Migliaccio; Veronica Angelini; Sebastiano Bombaci; Nadia Rondi; Gianmauro Numico; Riccardo Ragona; Paola Cassoni; Mario Morino; Patrizia Racca; Umberto Ricardi
Journal: Cancer Invest Date: 2015-05-07 Impact factor: 2.176

9. Can dosimetric parameters predict acute hematologic toxicity in rectal cancer patients treated with intensity-modulated pelvic radiotherapy?

Authors: Juefeng Wan; Kaitai Liu; Kaixuan Li; Guichao Li; Zhen Zhang
Journal: Radiat Oncol Date: 2015-08-04 Impact factor: 3.481

10. Spatial mapping of functional pelvic bone marrow using FLT PET.

Authors: Sarah M McGuire; Yusuf Menda; Laura L Boles Ponto; Brandie Gross; Mindi TenNapel; Brian J Smith; John E Bayouth
Journal: J Appl Clin Med Phys Date: 2014-07-08 Impact factor: 2.102

14 in total

1. Lumbar-sacral bone marrow dose modeling for acute hematological toxicity in anal cancer patients treated with concurrent chemo-radiation.

Authors: Pierfrancesco Franco; Riccardo Ragona; Francesca Arcadipane; Massimiliano Mistrangelo; Paola Cassoni; Nadia Rondi; Mario Morino; Patrizia Racca; Umberto Ricardi
Journal: Med Oncol Date: 2016-11-04 Impact factor: 3.064

2. Mapping Bone Marrow Response in the Vertebral Column by Positron Emission Tomography Following Radiotherapy and Erlotinib Therapy of Lung Cancer.

Authors: Azadeh Abravan; Hanne Astrid Eide; Ayca Muftuler Løndalen; Åslaug Helland; Eirik Malinen
Journal: Mol Imaging Biol Date: 2019-04 Impact factor: 3.488

3. Volumetric modulated arc therapy (VMAT) in the treatment of esophageal cancer patients.

Authors: Stefania Martini; Francesca Arcadipane; Paolo Strignano; Rosella Spadi; Viviana Contu; Christian Fiandra; Riccardo Ragona; Giorgia Catalano; Maria Antonietta Satolli; Michele Camandona; Renato Romagnoli; Umberto Ricardi; Pierfrancesco Franco
Journal: Med Oncol Date: 2018-10-04 Impact factor: 3.064

4. Dosimetric Comparison of Intensity-Modulated Proton Therapy and Volumetric-Modulated Arc Therapy in Anal Cancer Patients and the Ability to Spare Bone Marrow.

Authors: Teresa Meier; Anthony Mascia; Eric Wolf; Jordan Kharofa
Journal: Int J Part Ther Date: 2017-12-28

Review 5. De-Escalation of Therapy for Patients with Early-Stage Squamous Cell Carcinoma of the Anus.

Authors: Eric Miller; Jose Bazan
Journal: Cancers (Basel) Date: 2021-04-27 Impact factor: 6.639

6. Incorporating ¹⁸FDG-PET-defined pelvic active bone marrow in the automatic treatment planning process of anal cancer patients undergoing chemo-radiation.

Authors: Pierfrancesco Franco; Christian Fiandra; Francesca Arcadipane; Elisabetta Trino; Francesca Romana Giglioli; Riccardo Ragona; Umberto Ricardi
Journal: BMC Cancer Date: 2017-11-02 Impact factor: 4.430

7. Concurrent Chemoradiation in Anal Cancer Patients Delivered with Bone Marrow-Sparing IMRT: Final Results of a Prospective Phase II Trial.

Authors: Francesca Arcadipane; Patrick Silvetti; Francesco Olivero; Alessio Gastino; Roberta Carlevato; Ilaria Chiovatero; Lavinia Spinelli; Massimiliano Mistrangelo; Paola Cassoni; Giuliana Ritorto; Elena Gallio; Adriana Lesca; Riccardo Faletti; Francesca Romana Giglioli; Christian Fiandra; Umberto Ricardi; Pierfrancesco Franco
Journal: J Pers Med Date: 2021-05-18

Review 8. The Use of Imaging in the Prediction and Assessment of Cancer Treatment Toxicity.

Authors: Hossein Jadvar
Journal: Diagnostics (Basel) Date: 2017-07-20

9. The prognostic role of hemoglobin levels in patients undergoing concurrent chemo-radiation for anal cancer.

Authors: Pierfrancesco Franco; Francesco Montagnani; Francesca Arcadipane; Chiara Casadei; Kalliopi Andrikou; Stefania Martini; Giuseppe Carlo Iorio; Mario Scartozzi; Massimiliano Mistrangelo; Lorenzo Fornaro; Paola Cassoni; Stefano Cascinu; Umberto Ricardi; Andrea Casadei Gardini
Journal: Radiat Oncol Date: 2018-05-02 Impact factor: 3.481

10. Comparing simultaneous integrated boost vs sequential boost in anal cancer patients: results of a retrospective observational study.

Authors: Pierfrancesco Franco; Berardino De Bari; Francesca Arcadipane; Alexis Lepinoy; Manuela Ceccarelli; Gabriella Furfaro; Massimiliano Mistrangelo; Paola Cassoni; Martina Valgiusti; Alessandro Passardi; Andrea Casadei Gardini; Elisabetta Trino; Stefania Martini; Giuseppe Carlo Iorio; Andrea Evangelista; Umberto Ricardi; Gilles Créhange
Journal: Radiat Oncol Date: 2018-09-10 Impact factor: 3.481